National Library of Energy BETA

Sample records for requires engine manufacturers

  1. Biodiesel Outlook - An Engine Manufacturer's Perspective | Department...

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Outlook - An Engine Manufacturer's Perspective Biodiesel Outlook - An Engine ... More Documents & Publications Biodiesel ASTM Update and Future Technical Needs Recent ...

  2. Sandia Energy - Wind Energy Manufacturing Lab Helps Engineers...

    U.S. Department of Energy (DOE) - all webpages (Extended Search)

    Wind Energy Manufacturing Lab Helps Engineers Improve Wind Power Home Renewable Energy Energy Partnership News Wind Energy Wind Energy Manufacturing Lab Helps Engineers Improve...

  3. Optical manufacturing requirements for an AVLIS plant

    SciTech Connect

    Primdahl, K.; Chow, R.; Taylor, J.R.

    1997-07-14

    A uranium enrichment plant utilizing Atomic Vapor Laser Isotope Separation (AVLIS) technology is currently being planned. Deployment of the Plant will require tens of thousands of commercial and custom optical components and subsystems. The Plant optical system will be expected to perform at a high level of optical efficiency and reliability in a high-average-power-laser production environment. During construction, demand for this large number of optics must be coordinated with the manufacturing capacity of the optical industry. The general requirements and approach to ensure supply of optical components is described. Dynamic planning and a closely coupled relationship with the optics industry will be required to control cost, schedule, and quality.

  4. RESIDUAL STRESSES IN ADDITIVELY MANUFACTURED INCONEL 718 ENGINE...

    Office of Scientific and Technical Information (OSTI)

    Title: RESIDUAL STRESSES IN ADDITIVELY MANUFACTURED INCONEL 718 ENGINE MOUNT Authors: Watkins, Thomas R 1 ; Cornwell, Paris A 1 ; Dehoff, Ryan R 1 ; Nangia, Vinod 2 ; ...

  5. Requirements for status for volume fuel cell manufacturing

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Requirements & Status for Volume Fuel Cell Manufacturing DOE Hydrogen Program, Washington, DC July 13-14, 2005 Requirements for Manufactured Fuel Cells Customer Requirements: Commercial Plant Study - Volume: 250,000 fuel stacks per year - Cost: $30/kw net Requirements for Manufactured Fuel Cells Commercial Volume Manufacturing - Material Utilization: >85% - Controlled Environments (Humidity, temperature, dust) - Environmentally safe direct and indirect materials - Hydrogen safety - Make

  6. Update of Energy Efficiency Requirements for Manufactured Homes

    SciTech Connect

    Conner, Craig C.; Dillon, Heather E.; Lucas, Robert G.; Early, Chris; Lubliner, Michael

    2004-03-22

    Energy efficiency requirements were developed for manufactured (mobile) homes, which are regulated by the U.S. Department of Housing and Urban Development (HUD). A life-cycle cost analysis from the homeowner's perspective was used to establish parameters for a least-cost home in a large number of cities. Economic, financial, and energy-efficiency measures for the life-cycle cost analysis were selected. The resulting energy-efficiency levels were aggregated to the existing HUD zones and expressed as a maximum overall home U-value (thermal transmittance) requirement for the building envelope. The proposed revised standard's costs, benefits, and net value to the consumer were quantified. This analysis updates a similar effort completed in 1992, which was the basis for the existing HUD code Uo requirements.

  7. Advanced Manufacturing and Engineering Equipment at the University of Southern Indiana

    SciTech Connect

    Mitchell, Zane Windsor; Gordon, Scott Allen

    2014-08-04

    Department of Energy grant DE-SC0005231was awarded to the University of Southern Indiana for the purchase of Advanced Manufacturing and Engineering equipment.

  8. Requirements for status for volume fuel cell manufacturing |...

    Energy.gov [DOE] (indexed site)

    Backup Power Applications Direct Hydrogen PEMFC Manufacturing Cost Estimation for Automotive Applications: Fuel Cell Tech Team Review Fuel Cell Manufacturing: American Energy and ...

  9. Fuel Requirements for HCCI Engine Operation | Department of Energy

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Requirements for HCCI Engine Operation Fuel Requirements for HCCI Engine Operation 2002 DEER Conference Presentation: Southwest Research Institute PDF icon 2002deerryan.pdf More ...

  10. DOE Requires Manufacturers to Halt Sales of Heat Pumps and Air Conditioners

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Violating Minimum Appliance Standards | Department of Energy Requires Manufacturers to Halt Sales of Heat Pumps and Air Conditioners Violating Minimum Appliance Standards DOE Requires Manufacturers to Halt Sales of Heat Pumps and Air Conditioners Violating Minimum Appliance Standards June 3, 2010 - 12:00am Addthis Washington, DC - Today, the Department of Energy announced that three manufacturers -- Aspen Manufacturing, Inc., Summit Manufacturing, and Advanced Distributor Products -- must

  11. DOE Requires Manufacturer and Labeler to Cease Sale of Incandescent...

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    of Non-Compliance Determination to Westinghouse Lighting Corporation and Fuzhou Sunlight Lighting Electrical Appliance Company requiring that they halt the sale of 8 basic...

  12. Correlation testing of the European EMA (Engine Manufacturers Association) round-robin engine (Daimler-Benz OM 366a). Heavy-duty engine testing report. Technical report

    SciTech Connect

    Baines, T.M.

    1987-12-01

    This report examines the results of testing the Daimler-Benz OM 366 A heavy-duty engine at the Environmental Protection Agency Motor Vehicle Emission Laboratory. This heavy-duty engine was tested for the purpose of providing correlation data for the comparison with similar data developed by European Engine Manufacturers (EMA). The European EMA members organized a round robin testing program and decided to test a Daimler-Benz OM 366A engine, and to focus the program on gathering simple cold start/hot start Federal Test Procedure data. The report includes the results of the tests, including engine description, fuels, test procedures and test plans.

  13. Application of Engineering and Technical Requirements for DOE...

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    DOE Nuclear Facilities Standard Review Plan (SRP) Application of Engineering and Technical Requirements for DOE Nuclear Facilities Standard Review Plan (SRP) This Standard Review ...

  14. Application of Engineering and Technical Requirements for 30...

    Energy Saver

    30, 60, and 90% Design of DOE Nuclear Facilities Application of Engineering and Technical Requirements for 30, 60, and 90% Design of DOE Nuclear Facilities This Standard Review ...

  15. Manufacturing

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Flow of Materials through Industry / Sustainable 1 Manufacturing 2 Technology Assessment 3 Contents 4 1. Introduction to the Technology/System ............................................................................................... 1 5 1.1 Supply chain and material flow analysis ....................................................................................... 1 6 2. Technology Assessment and Potential

  16. Survey of manufacturers of high-performance heat engines adaptable to solar applications

    SciTech Connect

    Stine, W. B.

    1984-06-15

    This report summarizes the results of an industry survey made during the summer of 1983. The survey was initiated in order to develop an information base on advanced engines that could be used in the solar thermal dish-electric program. Questionnaires inviting responses were sent to 39 companies known to manufacture or integrate externally heated engines. Follow-up telephone communication ensured uniformity of response.

  17. DOE Requires Manufacturers to Halt Sales of Heat Pumps and Air...

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Media contact(s): (202) 586-4940 Addthis Related Articles DOE Requires Manufacturers to Halt Sales of Heat Pumps and Air Conditioners Violating Minimum Appliance Standards DOE Orders ...

  18. Additive Manufacturing

    U.S. Department of Energy (DOE) - all webpages (Extended Search)

    MST » MST Research Programs » Additive Manufacturing Additive Manufacturing A method allowing unparalleled manufacturing control, data visualization, and high-value parts repair. Through additive manufacturing, Los Alamos is developing materials for the future. Taking complex manufacturing challenges from design to fabrication. A science and engineering approach for additive manufacturing solutions. Get Expertise John Carpenter Technical Staff Member Metallurgy Email Division Leader Materials

  19. Addressing the Manufacturing Issues Associated with the use of Ceramic Materials for Diesel Engine Components.

    SciTech Connect

    McSpadden, SB

    2001-09-12

    This CRADA supports the objective of selecting appropriate ceramic materials for manufacturing several diesel engine components and addressing critical manufacturing issues associated with these components. Materials that were evaluated included several varieties of silicon nitride and stabilized zirconia. The critical manufacturing issues that were addressed included evaluation of the effect of grain size and the effect of the grinding process on mechanical properties, mechanical performance, reliability, and expected service life. The CRADA comprised four tasks: (1) Machining of Zirconia and Silicon Nitride Materials; (2) Mechanical Properties Characterization and Performance Testing; (3) Tribological Studies; and (4) Residual Stress Studies. Using instrumented equipment at the High Temperature Materials Laboratory (HTML) Machining and Inspection Research User Center (MIRUC), zirconia and silicon nitride materials were ground into simulated component geometries. These components were subsequently evaluated for mechanical properties, wear, and residual stress characteristics in tasks two, three, and four.

  20. Revision of the energy conservation requirements in the manufactured home construction and safety standards

    SciTech Connect

    Conner, C.C.; Lee, A.D.; Lucas, R.G.; Taylor, Z.T.

    1992-02-01

    Thermal requirements were developed for manufactured (mobile) homes in response to legislation requiring the US Department of Housing and Urban Development (HUD) to revise its thermal standards for manufactured homes. A life-cycle cost minimization from the home owner`s perspecetive was used to establish an optimum in a large number of cities for several prototype homes. The development of the economic, financial, and energy conservation measure parameters input into the life-cycle cost analysis was documented. The optimization results were aggregated to zones which were expressed as a maximum overall home U-value (thermal transmittance) requirement. The revised standard`s costs, benefits, and net value to the consumer were quantified. 50 refs.

  1. Career Map: Industrial Engineer | Department of Energy

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Industrial Engineer Career Map: Industrial Engineer Two industrial engineers analyze data on a computer. Industrial Engineer Position Title Industrial Engineer Alternate Title(s) Production Engineer, Process Engineer, Manufacturing Engineer, Industrial Production Manager Education & Training Level Advanced, Bachelors required, prefer graduate degree Education & Training Level Description Industrial engineers should have a bachelor's degree in industrial engineering. Employers also value

  2. DOE Requires Manufacturers to Halt Sales of Heat Pumps and Air Conditioners Violating Minimum Appliance Standards

    Energy.gov [DOE]

    Today, the Department of Energy announced that three manufacturers -- Aspen Manufacturing, Inc., Summit Manufacturing, and Advanced Distributor Products -- must stop distributing 61 heat pump...

  3. Proposal for a Guide for Quality Management Systems for PV Manufacturing: Supplemental Requirements to ISO 9001-2008 (Revised)

    SciTech Connect

    Norum, P.; Sinicco, I.; Eguchi, Y.; Lokanath, S.; Zhou, W.; Brueggemann, G.; Mikonowicz, A.; Yamamichi, M.; Kurtz, S.

    2013-09-01

    This technical specification provides a guideline for photovoltaic module manufacturers to produce modules that, once the design has proven to meet the quality and reliability requirements, replicate such design in an industrial scale without compromising its consistency with the requirements.

  4. Revision of the Energy-Efficiency Requirements in the Manufactured Home Construction and Safety Standards

    SciTech Connect

    Conner, Craig C.; Dillon, Heather E.; Lucas, Robert G.; Lubliner, Michael

    2004-06-01

    Energy-efficiency requirements were developed for manufactured (mobile) homes, which are regulated by the U.S. Department of Housing and Urban Development. A life-cycle cost analysis from the homeowner's perspective was used to establish parameters for a least-cost home in a large number of cities. Economic, financial, and energy-efficiency measures for the life-cycle cost analysis were selected and documented. The resulting energy-efficiency levels were aggregated to zones that were expressed as a maximum overall home U-factor (thermal transmittance) requirement for the building envelope. The proposed revised standard's costs, benefits, and net value to the consumer were quantified. This analysis updates a similar effort completed in 1992, which was the basis for the existing HUD code overall U-factor requirement.

  5. engineering

    National Nuclear Security Administration (NNSA)

    an award last month for his 3D printing innovation. It could revolutionize additive manufacturing.

    Lawrence Livermore Lab engineer Bryan Moran wasn't necessarily...

  6. The Hidden Job Requirements for a Software Engineer

    SciTech Connect

    Marinovici, Maria C.; Kirkham, Harold; Glass, Kevin A.

    2014-01-09

    In a world increasingly operated by computers, where innovation depends on software, the software engineer’s role is changing continuously and gaining new dimensions. In commercial software development as well as scientific research environments, the way software developers are perceived is changing, because they are more important to the business than ever before. Nowadays, their job requires skills extending beyond the regular job description posted by HR, and more is expected. To advance and thrive in their new roles, the software engineers must embrace change, and practice the themes of the new era (integration, collaboration and optimization). The challenges may be somehow intimidating for freshly graduated software engineers. Through this paper the authors hope to set them on a path for success, by helping them relinquish their fear of the unknown.

  7. Instrumentation requirements from the user's view. [For airbreathing hypersonic engines

    SciTech Connect

    Harsha, P.T.

    1988-01-01

    The use of combustor diagnostics is considered from the point of view of demonstration of performance of an airbreathing hypersonic engine. The basic need is seen to be that of providing the data necessary to verify performance predictions for the engine as installed in the airplane. This necessitates the use of a diagnostics capability that can provide the inputs required by the computational analyses that will be used to assess this performance. Because of the cost of ground test facilities, a premium is placed on measurement technique reliability and redundancy of instrumentation. A mix of nonintrusive optical techniques and probe-based measurements is seen to be the best approach using current diagnostics capability; one such instrument mix is outlined for a ramjet/scramjet test program. 11 references.

  8. WPN 03-6: Manufactured Home Energy Audit (MHEA) Software Upgrade Availability and Licensing Requirements

    Energy.gov [DOE]

    To provide states instructions for obtaining the Weatherization Assistance Program's upgraded audit software package for manufactured/mobile homes.

  9. Updated Proposal for a Guide for Quality Management Systems for PV Manufacturing. Supplemental Requirements to ISO 9001-2008

    SciTech Connect

    Ramu, Govind; Yamamichi, Masaaki; Zhou, Wei; Mikonowicz, Alex; Lokanath, Sumanth; Eguchi, Yoshihito; Norum, Paul; Kurtz, Sarah

    2015-03-01

    The goal of this Technical Specification is to provide a guideline for manufacturers of photovoltaic (PV) modules to produce modules that, once the design is proven to meet the quality and reliability requirements, replicate the design on an industrial scale without compromising its consistency with the requirements.

  10. Manufacturing technologies

    SciTech Connect

    1995-09-01

    The Manufacturing Technologies Center is an integral part of Sandia National Laboratories, a multiprogram engineering and science laboratory, operated for the Department of Energy (DOE) with major facilities at Albuquerque, New Mexico, and Livermore, California. Our Center is at the core of Sandia`s Advanced Manufacturing effort which spans the entire product realization process.

  11. Future Breathing System Requirements for Clean Diesel Engines

    Energy.gov [DOE]

    Poster presentation at the 2007 Diesel Engine-Efficiency & Emissions Research Conference (DEER 2007). 13-16 August, 2007, Detroit, Michigan. Sponsored by the U.S. Department of Energy's (DOE) Office of FreedomCAR and Vehicle Technologies (OFCVT).

  12. Technical support document: Survey data used in revising the energy conservation requirements in the manufactured home construction and safety standards

    SciTech Connect

    Lee, A.D.; Conner, C.C.

    1992-02-01

    This report documents data used in the development of revised energy conservation standards for manufactured housing. The approach used in developing the proposed standard revision is a cost-benefit analysis in which the costs of energy conservation measures (ECM) are balanced against the benefits of energy savings. The analysis used to develop the recommendations for revision of the US Department of Housing and Urban Development (HUD) energy conservation standards for manufactured housing requires information on specific ECMs. This technical support document contains the data from two of the three surveys that were used primarily to characterize the available ECMs and their associated costs. The analyses of these data are provided in separate reports. 5 refs.

  13. DOE Requires Manufacturer and Labeler to Cease Sale of Incandescent Reflector Lamps

    Energy.gov [DOE]

    DOE has issued Notices of Non-Compliance Determination to Westinghouse Lighting Corporation and Fuzhou Sunlight Lighting Electrical Appliance Company requiring that they halt the sale of 8 basic...

  14. Lessons Learned During the Manufacture of the NCSX Modular Coils

    SciTech Connect

    James H. Chrzanowski,Thomas G. Meighan, Steven Raftopoulos and Lawrence Dudek and Paul J. Fogarty

    2009-09-15

    The National Compact Stellarator Experiment's (NCSX) modular coils presented a number of engineering and manufacturing challenges due to their complex shapes, requirements for high dimensional accuracy and high current density requirements due to space constraints. Being the first of their kind, these coils required the implementation of many new manufacturing and measuring techniques and procedures. This was the first time that these manufacturing techniques and methods were applied in the production of coils at the laboratory. This resulted in a steep learning curve for the first several coils. Through the effective use of procedures, tooling modifications, involvement and ownership by the manufacturing workforce, and an emphasis on safety, the assembly team was able to reduce the manufacturing times and improve upon the manufacturing methods. This paper will discuss the learning curve and steps that were taken to improve the manufacturing efficiency and reduce the manufacturing times for the modular coils without forfeiting quality.

  15. Implementation of Title V requirements at an aerospace manufacturing and rework facility

    SciTech Connect

    Stark, W.T.; Ayers, M.F.; Reed, J.T.

    1998-12-31

    The Clean Air Act Amendments of 1990 forced many sources to apply for permits and be subject to both state and federal oversight through the operating permit programs implemented under Title V. In order to comply with new permit provisions, many sources were forced to develop and implement complex programs that would both ensure compliance and allow maximum operating flexibility. Although no material tracking or reporting system existed before the Learjet facility became subject to Title V, careful planning and use of the proper tools and procedures allowed the implementation of a facility-wide data management and compliance reporting system that is not process dependent, allows maximum operating flexibility, and adds relatively few inconveniences to operations personnel. Also, as new requirements become effective in the coming years, the flexibility of the system allows it to be easily modified by facility personnel.

  16. Application of Engineering and Technical Requirements for 30, 60, and 90% Design of DOE Nuclear Facilities

    Office of Energy Efficiency and Renewable Energy (EERE)

    This Standard Review Plan (SRP), Application of Engineering and Technical Requirements for 30, 60 and 90% Design of DOE Nuclear Facilities, was developed by the Office of Chief of Nuclear Safety (CNS), Office of the Environmental Management. The SRP is designed to help strengthen the technical rigor of line management oversight and federal monitoring of the design process of DOE nuclear facilities.

  17. Technology Innovation and Future Research Needs in Net Shape Manufacturing

    SciTech Connect

    Yang, Dong-Yol

    2005-08-05

    The rapid change in customer needs and industrial environment has demanded innovations in the manufacturing sector. Metal forming industries have been confronted with new challenges of innovations in products, processes, machines, materials and production systems. From the viewpoints of competitiveness of products, new paradigms are required for innovation in manufacturing, especially in net shape manufacturing. Product innovations are increasingly put under emphasis beyond manufacturing innovations based on the holistic concurrent engineering approach. The presentation covers not only the innovation methodologies, but also the innovation directions in net shape manufacturing.

  18. Manufacturing Perspective

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    EOT_RT_Sub_Template.ppt | 1/6/2009 | 1 BOEING is a trademark of Boeing Management Company. Copyright © 2009 Boeing. All rights reserved. Compressed Hydrogen Storage Workshop Manufacturing Perspective Karl M. Nelson (karl.m.nelson@boeing.com) Boeing Research & Technology Engineering, Operations & Technology | Boeing Research & Technology Materials & Fabrication Technology EOT_RT_Sub_Template.ppt | 1/12/2009 | Structural Tech 2 Copyright © 2009 Boeing. All rights reserved. DOE

  19. Application of Engineering and Technical Requirements for DOE Nuclear Facilities Standard Review Plan (SRP)

    Office of Energy Efficiency and Renewable Energy (EERE)

    This Standard Review Plan (SRP), Application of Engineering and Technical Requirements for DOE Nuclear Facilities, was developed by the Chief of Nuclear Safety (CNS)1, Office of the Under Secretary for Nuclear Security, to help strengthen the technical rigor of line management oversight and federal monitoring of DOE nuclear facilities. This SRP (hereafter refers to as the Engineering SRP) provides consistent review guidance to assure that engineering and technical requirements are appropriately applied for the design, operations and disposition2 of DOE nuclear facilities. It is one of a series of three SRPs developed by the CNS. The other two SRPs address: 1) nuclear safety basis program review; and 2) application of requirements of DOE O 413.3B, Program and Project Management for the Acquisition of Capital Assets, and DOE-STD-1189, Integration of Safety into the Design Process, for DOE Critical Decision (CD) review and approval. These SRPs may be revised in the future to reflect changes in the DOE requirements, lessons learned, and experience/insights from nuclear facility design, operations, and disposition.

  20. Advanced Reciprocating Engine Systems

    Energy.gov [DOE]

    The Advanced Reciprocating Engine Systems (ARES) program is designed to promote separate but parallel engine development between the major stationary, gaseous fueled engine manufacturers in the...

  1. Sustainable Manufacturing

    Energy.gov [DOE] (indexed site)

    Workshop on Sustainable Manufacturing January 6-7, 2016 Portland, OR DOE Workshop on Sustainable Manufacturing January 6-7, 2016 Portland, OR Sustainable Manufacturing: Definitions ...

  2. Manufactured Homes Tool

    Energy Science and Technology Software Center

    2005-03-09

    The MH Tool software is designed to evaluate existing and new manufactured homes for structural adequacy in high winds. Users define design elements of a manufactured home and then select the hazard(s) for analysis. MH Tool then calculates and reports structural analysis results for the specified design and hazard Method of Solution: Design engineers input information (geometries, materials, etc.) describing the structure of a manufactured home, from which the software automatically creates a mathematical model.more » Windows, doors, and interior walls can be added to the initial design. HUD Code loads (wind, snow loads, interior live loads, etc.) are automatically applied. A finite element analysis is automatically performed using a third party solver to find forces and stresses throughout the structure. The designer may then employ components of strength (and cost) most appropriate for the loads that must be carried at each location, and then re-run the analysis for verification. If forces and stresses are still within tolerable limits (such as the HUD requirements), construction costs would be reduced without sacrificing quality.« less

  3. Material Design, Selection, and Manufacturing Methods for System Sustainment

    SciTech Connect

    David Sowder, Jim Lula, Curtis Marshall

    2010-02-18

    This paper describes a material selection and validation process proven to be successful for manufacturing high-reliability long-life product. The National Secure Manufacturing Center business unit of the Kansas City Plant (herein called KCP) designs and manufactures complex electrical and mechanical components used in extreme environments. The material manufacturing heritage is founded in the systems design to manufacturing practices that support the U.S. Department of Energy’s National Nuclear Security Administration (DOE/NNSA). Material Engineers at KCP work with the systems designers to recommend materials, develop test methods, perform analytical analysis of test data, define cradle to grave needs, present final selection and fielding. The KCP material engineers typically will maintain cost control by utilizing commercial products when possible, but have the resources and to develop and produce unique formulations as necessary. This approach is currently being used to mature technologies to manufacture materials with improved characteristics using nano-composite filler materials that will enhance system design and production. For some products the engineers plan and carry out science-based life-cycle material surveillance processes. Recent examples of the approach include refurbished manufacturing of the high voltage power supplies for cockpit displays in operational aircraft; dry film lubricant application to improve bearing life for guided munitions gyroscope gimbals, ceramic substrate design for electrical circuit manufacturing, and tailored polymeric materials for various systems. The following examples show evidence of KCP concurrent design-to-manufacturing techniques used to achieve system solutions that satisfy or exceed demanding requirements.

  4. Green Manufacturing

    SciTech Connect

    Patten, John

    2013-12-31

    Green Manufacturing Initiative (GMI): The initiative provides a conduit between the university and industry to facilitate cooperative research programs of mutual interest to support green (sustainable) goals and efforts. In addition to the operational savings that greener practices can bring, emerging market demands and governmental regulations are making the move to sustainable manufacturing a necessity for success. The funding supports collaborative activities among universities such as the University of Michigan, Michigan State University and Purdue University and among 40 companies to enhance economic and workforce development and provide the potential of technology transfer. WMU participants in the GMI activities included 20 faculty, over 25 students and many staff from across the College of Engineering and Applied Sciences; the College of Arts and Sciences' departments of Chemistry, Physics, Biology and Geology; the College of Business; the Environmental Research Institute; and the Environmental Studies Program. Many outside organizations also contribute to the GMI's success, including Southwest Michigan First; The Right Place of Grand Rapids, MI; Michigan Department of Environmental Quality; the Michigan Department of Energy, Labor and Economic Growth; and the Michigan Manufacturers Technical Center.

  5. Software requirements specification for the GIS-T/ISTEA pooled fund study phase C linear referencing engine

    SciTech Connect

    Amai, W.; Espinoza, J. Jr.; Fletcher, D.R.

    1997-06-01

    This Software Requirements Specification (SRS) describes the features to be provided by the software for the GIS-T/ISTEA Pooled Fund Study Phase C Linear Referencing Engine project. This document conforms to the recommendations of IEEE Standard 830-1984, IEEE Guide to Software Requirements Specification (Institute of Electrical and Electronics Engineers, Inc., 1984). The software specified in this SRS is a proof-of-concept implementation of the Linear Referencing Engine as described in the GIS-T/ISTEA pooled Fund Study Phase B Summary, specifically Sheet 13 of the Phase B object model. The software allows an operator to convert between two linear referencing methods and a datum network.

  6. Engineering

    U.S. Department of Energy (DOE) - all webpages (Extended Search)

    accomplished and versatile leader, managing a wide range of scientific and manufacturing operations," Laboratory Director Michael Anastasio said. "At Los Alamos and elsewhere,...

  7. Engineering Institute

    U.S. Department of Energy (DOE) - all webpages (Extended Search)

    Education Opportunities » Engineering Institute Engineering Institute Engineering dynamics that include flight, vibration isolation for precision manufacturing, earthquake engineering, blast loading, signal processing, and experimental model analysis. Contact Leader, Los Alamos Charles Farrar Email Leader, UCSD Michael Todd Email Los Alamos Program Administrator Jutta Kayser (505) 663-5649 Email Administrative Assistant Stacy Baker (505) 663-5233 Email Collaboration for conducting

  8. Systems engineering functions and requirements for the Hanford cleanup mission: First issue. Addendum 3, Draft

    SciTech Connect

    Holmes, J.J.; Bailey, K.B.; Collings, J.L.; Hubbard, A.B.; Niepke, T.M.

    1994-05-01

    This addendum provides additional information, in the form of Functional Flow Block Diagrams (FFBD), concerning the system engineering functional analysis for the Hanford cleanup mission. Details of the mission analysis including mission statement, scope, problem statement, initial state definition, and final state definition are provided in the parent document. The results of the functional analysis as depicted in Integrated Definition language notation (IDEFO) diagrams are provided in Addendum 2 to the parent document. The FFBDs provided herein cover the total Hanford cleanup mission and depict the decomposition of functions to a reasonable level for understanding (generally level 3 or 4). Functional definitions are contained in Section 3.0 of Addendum 2 to the parent document. Specific programs such as the Tank Waste Remediation System and Environmental Restoration, whose IDEFO diagrams were presented as part of their specific baseline documentation and not included in Addendum 2, have their FFBDs included in this addendum. The information contained in this addendum will remain tied to the overall Hanford cleanup mission through the top-level (``Capstone``) functional analysis so that a complete, top-to-bottom functional documentation set always exists for all mission activities. This linkage is accomplished through the use of the Requirements Driven Design (RDD-100{reg_sign}) design tool. Through the use of RDD-100{reg_sign}, this addendum supports and is traceable to the information presented in Addendum 2 to the parent document.

  9. Development of Advanced Ceramic Manufacturing Technology

    SciTech Connect

    Pujari, V.K.

    2001-04-05

    Advanced structural ceramics are enabling materials for new transportation engine systems that have the potential for significantly reducing energy consumption and pollution in automobiles and heavy vehicles. Ceramic component reliability and performance have been demonstrated in previous U.S. DOE initiatives, but high manufacturing cost was recognized as a major barrier to commercialization. Norton Advanced Ceramics (NAC), a division of Saint-Gobain Industrial Ceramics, Inc. (SGIC), was selected to perform a major Advanced Ceramics Manufacturing Technology (ACMT) Program. The overall objectives of NAC's program were to design, develop, and demonstrate advanced manufacturing technology for the production of ceramic exhaust valves for diesel engines. The specific objectives were (1) to reduce the manufacturing cost by an order of magnitude, (2) to develop and demonstrate process capability and reproducibility, and (3) to validate ceramic valve performance, durability, and reliability. The program was divided into four major tasks: Component Design and Specification, Component Manufacturing Technology Development, Inspection and Testing, and Process Demonstration. A high-power diesel engine valve for the DDC Series 149 engine was chosen as the demonstration part for this program. This was determined to be an ideal component type to demonstrate cost-effective process enhancements, the beneficial impact of advanced ceramics on transportation systems, and near-term commercialization potential. The baseline valve material was NAC's NT451 SiAION. It was replaced, later in the program, by an alternate silicon nitride composition (NT551), which utilized a lower cost raw material and a simplified powder-processing approach. The material specifications were defined based on DDC's engine requirements, and the initial and final component design tasks were completed.

  10. Engineering

    U.S. Department of Energy (DOE) - all webpages (Extended Search)

    Includes Engineering Standards Manual, Master Specifications Index, Drafting Manual, Design Guides, and more. IHS Standards Expert login information Collections include ANSI,...

  11. Flexibility in Biofuel Manufacturing

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Flexibility in Biofuel Manufacturing Dan Gaspar Sustainable Transportation Summit July 12, 2016 Fuel selection overview If we identify the critical fuel properties and target values that maximize efficiency and emissions performance for a given engine architecture, then fuels that have properties with those values (regardless of chemical composition) will provide comparable performance Governing Co-Optima hypotheses: There are engine architectures and strategies that provide higher thermodynamic

  12. USCAR LEP ESST Advanced Manufacturing

    SciTech Connect

    Lazarus, L.J.

    2000-09-25

    The objective of this task was to provide processing information data summaries on powder metallurgy (PM) alloys that meet the partner requirements for the production of low mass, highly accurate, near-net-shape powertrain components. This required modification to existing ISO machinability test procedures and development of a new drilling test procedure. These summaries could then be presented in a web page format. When combined with information generated from the USCAR CRADA this would allow chemical, metallurgical, and machining data on PM alloys to be available to all engineering and manufacturing personnel that have access to in-house networks. The web page format also allows for the additions of other wrought materials, making this a valuable tool to the technical staffs.

  13. A National Strategic Plan For Advanced Manufacturing

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    ... and Census, U.S. International Trade in Goods and ... Currently, Federal investments in advanced manufacturing-related research, ... engineering, and mathematics (STEM) emphasis is ...

  14. Sustainable Manufacturing

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Principal Investigator (Presenter): Dr. Troy D. Marusich , CTO Washington, D.C. May 6-7, 2014 Third Wave Systems Inc. U.S. DOE Advanced Manufacturing Office Peer Review Meeting This presentation does not contain any proprietary, confidential, or otherwise restricted information. o Project Objective  What are you trying to do?  Develop and demonstrate a new manufacturing-informed design paradigm to dramatically improve manufacturing productivity, quality, and costs of machined components

  15. Manufacturing Glossary

    Annual Energy Outlook

    Energy Efficiency Web Site. If you need assistance in viewing this page, please call (202) 586-8800 Home > Energy Users > Energy Efficiency Page > Glossary for the Manufacturing...

  16. additive manufacturing

    U.S. Department of Energy (DOE) - all webpages (Extended Search)

    additive manufacturing - Sandia Energy Energy Search Icon Sandia Home Locations Contact Us Employee Locator Energy & Climate Secure & Sustainable Energy Future Stationary Power ...

  17. ENGINEERING

    U.S. Department of Energy (DOE) - all webpages (Extended Search)

    ENGINEERING the Future of ENERGY Regional University Alliance National Energy Technology Laboratory Office of Research and Development The Future of Energy The time to redraw America's energy blueprint is now. The challenges we face today are the most critical in decades-from the impact of energy use on global ecosystems to the difficulties of efficiently harnessing our natural resources. Because energy is fundamental to human welfare, we must develop sustainable systems that make clean,

  18. Northwest Energy Efficient Manufactured Housing Program: High Performance Manufactured Home Prototyping and Construction Development

    SciTech Connect

    Hewes, Tom; Peeks, Brady

    2013-11-01

    The Building America Partnership for Improved Residential Construction, the Bonneville Power Administration (BPA), and Northwest Energy Works (NEW), the current Northwest Energy Efficient Manufactured Housing Program (NEEM) administrator, have been collaborating to conduct research on new specifications that would improve on the energy requirements of a NEEM home. In its role as administrator, NEW administers the technical specs, performs research and engineering analysis, implements ongoing construction quality management procedures, and maintains a central database with home tracking. This project prototyped and assessed the performances of cost-effective high performance building assemblies and mechanical systems that are not commonly deployed in the manufacturing setting. The package of measures is able to reduce energy used for space conditioning, water heating and lighting by 50% over typical manufactured homes produced in the northwest.

  19. Northwest Energy Efficient Manufactured Housing Program: High Performance Manufactured Home Prototyping and Construction Development

    SciTech Connect

    Hewes, T.; Peeks, B.

    2013-11-01

    The Building America Partnership for Improved Residential Construction, the Bonneville Power Administration (BPA), and Northwest Energy Works (NEW), the current Northwest Energy Efficient Manufactured Housing Program (NEEM) administrator, have been collaborating to conduct research on new specifications that would improve on the energy requirements of a NEEM home. In its role as administrator, NEW administers the technical specs, performs research and engineering analysis, implements ongoing construction quality management procedures, and maintains a central database with home tracking. This project prototyped and assessed the performances of cost-effective high performance building assemblies and mechanical systems that are not commonly deployed in the manufacturing setting. The package of measures is able to reduce energy used for space conditioning, water heating and lighting by 50 percent over typical manufactured homes produced in the northwest.

  20. Technology Solutions for New Manufactured Homes: Idaho, Oregon, and Washington Manufactured Home Builders (Fact Sheet)

    SciTech Connect

    Not Available

    2013-11-01

    The Building America Partnership for Improved Residential Construction, the Bonneville Power Administration (BPA), and Northwest Energy Works (NEW), the current Northwest Energy Efficient Manufactured Housing Program (NEEM) administrator, have been collaborating to conduct research on new specifications that would improve on the energy requirements of a NEEM home. In its role as administrator, NEW administers the technical specs, performs research and engineering analysis, implements ongoing construction quality management procedures, and maintains a central database with home tracking. This project prototyped and assessed the performances of cost-effective high performance building assemblies and mechanical systems that are not commonly deployed in the manufacturing setting. The package of measures is able to reduce energy used for space conditioning, water heating and lighting by 50 percent over typical manufactured homes produced in the northwest.

  1. Mechanical Engineer | Princeton Plasma Physics Lab

    U.S. Department of Energy (DOE) - all webpages (Extended Search)

    Engineer Department: Engineering Supervisor(s): Bill Blanchard Staff: EM 3 Requisition Number: 1500 The Mechanical Design Engineer will develop, design, manufacture, and test ...

  2. Fact #658: January 17, 2011 Increasing Use of Vehicle Technologies to Meet Fuel Economy Requirements

    Energy.gov [DOE]

    Vehicle manufacturers are turning to vehicle technologies to improve efficiency and meet strict fuel economy requirements. Over the last 10 years, the use of engine technologies like multi-valves...

  3. National Network for Manufacturing Innovation | Department of Energy

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    National Network for Manufacturing Innovation National Network for Manufacturing Innovation Image of Energy Department's Assistant Secretary David Danielson standing at podium speaking in front of workshop participants. The National Network for Manufacturing Innovation (NNMI) is an interagency initiative made up of public/private partnerships devoted to manufacturing excellence. Under the NNMI, each institute will bring together innovative manufacturers, university engineering schools, community

  4. 700 bar COPV Manufacturing

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Bar COPV Manufacturing - IACMI 24 August 2016 Brian Rice (UDRI) IACMI CGS Director 2 IACMI NNMI Network Plus: * Photonics (NY) (DOD) * Flexible Electronics (CA) (DOD) Expected: * Functional Fabrics (DOD) * Smart Manufacturing (DOE) 3 IACMI Shared RD&D facilities will support industry 4 IACMI An integrated approach is required 5 IACMI Economic Development Council A Platform for State Economic Collaboration Each state deploys hundreds of millions of dollars annually to create jobs and

  5. IDC Re-Engineering Phase 2 System Requirements Document V1.3.

    SciTech Connect

    Harris, James M.; Burns, John F.; Satpathi, Meara Allena

    2015-12-01

    This System Requirements Document (SRD) defines waveform data processing requirements for the International Data Centre (IDC) of the Comprehensive Nuclear Test Ban Treaty Organization (CTBTO). The IDC applies, on a routine basis, automatic processing methods and interactive analysis to raw International Monitoring System (IMS) data in order to produce, archive, and distribute standard IDC products on behalf of all States Parties. The routine processing includes characterization of events with the objective of screening out events considered to be consistent with natural phenomena or non-nuclear, man-made phenomena. This document does not address requirements concerning acquisition, processing and analysis of radionuclide data but includes requirements for the dissemination of radionuclide data and products.

  6. Additive Manufacturing

    U.S. Department of Energy (DOE) - all webpages (Extended Search)

    ... laser-sintering) Optomec LENS MR-7 Sciaky EBAM 68 Non-metal additive manufacturing Powder bed FORMIGA P 110 PolyJet 3D ... Fused deposition modeling print technology MakerBot ...

  7. Manufacturing Innovation Institute for Smart Manufacturing: Advanced...

    Energy.gov [DOE] (indexed site)

    Energy Manufacturing Innovation Institute, which will be focused on smart manufacturing. ... As part of President Obama's National Network for Manufacturing Innovation (NNMI) ...

  8. The President's Manufacturing Initiative

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    The President's Manufacturing Initiative Manufacturing Initiative Roadmap Workshop on Roadmap Workshop on Manufacturing R&D for Manufacturing R&D for the Hydrogen Economy the ...

  9. Advanced manufacturing

    SciTech Connect

    Love, Lonnie

    2014-07-14

    Lonnie Love is breaking new ground in three-dimensional printing and training the upcoming scientists and engineers whose creations may be limited only by their imaginations.

  10. Advanced manufacturing

    ScienceCinema

    Love, Lonnie

    2014-07-15

    Lonnie Love is breaking new ground in three-dimensional printing and training the upcoming scientists and engineers whose creations may be limited only by their imaginations.

  11. National Geothermal Data System (NGDS) Geothermal Data: Community Requirements and Information Engineering

    SciTech Connect

    Anderson, Arlene; Blackwell, David; Chickering, Cathy; Boyd, Toni; Horne, Roland; MacKenzie, Matthew; Moore, Joseph; Nickull, Duane; Richard, Stephen; Shevenell, Lisa A.

    2013-10-01

    To satisfy the critical need for geothermal data to advance geothermal energy as a viable renewable energy contender, the U.S. Department of Energy is investing in the development of the National Geothermal Data System (NGDS). This paper outlines efforts among geothermal data providers nationwide to supply cutting edge geo-informatics. NGDS geothermal data acquisition, delivery, and methodology are discussed. In particular, this paper addresses the various types of data required to effectively assess geothermal energy potential and why simple links to existing data are insufficient. To create a platform for ready access by all geothermal stakeholders, the NGDS includes a work plan that addresses data assets and resources of interest to users, a survey of data providers, data content models, and how data will be exchanged and promoted, as well as lessons learned within the geothermal community.

  12. The Clean Energy Manufacturing Initiative

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Clean Energy Manufacturing Initiative (CEMI) is a U.S. Department of Energy (DOE)- wide commitment to innovation and breaking down market barriers in order to enhance U.S. manufacturing competitiveness while advancing the nation's energy goals. As part of its mission, CEMI builds partnerships around strategic priorities to increase U.S. clean energy manufacturing competitiveness. This requires an "all-hands-on-deck" approach that involves the nation's private and public sectors,

  13. Energy-Saving Melting and Revert Reduction Technology (E-SMARRT): Use of Laser Engineered Net Shaping for Rapid Manufacturing of Dies with Protective Coatings and Improved Thermal Management

    SciTech Connect

    Brevick, Jerald R.

    2014-06-13

    In the high pressure die casting process, molten metal is introduced into a die cavity at high pressure and velocity, enabling castings of thin wall section and complex geometry to be obtained. Traditional die materials have been hot work die steels, commonly H13. Manufacture of the dies involves machining the desired geometry from monolithic blocks of annealed tool steel, heat treating to desired hardness and toughness, and final machining, grinding and polishing. The die is fabricated with internal water cooling passages created by drilling. These materials and fabrication methods have been used for many years, however, there are limitations. Tool steels have relatively low thermal conductivity, and as a result, it takes time to remove the heat from the tool steel via the drilled internal water cooling passages. Furthermore, the low thermal conductivity generates large thermal gradients at the die cavity surfaces, which ultimately leads to thermal fatigue cracking on the surfaces of the die steel. The high die surface temperatures also promote the metallurgical bonding of the aluminum casting alloy to the surface of the die steel (soldering). In terms of process efficiency, these tooling limitations reduce the number of die castings that can be made per unit time by increasing cycle time required for cooling, and increasing downtime and cost to replace tooling which has failed either by soldering or by thermal fatigue cracking (heat checking). The objective of this research was to evaluate the feasibility of designing, fabricating, and testing high pressure die casting tooling having properties equivalent to H13 on the surface in contact with molten casting alloy - for high temperature and high velocity molten metal erosion resistance – but with the ability to conduct heat rapidly to interior water cooling passages. A layered bimetallic tool design was selected, and the design evaluated for thermal and mechanical performance via finite element analysis. H13 was

  14. Advanced Manufacture of Reflectors

    Energy.gov [DOE]

    The Advance Manufacture of Reflectors fact sheet describes a SunShot Initiative project being conducted research team led by the University of Arizona, which is working to develop a novel method for shaping float glass. The technique developed by this research team can drastically reduce the time required for the shaping step. By enabling mass production of solar concentrating mirrors at high speed, this project should lead to improved performance and as much as a 40% reduction in manufacturing costs for reflectors made in very high volume.

  15. ARM - Engineering Change Request & Engineering Change Order Guidelines

    U.S. Department of Energy (DOE) - all webpages (Extended Search)

    resources, as soon as possible, when operational, science, or engineering needs require a quick engineering response where no design or redesign is required. Engineering Consultant...

  16. MHTool User's Guide - Software for Manufactured Housing Structural Design

    SciTech Connect

    W. D. Richins

    2005-07-01

    Since the late 1990s, the Department of Energy's Idaho National Laboratory (INL) has worked with the US Department of Housing and Urban Development (HUD), the Manufactured Housing Institute (MHI), the National Institute of Standards and Technology (NIST), the National Science Foundation (NSF), and an industry committee to measure the response of manufactured housing to both artificial and natural wind loads and to develop a computational desktop tool to optimize the structural performance of manufactured housing to HUD Code loads. MHTool is the result of an 8-year intensive testing and verification effort using single and double section homes. MHTool is the first fully integrated structural analysis software package specifically designed for manufactured housing. To use MHTool, industry design engineers will enter information (geometries, materials, connection types, etc.) describing the structure of a manufactured home, creating a base model. Windows, doors, and interior walls can be added to the initial design. Engineers will input the loads required by the HUD Code (wind, snow loads, interior live loads, etc.) and run an embedded finite element solver to find walls or connections where stresses are either excessive or very low. The designer could, for example, substitute a less expensive and easier to install connection in areas with very low stress, then re-run the analysis for verification. If forces and stresses are still within HUD Code requirements, construction costs would be saved without sacrificing quality. Manufacturers can easily change geometries or component properties to optimize designs of various floor plans then submit MHTool input and output in place of calculations for DAPIA review. No change in the regulatory process is anticipated. MHTool, while not yet complete, is now ready for demonstration. The pre-BETA version (Build-16) was displayed at the 2005 National Congress & Expo for Manufactured & Modular Housing. Additional base models and an

  17. Manufacturing R&D Initiative Lowers Costs and Boosts Quality

    SciTech Connect

    2015-06-30

    Fact sheet that provides an overview of DOE's Manufacturing R&D Initiative, which supports projects aimed at developing better-performing, lower-cost solid-state lighting while encouraging engineering and manufacturing in the United States.

  18. Method for automatically evaluating a transition from a batch manufacturing technique to a lean manufacturing technique

    DOEpatents

    Ivezic, Nenad; Potok, Thomas E.

    2003-09-30

    A method for automatically evaluating a manufacturing technique comprises the steps of: receiving from a user manufacturing process step parameters characterizing a manufacturing process; accepting from the user a selection for an analysis of a particular lean manufacturing technique; automatically compiling process step data for each process step in the manufacturing process; automatically calculating process metrics from a summation of the compiled process step data for each process step; and, presenting the automatically calculated process metrics to the user. A method for evaluating a transition from a batch manufacturing technique to a lean manufacturing technique can comprise the steps of: collecting manufacturing process step characterization parameters; selecting a lean manufacturing technique for analysis; communicating the selected lean manufacturing technique and the manufacturing process step characterization parameters to an automatic manufacturing technique evaluation engine having a mathematical model for generating manufacturing technique evaluation data; and, using the lean manufacturing technique evaluation data to determine whether to transition from an existing manufacturing technique to the selected lean manufacturing technique.

  19. Smart Manufacturing: Transforming American Manufacturing with Information

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Technology | Department of Energy Smart Manufacturing: Transforming American Manufacturing with Information Technology Smart Manufacturing: Transforming American Manufacturing with Information Technology June 30, 2016 - 4:30pm Addthis Watch the video above to learn more about how technologies developed by the smart manufacturing institute will make U.S. manufacturing more productive, energy efficient, and competitive. Our country is known for its culture of innovation. We are a country of

  20. Advanced Manufacturing Office: Smart Manufacturing Industry Day...

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    ... Smart Manufacturing is a network data-driven process that combines innovative automation ... Smart Manufacturing is a network data-driven process that combines innovative automation ...

  1. LANL computer model boosts engine efficiency

    U.S. Department of Energy (DOE) - all webpages (Extended Search)

    LANL computer model boosts engine efficiency LANL computer model boosts engine efficiency The KIVA model has been instrumental in helping researchers and manufacturers understand...

  2. Advanced Qualification of Additive Manufacturing Workshop

    U.S. Department of Energy (DOE) - all webpages (Extended Search)

    Additive Manufacturing Workshop Advanced Qualification of Additive Manufacturing Materials (AM) Workshop Our goal is to define opportunities and research gaps within additive manufacturing (AM) and to engage the broader scientific/engineering community to discuss future research directions. thumbnail of thumbnail of Contact Institute Director Dr. Alexander V. Balatsky Institute for Materials Science (505) 665-0077 Email Deputy Director Dr. Jennifer S. Martinez Institute for Materials Science

  3. Advanced Battery Materials Synthesis and Manufacturing R&D Program...

    U.S. Department of Energy (DOE) - all webpages (Extended Search)

    Advanced Battery Materials Synthesis and Manufacturing R&D Program Argonne's Materials Engineering Research Facility (MERF) supports the laboratory's Advanced Battery Materials...

  4. EERE and Auto Manufacturers Demonstrate and Evaluate Fuel Cell Vehicles

    Energy.gov [DOE]

    Auto manufacturers demonstrate that switching from a gasoline to a hydrogen fuel cell engine could reduce emissions by more than 90%.

  5. Manufacturing | Department of Energy

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Science & Innovation » Energy Efficiency » Manufacturing Manufacturing Manufacturing is how we convert raw materials, components, and parts into finished goods that meet our essential needs and make our lives easier. But what about clean energy manufacturing? Clean energy and advanced manufacturing have the potential to rejuvenate the U.S. manufacturing industry and open pathways to increased American competitiveness. Manufacturing is the lifeblood of the American economy -- providing jobs

  6. Manufacturing Pre-Solicitation Transcript

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    DEPARTMENT OF ENERGY HYDROGEN PROGRAM MANUFACTURING R&D PRE-SOLICITATION MEETING FRIDAY, MAY 18, 2007 CRYSTAL GATEWAY MARRIOTT 1700 JEFFERSON DAVIS HIGHWAY SALONS 5 AND 6 ARLINGTON, VA. 22202 2 A G E N D A 1:00 p.m. Welcome and Opening Remarks JoAnn Milliken, Chief Engineer, U.S. DOE Hydrogen Program 1:05 p.m. FOA Application Process and Anticipated Timeline Jill Gruber, Project Officer, U.S. DOE Hydrogen Program, Golden Field Office 1:30 p.m. Manufacturing FOA Proposed Scope and Topics Pete

  7. Manufactured Home Testing in Simulated and Naturally Occurring High Winds

    SciTech Connect

    W. D. Richins; T. K. Larson

    2006-08-01

    sponsored by the US Department of Energy, US Department of Housing and Urban Development, and the Manufactured Housing Institute. The results of this research can lead to savings in annual losses of life and property by providing validated information to enable the advancement of code requirements and by developing engineering software that can predict and optimize wind resistance.

  8. Sandia National Laboratories: Careers: Mechanical Engineering

    U.S. Department of Energy (DOE) - all webpages (Extended Search)

    Mechanical Engineering Engineering photo Sandia mechanical engineers design and develop advanced components and systems for national-defense programs, homeland security, and other applications. Mechanical engineers at Sandia work on design, analysis, manufacturing, and test activities in many areas, including nuclear weapons and power, renewable energy, intelligent machines, robotics, pulsed power, missile defense, remote sensing, advanced manufacturing, and micro- and nanosystems. Sandia

  9. Build4Scale Manufacturing Training for Cleantech Entrepreneurs | Department

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    of Energy Build4Scale Manufacturing Training for Cleantech Entrepreneurs Build4Scale Manufacturing Training for Cleantech Entrepreneurs Build4Scale Manufacturing Training for Cleantech Entrepreneurs Developing clean energy products often requires navigating complex manufacturing processes and supply chains. Yet entrepreneurs often lack the experience and knowledge required to do so. The Energy Department's Build4Scale Manufacturing Training for Cleantech Entrepreneurs is a joint effort

  10. The Advanced Manufacturing Partnership and the Advanced Manufacturing...

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    The Advanced Manufacturing Partnership and the Advanced Manufacturing National Program Office The Advanced Manufacturing Partnership and the Advanced Manufacturing National Program ...

  11. Bio-Manufacturing: A Strategic clean energy manufacturing opportunity...

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Bio-Manufacturing: A Strategic clean energy manufacturing opportunity Bio-Manufacturing: A Strategic clean energy manufacturing opportunity Breakout Session 1: New Developments and ...

  12. Advanced manufacturing: Technology and international competitiveness

    SciTech Connect

    Tesar, A.

    1995-02-01

    Dramatic changes in the competitiveness of German and Japanese manufacturing have been most evident since 1988. All three countries are now facing similar challenges, and these challenges are clearly observed in human capital issues. Our comparison of human capital issues in German, Japanese, and US manufacturing leads us to the following key judgments: Manufacturing workforces are undergoing significant changes due to advanced manufacturing technologies. As companies are forced to develop and apply these technologies, the constituency of the manufacturing workforce (especially educational requirements, contingent labor, job content, and continuing knowledge development) is being dramatically and irreversibly altered. The new workforce requirements which result due to advanced manufacturing require a higher level of worker sophistication and responsibility.

  13. Manufacturing Demonstration Facility

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    to develop broad dissemination of additive manufacturing Industry Collaborations * ... 5 DOE-AMO 2015 Peer Review Understanding Additive Manufacturing Mainstream applications ...

  14. National Electrical Manufacturers Association

    Office of Environmental Management (EM)

    3, 2014) Dear Mr. Croley, The National Electrical Manufacturers Association (NEMA) thanks ... As you may know, NEMA is the trade association of choice for the electrical manufacturing ...

  15. Next Generation Manufacturing Processes

    Energy.gov [DOE]

    New process technologies can rejuvenate U.S. manufacturing. Novel processing concepts can open pathways to double net energy productivity, enabling rapid manufacture of energy-efficient, high...

  16. HPC4Manufacturing

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Lab capabilities Manufacturing domain expertise National mission and guidance Bringing HPC to U.S. Manufacturers Energy Efficient Processes Energy Efficient Products...

  17. Estimates of emergency operating capacity in US manufacturing and nonmanufacturing industries

    SciTech Connect

    Belzer, D.B. ); Serot, D.E. ); Kellogg, M.A. )

    1991-03-01

    Development of integrated mobilization preparedness policies requires planning estimates of available productive capacity during national emergency conditions. Such estimates must be developed in a manner that allows evaluation of current trends in capacity and the consideration of uncertainties in various data inputs and in engineering assumptions. This study, conducted by Pacific Northwest Laboratory (PNL), developed estimates of emergency operating capacity (EOC) for 446 manufacturing industries at the 4-digit Standard Industrial Classification (SIC) level of aggregation and for 24 key non-manufacturing sectors. This volume presents tabular and graphical results of the historical analysis and projections for each SIC industry. (JF)

  18. Semantic Web for Manufacturing Web Services

    SciTech Connect

    Kulvatunyou, Boonserm; Ivezic, Nenad

    2002-06-01

    As markets become unexpectedly turbulent with a shortened product life cycle and a power shift towards buyers, the need for methods to rapidly and cost-effectively develop products, production facilities and supporting software is becoming urgent. The use of a virtual enterprise plays a vital role in surviving turbulent markets. However, its success requires reliable and large-scale interoperation among trading partners via a semantic web of trading partners' services whose properties, capabilities, and interfaces are encoded in an unambiguous as well as computer-understandable form. This paper demonstrates a promising approach to integration and interoperation between a design house and a manufacturer by developing semantic web services for business and engineering transactions. To this end, detailed activity and information flow diagrams are developed, in which the two trading partners exchange messages and documents. The properties and capabilities of the manufacturer sites are defined using DARPA Agent Markup Language (DAML) ontology definition language. The prototype development of semantic webs shows that enterprises can widely interoperate in an unambiguous and autonomous manner; hence, virtual enterprise is realizable at a low cost.

  19. Polymer Engineering Center

    U.S. Department of Energy (DOE) - all webpages (Extended Search)

    Polymer Engineering Center University of Wisconsin-Madison Experimental and Numerical Studies of the Temperature Field in Selective Laser Sintering to Improve Shrinkage and Warpage Prediction Prof. Dr.-Ing. Natalie Rudolph Polymer Engineering Center Department of Mechanical Engineering University of Wisconsin-Madison 1513 University Ave Madison, WI 53706 Advanced Qualification of Additive Manufacturing Materials Workshop, July 20-21, 2015 in Santa Fe, NM Polymer Engineering Center University of

  20. Advanced Manufacturing Technician

    Energy.gov [DOE]

    Alternate Title(s):Manufacturing Production Technician; Electro-Mechanical Technician; Electronics Maintenance Technician  

  1. Advanced Manufacturing Office News

    SciTech Connect

    2013-08-08

    News stories about advanced manufacturing, events, and office accomplishments. Subscribe to receive updates.

  2. Regulation of Emissions from Stationary Diesel Engines (released in AEO2007)

    Reports and Publications

    2007-01-01

    On July 11, 2006, the Environmental Protection Agency (EPA) issued regulations covering emissions from stationary diesel engines New Source Performance Standards that limit emissions of NOx, particulate matter, SO2, carbon monoxide, and hydrocarbons to the same levels required for nonroad diesel engines. The regulation affects new, modified, and reconstructed diesel engines. Beginning with model year 2007, engine manufacturers must specify that new engines less than 3,000 horsepower meet the same emissions standard as nonroad diesel engines. For engines greater than 3,000 horsepower, the standard will be fully effective in 2011. Stationary diesel engine fuel will also be subject to the same standard as nonroad diesel engine fuel, which reduces the sulfur content of the fuel to 500 parts per million by mid-2007 and 15 parts per million by mid-2010.

  3. Smart Manufacturing: Transforming American Manufacturing with...

    Energy Saver

    ... House fact sheet on President Obama's announcement of investments in new manufacturing hubs. Addthis Related Articles AMO to Issue FOA for New Innovation Institute on Smart ...

  4. Additive Manufacturing: Pursuing the Promise

    Energy.gov [DOE]

    Fact sheet overviewing additive manufacturing techniques that are projected to exert a profound impact on manufacturing.

  5. Manufacturing Innovation Topics Workshop: Engineered Nanomaterials

    Energy.gov [DOE] (indexed site)

    Nanotechnology History (brief) Significant investment by government and industry, but ... materials for solid state lighting, solar cells, power electronics, superconductivity, ...

  6. Career Map: Research Engineer | Department of Energy

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Engineer Career Map: Research Engineer Two research engineers wearing safety glasses view results of an experiment. Research Engineer Position Title Research Engineer Alternate Title(s) Government Engineer, Research and Development Engineer, Basic Research Engineer, Component Researcher, Materials Engineer Education & Training Level Bachelor's degree required, prefer graduate degree Education & Training Level Description Research engineers must have a bachelor's degree. Employers value

  7. GreenMountain Engineering LLC | Open Energy Information

    OpenEI (Open Energy Information) [EERE & EIA]

    California Zip: 94107 Product: Consulting firm specializing in clean technology product design and manufacturing development. References: GreenMountain Engineering,...

  8. Worldwide oilfield service, supply and manufacturers directory

    SciTech Connect

    Not Available

    1984-01-01

    Three valuable sections of the Worldwide Oilfield Service, Supply and Manufacturers Diretory give SUPPLY COMPANIES - all companies engaged in wholesale and/or retail sale of products used in all phases of the petroleum industry; SERVICE COMPANIES - included in this section are all companies providing services to any phase of the oil industry such as companies that prepare drilling sites, catering services, equipment haulers, tool rental, mud services, etc.; MANUFACTURING COMPANIES - all companies engaged in the engineering, design and construction of equipment used in the oil industry. Items manufactured might be drilling rigs, pumps, valves, etc.

  9. Engineering Technician

    Energy.gov [DOE]

    Alternate Title(s):Civil Engineering Technician; Electrical Engineering Technician; Mechanical Engineering Technician; Environmental Engineering Technician

  10. Integrated two-cylinder liquid piston Stirling engine

    SciTech Connect

    Yang, Ning; Rickard, Robert; Pluckter, Kevin; Sulchek, Todd

    2014-10-06

    Heat engines utilizing the Stirling cycle may run on low temperature differentials with the capacity to function at high efficiency due to their near-reversible operation. However, current approaches to building Stirling engines are laborious and costly. Typically the components are assembled by hand and additional components require a corresponding increase in manufacturing complexity, akin to electronics before the integrated circuit. We present a simple and integrated approach to fabricating Stirling engines with precisely designed cylinders. We utilize computer aided design and one-step, planar machining to form all components of the engine. The engine utilizes liquid pistons and displacers to harness useful work from heat absorption and rejection. As a proof of principle of the integrated design, a two-cylinder engine is produced and characterized and liquid pumping is demonstrated.

  11. Energy Department Helps Manufacturers of Small and Mid-Size Wind...

    Energy Saver

    Helps Manufacturers of Small and Mid-Size Wind Turbines Meet Certification Requirements Energy Department Helps Manufacturers of Small and Mid-Size Wind Turbines Meet Certification ...

  12. President Obama Announces New Public-Private Manufacturing Innovation Institute

    Energy.gov [DOE]

    The President today will announce new steps with the private sector to strengthen the manufacturing sector, boost advanced manufacturing, and attract the good paying jobs that a growing middle class requires.

  13. Towards automatic planning for manufacturing generative processes

    SciTech Connect

    CALTON,TERRI L.

    2000-05-24

    Generative process planning describes methods process engineers use to modify manufacturing/process plans after designs are complete. A completed design may be the result from the introduction of a new product based on an old design, an assembly upgrade, or modified product designs used for a family of similar products. An engineer designs an assembly and then creates plans capturing manufacturing processes, including assembly sequences, component joining methods, part costs, labor costs, etc. When new products originate as a result of an upgrade, component geometry may change, and/or additional components and subassemblies may be added to or are omitted from the original design. As a result process engineers are forced to create new plans. This is further complicated by the fact that the process engineer is forced to manually generate these plans for each product upgrade. To generate new assembly plans for product upgrades, engineers must manually re-specify the manufacturing plan selection criteria and re-run the planners. To remedy this problem, special-purpose assembly planning algorithms have been developed to automatically recognize design modifications and automatically apply previously defined manufacturing plan selection criteria and constraints.

  14. The Advanced Manufacturing Partnership and the Advanced Manufacturing Program Office

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Advanced Manufacturing Partnership and the Advanced Manufacturing National Program Office Webcasts for Industry Advanced Manufacturing Office US Department of Energy Mike Molnar Chief Manufacturing Officer National Institute of Standards and Technology Carrie Houtman Senior Public Policy Manager Dow Chemical Overview * Advanced Manufacturing Activities * Advanced Manufacturing Partnership (AMP) * AMP Steering Committee * AMP Workstream Study Groups * Office of Manufacturing Policy (OMP) * NSTC

  15. Energy Use in Manufacturing

    Reports and Publications

    2006-01-01

    This report addresses both manufacturing energy consumption and characteristics of the manufacturing economy related to energy consumption. In addition, special sections on fuel switching capacity and energy-management activities between 1998 and 2002 are also featured in this report.

  16. Manufacturing Day 2015

    Energy.gov [DOE]

    All over the country, manufacturing companies and other organizations are preparing to host an anticipated 400,000 people who want to experience U.S. manufacturing up close and in person. On...

  17. Fuel Cell Manufacturing: American Energy and Manufacturing Competitive...

    Energy.gov [DOE] (indexed site)

    Presentation on fuel cell manufacturing by Sunita Satyapal at the American Energy and Manufacturing Competitiveness Summit on December 12, 2013. Fuel Cell Manufacturing (2.61 MB) ...

  18. Manufacturing Demonstration Facility

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Manufacturing Demonstration Facility Bill Peter Director, Manufacturing Demonstration Facility Oak Ridge National Laboratory Advanced Manufacturing Office Peer Review June 14-15, 2016 This presentation does not contain any proprietary, confidential, or otherwise restricted information. Today, ORNL is a leading science and energy laboratory The Manufacturing Demonstration Facility at Oak Ridge National Laboratory * R&D in materials, systems, and computational applications to develop broad of

  19. NREL: Innovation Impact - Manufacturing

    U.S. Department of Energy (DOE) - all webpages (Extended Search)

    Manufacturing Menu Home Home Solar Solar Wind Wind Analysis Analysis Bioenergy Bioenergy Buildings Buildings Transportation Transportation Manufacturing Manufacturing Energy Systems Integration Energy Systems Integration Increasing U.S. Market Share in Solar Photovoltaic Manufacturing Close From 2000 to 2010, global shipments of solar cells and modules grew 53%, a wave that China and Taiwan rode to increase their combined market share from less than 2% to 54%. Meanwhile, U.S. market share

  20. Manufacturing Innovation Topics Workshop

    Office of Energy Efficiency and Renewable Energy (EERE)

    The Advanced Manufacturing Office (AMO) and the Office of the Secretary of Defense Manufacturing Technology Program (OSD ManTech) will host a workshop to discuss AMO's recent Request for Information (RFI) on Clean Energy Manufacturing Topic Areas as well as the recent areas of interest announced by OSD ManTech for a new Manufacturing Innovation Institute on October 8-9, 2014 in Fort Worth, TX.

  1. Photovoltaic manufacturing technology, Phase 1

    SciTech Connect

    Not Available

    1992-10-01

    This report describes subcontracted research by the Chronar Corporation, prepared by Advanced Photovoltaic Systems, Inc. (APS) for Phase 1 of the Photovoltaic Manufacturing Technology Development project. Amorphous silicon is chosen as the PV technology that Chronar Corporation and APS believe offers the greatest potential for manufacturing improvements, which, in turn, will result in significant cost reductions and performance improvements in photovoltaic products. The APS Eureka'' facility was chosen as the manufacturing system that can offer the possibility of achieving these production enhancements. The relationship of the Eureka'' facility to Chronar's batch'' plants is discussed. Five key areas are also identified that could meet the objectives of manufacturing potential that could lead to improved performance, reduced manufacturing costs, and significantly increased production. The projected long-term potential benefits of these areas are discussed, as well as problems that may impede the achievement of the hoped-for developments. A significant number of the problems discussed are of a generic nature and could be of general interest to the industry. The final section of this document addresses the cost and time estimates for achieving the solutions to the problems discussed earlier. Emphasis is placed on the number, type, and cost of the human resources required for the project.

  2. Additive Manufacturing Technology Assessment

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Additive Manufacturing 1 Technology Assessment 2 1. Contents 3 1. Introduction to the Technology/System ............................................................................................... 2 4 1.1 Introduction to Additive Manufacturing ....................................................................................... 2 5 1.2 Additive Manufacturing Processes ............................................................................................... 2 6 1.3 Benefits of Additive

  3. Pend Oreille PUD- Manufactured Home Rebate Program

    Energy.gov [DOE]

    Pend Oreille PUD offers cash incentives up to $800 to residential customers who purchase an ENERGY STAR-certified manufactured home. All program requirements must be met in order to receive rebate....

  4. Stirling Engine Natural Gas Combustion Demonstration Program. Final report, October 1989-January 1991

    SciTech Connect

    Ernst, W.; Moryl, J.; Riecke, G.

    1991-02-01

    Fueled on natural gas, the Stirling engine is an inherently clean, quiet, and efficient engine. With increasing environmental concern for air quality and the increasingly more stringent requirements for low engine exhaust emissions, the Stirling engine may be an attractive alternative to internal combustion (IC) engines. The study has demonstrated that ultra low emissions can be attained with a Stirling-engine-driven electric generator configured to burn natural gas. Combustion parameters were optimized to produce the lowest possible exhaust emissions for a flame-type combustor without compromising overall engine thermal efficiency. A market application survey and manufacturing cost analysis indicate that a market opportunity potentially exists in the volumes needed to economically manufacture a newly designed Stirling engine (Mod III) for stationary applications and hybrid vehicles. The translation of such potential markets into actual markets does, however, pose difficult challenges as substantial investments are required. Also, the general acceptance of a new engine type by purchasers requires a considerable amount of time.

  5. Manufacturing Fuel Cell Manhattan Project

    Office of Energy Efficiency and Renewable Energy (EERE)

    This document communicates the major fuel cell manufacturing cost drivers, gaps, and industry best practices, as well as recommends manufacturing projects to advance fuel cell manufacturing.

  6. Ceramic Automotive Stirling Engine Program

    SciTech Connect

    Not Available

    1986-08-01

    The Ceramic Automotive Stirling Engine Program evaluated the application of advanced ceramic materials to an automotive Stirling engine. The objective of the program was to evaluate the technical feasibility of utilizing advanced ceramics to increase peak engine operating temperature, and to evaluate the performance benefits of such an increase. Manufacturing cost estimates were also developed for various ceramic engine components and compared with conventional metallic engine component costs.

  7. Career Map: Electrical Engineer | Department of Energy

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Electrical Engineer Career Map: Electrical Engineer Two electrical engineers inspect the electrical components to a turbine. Electrical Engineer Position Title Electrical Engineer Alternate Title(s) Electronics Engineer, Project Engineer, Power Systems, Transmission Engineer Education & Training Level Advanced, bachelor's required, prefer graduate degree Education & Training Level Description Electrical engineers must have a bachelor's degree. Employers also value practical experience,

  8. Chemical Diagnostics and Engineering

    U.S. Department of Energy (DOE) - all webpages (Extended Search)

    CDE Chemical Diagnostics and Engineering We support stockpile manufacturing, surveillance, applied and basic energy sciences, threat reduction, public health, the environment, and space exploration. Contact Us Group Leader Peter Stark Deputy Group Leader Tom Yoshida Group Office (505) 667-5740 X-Ray Photoelectron Spectroscopy X-Ray Photoelectron Spectroscopy The Chemical Diagnostics and Engineering (C-CDE) Group combines engineering design with routine analytical services and state-of-the-art

  9. Composite Engineering Inc | Open Energy Information

    OpenEI (Open Energy Information) [EERE & EIA]

    Composite Engineering Inc Place: Concord, Massachusetts Zip: 1742 Sector: Wind energy Product: The group will design and manufacture prototype wind turbine blades using a...

  10. Honda Engineering Corporation Ltd | Open Energy Information

    OpenEI (Open Energy Information) [EERE & EIA]

    Ltd Jump to: navigation, search Name: Honda Engineering Corporation Ltd Place: Japan Product: Manufacture and sales of machine tools, equipment and production techniques,...

  11. Kokam Engineering Company Ltd | Open Energy Information

    OpenEI (Open Energy Information) [EERE & EIA]

    429-450 Product: Korea-based manufacturer of high standard and reliable rechargeable Lithium batteries and supporting equipment. References: Kokam Engineering Company Ltd1 This...

  12. SCI Engineered Materials Inc | Open Energy Information

    OpenEI (Open Energy Information) [EERE & EIA]

    SCI Engineered Materials Inc Place: Columbus, Ohio Zip: 43228 Product: Supplier of manufacturing equipment for the vacuum coating and PV deposition industries, in addition to...

  13. Fuel Cell Manufacturing: American Energy and Manufacturing Competitiveness Summit

    Office of Energy Efficiency and Renewable Energy (EERE)

    Presentation on fuel cell manufacturing by Sunita Satyapal at the American Energy and Manufacturing Competitiveness Summit on December 12, 2013.

  14. Applying the Systems Engineering Process for Establishing Requirements for the Safety and Health Monitoring System of the Waste Solidification Building at the Savannah River Site

    SciTech Connect

    Simpkins, P.J.

    2003-10-09

    The Safety and Health Monitoring (SHM) System technical basis document for the Waste Solidification Building (WSB) was developed by the Westinghouse Savannah River Company design team. The WSB is being designed and built to support the waste disposal needs of the Pit Disassembly and Conversion Facility (PDCF) and the Mixed Oxide Fuel Fabrication Facility (MFFF) at the Savannah River Site (SRS) in South Carolina. The main mission of the WSB is to process the radiological liquid waste streams from the PDCF and the MFFF into a solid waste form. The solid waste form, concrete encased waste, is acceptable for shipment and disposal as transuranic (TRU) waste at the Waste Isolation Pilot Plant (WIPP) and as Low Level Waste (LLW) at on-site disposal areas. The SHM System will also handle the job control waste from the PDCF, the MFFF, and the WSB. The SHM System will serve the WSB by monitoring personnel radiation exposure and environmental releases. The WSB design used HPT design support in determining the air monitoring equipment required for the WSB. The Systems Engineering (SE) process was applied to define the functions and requirements necessary to design and operate the SHM System. The SE process is a proven disciplined approach that supports management in clearly defining the mission or problem, managing system functions and requirements, identifying and managing risk, establishing bases for informed decision making, and verifying that products and services meet customer needs. This SE process applied to the SHM System was a major effort encompassing requirements analysis and interface control. Use of the SE process combined with HPT design input resulted in well-defined requirements to support the procurement of a safe-mission essential SHM System.

  15. Survey Date Agent CAS Limit Type TWA/STEL/Excur % OEL OEL Air Conc Farm Specific Location Work Activity Required Analysis Engineering Controls

    U.S. Department of Energy (DOE) - all webpages (Extended Search)

    Personal Sampling Data 05-2005 through 12-2007 05/27/2015 Survey Date Agent CAS Limit Type TWA/STEL/Excur % OEL OEL Air Conc Farm Specific Location Work Activity Required Analysis Engineering Controls 5/6/2005 Ammonia 7664-41-7 25 ppm <0.791 ppm S FARM S109 Construction Activities NH3 8 Hr TWA <0.147 ppm 5/6/2005 1-Butanol 71-36-3 20 ppm <0.111 ppm S FARM 5109 Construction Activities VOC 8 Hr TWA <0.021 ppm 5/6/2005 2-Butanone 78-93-3 200 ppm <0.19 ppm S FARM S109 Construction

  16. Cleaner, More Efficient Diesel Engines

    SciTech Connect

    Musculus, Mark

    2013-08-13

    Mark Musculus, an engine combustion scientist at Sandia National Laboratories, led a study that outlines the science base for auto and engine manufacturers to build the next generation of cleaner, more efficient engines using low-temperature combustion. Here, Musculus discusses the work at Sandia's Combustion Research Facility.

  17. Cleaner, More Efficient Diesel Engines

    ScienceCinema

    Musculus, Mark

    2014-02-26

    Mark Musculus, an engine combustion scientist at Sandia National Laboratories, led a study that outlines the science base for auto and engine manufacturers to build the next generation of cleaner, more efficient engines using low-temperature combustion. Here, Musculus discusses the work at Sandia's Combustion Research Facility.

  18. The Advanced Manufacturing Partnership and the Advanced Manufacturing

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    National Program Office | Department of Energy The Advanced Manufacturing Partnership and the Advanced Manufacturing National Program Office The Advanced Manufacturing Partnership and the Advanced Manufacturing National Program Office This presentation describes the Advanced Manufacturing Partnership from its beginning as a recommendation of the President's Council of Advisers on Science and Technology to its development and organization. The Advanced Manufacturing Partnership and the

  19. Engineering Analysis of Intermediate Loop and Process Heat Exchanger Requirements to Include Configuration Analysis and Materials Needs

    SciTech Connect

    T.M. Lillo; R.L. Williamson; T.R. Reed; C.B. Davis; D.M. Ginosar

    2005-09-01

    The need to locate advanced hydrogen production facilities a finite distance away from a nuclear power source necessitates the need for an intermediate heat transport loop (IHTL). This IHTL must not only efficiently transport energy over distances up to 500 meters but must also be capable of operating at high temperatures (>850oC) for many years. High temperature, long term operation raises concerns of material strength, creep resistance and general material stability (corrosion resistance). IHTL design is currently in the initial stages. Many questions remain to be answered before intelligent design can begin. The report begins to look at some of the issues surrounding the main components of an IHTL. Specifically, a stress analysis of a compact heat exchanger design under expected operating conditions is reported. Also the results of a thermal analysis performed on two ITHL pipe configurations for different heat transport fluids are presented. The configurations consist of separate hot supply and cold return legs as well as annular design in which the hot fluid is carried in an inner pipe and the cold return fluids travels in the opposite direction in the annular space around the hot pipe. The effects of insulation configurations on pipe configuration performance are also reported. Finally, a simple analysis of two different process heat exchanger designs, one a tube in shell type and the other a compact or microchannel reactor are evaluated in light of catalyst requirements. Important insights into the critical areas of research and development are gained from these analyses, guiding the direction of future areas of research.

  20. Additive Manufacturing: Pursuing the Promise

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Lower energy intensity: These techniques save energy by eliminating production steps, using substantially less material, enabling reuse of by-products, and producing lighter products. Remanufacturing parts through advanced additive manufacturing and surface treatment processes can also return end-of-life products to as-new condition, 1 using only 2-25% of the energy required to make new parts. 2 * Less waste: Building objects up layer by layer, instead of traditional machining processes that cut

  1. Industrial Assessment Centers Small Manufacturers Reduce Energy & Increase

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    DOE/EE-1278 Industrial Assessment Centers Small Manufacturers Reduce Energy & Increase Productivity Since 1976, the Industrial Assessment Centers (IACs), administered by the US Department of Energy, have supported small and medium-sized American manufacturers to reduce energy use and increase their productivity and competitiveness. The 24 IACs, located at premier engineering universities around the country (see below), send faculty and engineering students to local small and medium-sized

  2. DOE Hydrogen Program Manufacturing R&D Pre-Solicitation Meeting

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    ... Problem: The current Design-For-Manufacture (DFM) or Design-For- Assembly (DFA) models apply to conventional technologies such as internal combustion engines but do not ...

  3. Biomass Engineering Ltd | Open Energy Information

    OpenEI (Open Energy Information) [EERE & EIA]

    Engineering Ltd Jump to: navigation, search Name: Biomass Engineering Ltd Place: Newton-le-Willows, United Kingdom Zip: WA12 8DN Product: The company designs and manufactures small...

  4. Roll to Roll Manufacturing

    SciTech Connect

    Daniel, Claus

    2015-06-09

    ORNL researchers are developing roll to roll technologies for manufacturing, automotive, and clean energy applications in collaboration with industry partners such as Eastman Kodak.

  5. Manufacturing R&D

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    processes and reduce the cost of manufacturing components and systems for hydrogen production and delivery, hydrogen storage, and fuel cells for transportation, stationary, and ...

  6. Wind Manufacturing Facilities

    Energy.gov [DOE]

    America's wind energy industry supports a growing domestic industrial base. Check out this map to find manufacturing facilities in your state. Last updated December 2013.

  7. Manufacturing | Department of Energy

    U.S. Department of Energy (DOE) - all webpages (Extended Search)

    in the production of clean energy technologies like electric vehicles, LED bulbs and solar panels. The Department is also working with manufacturers to increase their energy...

  8. Additive Manufacturing: Going Mainstream

    Office of Energy Efficiency and Renewable Energy (EERE)

    Additive manufacturing, or 3D printing, is receiving attention from media, investment communities and governments around the world transforming it from obscurity to something to be talked about.

  9. High Fidelity Modeling of Premixed Charge Compression Ignition Engines

    Energy.gov [DOE]

    Most accurate and detailed chemical kinetic models for fuels of practical interest to engine manufacturers and fuels developers are applied for high fidelity engine analysis of premixed charge compression ignition engines.

  10. Clean Energy Manufacturing Initiative Partnerships | Department of Energy

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Partnerships Clean Energy Manufacturing Initiative Partnerships The Clean Energy Manufacturing Initiative (CEMI) engages in partnerships to improve U.S. clean energy manufacturing competitiveness. Growing U.S. clean energy manufacturing competitiveness requires an "all hands on deck" approach, with the nation's private and public sectors, universities, think tanks, and labor leaders working together to identify and commit to a path forward. Initial partnerships include: Council on

  11. The Economics of Big Area Addtiive Manufacturing

    SciTech Connect

    Post, Brian; Lloyd, Peter D; Lindahl, John; Lind, Randall F; Love, Lonnie J; Kunc, Vlastimil

    2016-01-01

    Case studies on the economics of Additive Manufacturing (AM) suggest that processing time is the dominant cost in manufacturing. Most additive processes have similar performance metrics: small part sizes, low production rates and expensive feedstocks. Big Area Additive Manufacturing is based on transitioning polymer extrusion technology from a wire to a pellet feedstock. Utilizing pellets significantly increases deposition speed and lowers material cost by utilizing low cost injection molding feedstock. The use of carbon fiber reinforced polymers eliminates the need for a heated chamber, significantly reducing machine power requirements and size constraints. We hypothesize that the increase in productivity coupled with decrease in feedstock and energy costs will enable AM to become more competitive with conventional manufacturing processes for many applications. As a test case, we compare the cost of using traditional fused deposition modeling (FDM) with BAAM for additively manufacturing composite tooling.

  12. Career Map: Mechanical Engineer | Department of Energy

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Mechanical Engineer Career Map: Mechanical Engineer A mechanical engineer works with a large yellow robotic arm. Mechanical Engineer Position Title Mechanical Engineer Alternate Title(s) Project Engineer, Quality Engineer, Research Engineer, Design Engineer, Sales Engineer Education & Training Level Advanced, Bachelor's degree required, prefer graduate degree Education & Training Level Description Mechanical engineers need a bachelor's degree. A graduate degree is typically needed for

  13. Clean Energy Manufacturing Initiative

    SciTech Connect

    2013-04-01

    The initiative will strategically focus and rally EERE’s clean energy technology offices and Advanced Manufacturing Office around the urgent competitive opportunity for the United States to be the leader in the clean energy manufacturing industries and jobs of today and tomorrow.

  14. Manufacturing Innovation in the DOE

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Manufacturing Innovation in the DOE January 13, 2014 Mark Johnson Director Advanced Manufacturing Office manufacturing.energy.gov Advanced Manufacturing Office (AMO) manufacturing.energy.gov 2 What is Advanced Manufacturing? A family of activities that: * Depend on the use and coordination of information, automation, computation, software, sensing, and networking; and/or * Make use of cutting edge materials and emerging capabilities. Advanced Manufacturing involves both: * New ways to

  15. Manufactured Home Testing in Simulated and Naturally Occurring High Winds for WCTE Conference

    SciTech Connect

    William D. Richins; Thomas K. Larson; Jeffrey M. Lacy; Ryan G. Kobbe

    2006-08-01

    sponsored by the US Department of Energy, US Department of Housing and Urban Development, and the Manufactured Housing Institute. The results of this research can lead to savings in annual losses of life and property by providing validated information to enable the advancement of code requirements and by developing engineering software that can predict and optimize wind resistance.

  16. V160 Stirling engine program update

    SciTech Connect

    Johansson, L.; Torstensson, B.; Williams, T. Y.; Houtman, W.H.; Monahan, R.

    1988-01-01

    Development efforts being made toward the preproduction stage of the V160 Stirling engine are examined. The history of continued reliability encompassing all engine models is reviewed, and efforts towards engine manufacturing and cost reduction are addressed. A preview is given of the initial product line based on the V160 engine and substantiated through testing of the offered configurations.

  17. Requirements for Xenon International

    SciTech Connect

    Hayes, James C.; Ely, James H.

    2013-09-26

    This document defines the requirements for the new Xenon International radioxenon system. The output of this project will be a Pacific Northwest National Laboratory (PNNL) developed prototype and a manufacturer-developed production prototype. The two prototypes are intended to be as close to matching as possible; this will be facilitated by overlapping development cycles and open communication between PNNL and the manufacturer.

  18. Requirements for Xenon International

    SciTech Connect

    Hayes, James C.; Ely, James H.; Haas, Derek A.; Harper, Warren W.; Heimbigner, Tom R.; Hubbard, Charles W.; Humble, Paul H.; Madison, Jill C.; Morris, Scott J.; Panisko, Mark E.; Ripplinger, Mike D.; Stewart, Timothy L.

    2015-12-30

    This document defines the requirements for the new Xenon International radioxenon system. The output of this project will be a Pacific Northwest National Laboratory (PNNL) developed prototype and a manufacturer-developed production prototype. The two prototypes are intended to be as close to matching as possible; this will be facilitated by overlapping development cycles and open communication between PNNL and the manufacturer.

  19. Advanced Vehicles Manufacturing Projects | Department of Energy

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Vehicles Manufacturing Projects Advanced Vehicles Manufacturing Projects Advanced Vehicles Manufacturing Projects Advanced Vehicles Manufacturing Projects Advanced Vehicles Manufacturing Projects Advanced Vehicles Manufacturing Projects Advanced Vehicles Manufacturing Projects Advanced Vehicles Manufacturing Projects Advanced Vehicles Manufacturing Projects Advanced Vehicles Manufacturing Projects DOE-LPO_ATVM-Economic-Growth_Thumbnail.png DRIVING ECONOMIC GROWTH: ADVANCED TECHNOLOGY VEHICLES

  20. Lab computer model boosts engine efficiency

    U.S. Department of Energy (DOE) - all webpages (Extended Search)

    LANL computer model boosts engine efficiency Lab computer model boosts engine efficiency The KIVA model has been instrumental in helping researchers and manufacturers understand combustion processes, accelerate engine development and improve engine design and efficiency. September 25, 2012 KIVA simulation of an experimental engine with DOHC quasi-symmetric pent-roof combustion chamber and 4 valves. KIVA simulation of an experimental engine with DOHC quasi-symmetric pent-roof combustion chamber

  1. Hydrogen manufacturing using plasma reformers. [Annual progress report], May 1, 1995--December 31, 1995

    SciTech Connect

    Cohn, D.R.; Bromberg, L.; Hochgreb, S.; O`Brien, C.; Rabinovich, A.

    1995-12-31

    Manufacturing of hydrogen from hydrocarbon fuels is needed for a variety of applications. These applications include fuel cells used in stationary electric power production and in vehicular propulsion. Hydrogen can also be used for various combustion engine systems. There is a wide range of requirements on the capacity of the hydrogen manufacturing system, the purity of the hydrogen fuel, and capability for rapid response. The overall objectives of a hydrogen manufacturing facility are to operate with high availability at the lowest possible cost and to have minimal adverse environmental impact. Plasma technology has potential to significantly alleviate shortcomings of conventional means of manufacturing hydrogen. These shortcomings include cost and deterioration of catalysts; limitations on hydrogen production from heavy hydrocarbons; limitations on rapid response; and size and weight requirements. In addition, use of plasma technology could provide for a greater variety of operating modes in particular the possibility of virtual elimination Of C0{sub 2} production by pyrolytic operation. This mode of hydrogen production may be of increasing importance due to recent additional evidence of global warming.

  2. Advanced Manufacture of Reflectors

    SciTech Connect

    Angel, Roger

    2014-12-17

    The main project objective has been to develop an advanced gravity sag method for molding large glass solar reflectors with either line or point focus, and with long or short focal length. The method involves taking standard sized squares of glass, 1.65 m x 1.65 m, and shaping them by gravity sag into precision steel molds. The method is designed for high volume manufacture when incorporated into a production line with separate pre-heating and cooling. The performance objectives for the self-supporting glass mirrors made by this project include mirror optical accuracy of 2 mrad root mean square (RMS), requiring surface slope errors <1 mrad rms, a target not met by current production of solar reflectors. Our objective also included development of new methods for rapidly shaping glass mirrors and coating them for higher reflectivity and soil resistance. Reflectivity of 95% for a glass mirror with anti-soil coating was targeted, compared to the present ~94% with no anti-soil coating. Our mirror cost objective is ~$20/m2 in 2020, a significant reduction compared to the present ~$35/m2 for solar trough mirrors produced for trough solar plants. During the first year a custom batch furnace was built to develop the method with high power radiative heating to simulate transfer of glass into a hot slumping zone in a production line. To preserve the original high polish of the float glass on both front and back surfaces, as required for a second surface mirror, the mold surface is machined to the required shape as grooves which intersect the glass at cusps, reducing the mold contact area to significantly less than 1%. The mold surface is gold-plated to reflect thermal radiation. Optical metrology of glass replicas made with the system has been carried out with a novel, custom-built test system. This test provides collimated, vertically-oriented parallel beams from a linear array of co-aligned lasers translated in a perpendicular direction across the reflector. Deviations of

  3. Predictive Engineering Tools for Injection-Molded Long-Carbon-Fiber Thermoplastic Composites - FY13 Fourth Quarterly Report

    SciTech Connect

    Nguyen, Ba Nghiep; Simmons, Kevin L.

    2013-12-02

    This quarterly report summarizes the status of the project planning to obtain all the approvals required for a Cooperative Research and Development Agreement (CRADA) with Autodesk, Inc., Toyota Motor Engineering and Manufacturing North America (Toyota), and Magna Exterior and Interiors Corporation (Magna). The final CRADA documents processed by PNNL’s Legal Services were submitted to all the parties for signatures.

  4. Cummins Improving Pick-Up Truck Engine Efficiency with DOE and Nissan

    Energy.gov [DOE]

    Cummins, the world's largest diesel engine manufacturer, received funds from EERE to research advanced engine technology for heavy-duty and light-duty vehicles.

  5. New Whole-House Solutions Case Study: Technology Solutions for New Manufactured Homes, Idaho, Oregon, and Washington

    SciTech Connect

    BA-PIRC

    2013-11-01

    The Building America Partnership for Improved Residential Construction, the Bonneville Power Administration (BPA), and Northwest Energy Works (NEW), the current Northwest Energy Efficient Manufactured Housing Program (NEEM) administrator, have been collaborating to conduct research on new specifications that would improve on the energy requirements of a NEEM home. In its role as administrator, NEW administers the technical specs, performs research and engineering analysis, implements ongoing construction quality management procedures, and maintains a central database with home tracking. This project prototyped and assessed the performances of cost-effective high performance building assemblies and mechanical systems that are not commonly deployed in the manufacturing setting. The package of measures is able to reduce energy used for space conditioning, water heating and lighting by 50 percent over typical manufactured homes produced in the northwest.

  6. Innovative Manufacturing Initiative Project Selections

    Office of Energy Efficiency and Renewable Energy (EERE)

    The Department announced nearly $23 million for 12 projects across the country to advance technologies aimed at helping American manufacturers dramatically increase the energy efficiency of their manufacturing facilities, lower costs, and develop new manufacturing technologies.

  7. Renewable Energy Manufacturing Program

    Energy.gov [DOE]

    Note: The initial application deadline for the Renewable Energy Manufacturing Program is June 30, 2016. Applications will be accepted following that date only if there are remaining funds available...

  8. Hydroprocessing catalyst manufacture

    SciTech Connect

    Lostaglio, V.J.; Carruthers, J.D.

    1985-01-01

    Hydroprocessing catalysts for the oil-refining industry have undergone significant improvements since the oil shortages of the late 1970's. Spurred by the need for refiners to process heavy, sour feeds, catalyst manufacturers have developed technology to meet these changing demands. Current manufacturing techniques in the production of substrate and final catalyst are reviewed. New approach to the production of resid hydrotreatment catalysts are considered.

  9. NREL: Innovation Impact - Manufacturing

    U.S. Department of Energy (DOE) - all webpages (Extended Search)

    Buildings Menu Home Home Solar Solar Wind Wind Analysis Analysis Bioenergy Bioenergy Buildings Buildings Transportation Transportation Manufacturing Manufacturing Energy Systems Integration Energy Systems Integration Buildings Use 40% of U.S. Energy Close Americans spend $400 billion annually to power homes and commercial buildings. An estimated $80 billion could be saved through energy efficiency. Close NREL's net-zero-energy Research Support Facility employs cutting-edge energy efficiency

  10. Envera Variable Compression Ratio Engine

    SciTech Connect

    Charles Mendler

    2011-03-15

    Aggressive engine downsizing, variable compression ratio and use of the Atkinson cycle are being combined to improve fuel economy by up to 40 percent relative to port fuel injected gasoline engines, while maintaining full engine power. Approach Engine downsizing is viewed by US and foreign automobile manufacturers as one of the best options for improving fuel economy. While this strategy has already demonstrated a degree of success, downsizing and fuel economy gains are currently limited. With new variable compression ratio technology however, the degree of engine downsizing and fuel economy improvement can be greatly increased. A small variable compression ratio (VCR) engine has the potential to return significantly higher vehicle fuel economy while also providing high power. Affordability and potential for near term commercialization are key attributes of the Envera VCR engine. VCR Technology To meet torque and power requirements, a smaller engine needs to do more work per stroke. This is typically accomplished by boosting the incoming charge with either a turbo or supercharger so that more energy is present in the cylinder per stroke to do the work. With current production engines the degree of engine boosting (which correlates to downsizing) is limited by detonation (combustion knock) at high boost levels. Additionally, the turbo or supercharger needs to be responsive and efficient while providing the needed boost. VCR technology eliminates the limitation of engine knock at high load levels by reducing compression ratio to {approx}9:1 (or whatever level is appropriate) when high boost pressures are needed. By reducing the compression ratio during high load demand periods there is increased volume in the cylinder at top dead center (TDC) which allows more charge (or energy) to be present in the cylinder without increasing the peak pressure. Cylinder pressure is thus kept below the level at which the engine would begin to knock. When loads on the engine are low

  11. Career Map: Design Engineer | Department of Energy

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Design Engineer Career Map: Design Engineer A product designer watches as several engineers work on a wind turbine component. Design Engineer Position Title Design Engineer Alternate Title(s) Materials Engineer, Composite Engineer, Product Designer, Structural Engineer Education & Training Level Bachelor's degree required, graduate degree preferred Education & Training Level Description Design engineers typically hold a bachelor's degree or higher in electrical or mechanical engineering

  12. Value Engineering

    Directives, Delegations, and Other Requirements [Office of Management (MA)]

    2004-01-07

    To establish Department of Energy (DOE) value engineering policy that meets the requirements of Public Law 104-106, Section 4306 as codified by 41 United States Code 432. Canceled by DOE N 251.94. Does not cancel other directives.

  13. Advanced Materials Manufacturing (AMM) Session

    Energy.gov [DOE] (indexed site)

    ... Advanced Manufacturing Office (AMO) manufacturing.energy.gov 12 An AMM InstituteConsortium Approach Offers... ComputationalExperimentalBig Data Synergies: The AMM ...

  14. Laser Manufacturing | GE Global Research

    U.S. Department of Energy (DOE) - all webpages (Extended Search)

    Home > Impact > Advanced Laser Manufacturing Tools Deliver Higher Performance Click to ... Advanced Laser Manufacturing Tools Deliver Higher Performance In a research lab looking ...

  15. Manufacturing Consumption of Energy 1994

    Energy Information Administration (EIA) (indexed site)

    (MECS) > MECS 1994 Combined Consumption and Fuel Switching Manufacturing Energy Consumption Survey 1994 (Combined Consumption and Fuel Switching) Manufacturing Energy Consumption...

  16. Innovative Manufacturing Initiative Recognition Day

    Energy.gov [DOE]

    The Innovative Manufacturing Initiative (IMI) Recognition Day (held in Washington, DC on June 20, 2012) showcased IMI projects selected by the Energy Department to help American manufacturers...

  17. Manufacturing Demonstration Facility Workshop Videos | Department...

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Manufacturing Demonstration Facility Workshop Videos Manufacturing Demonstration Facility Workshop Videos Dr. Leo Christodoulou, Program Manager, EERE Advanced Manufacturing ...

  18. Method for manufacturing magnetohydrodynamic electrodes

    DOEpatents

    Killpatrick, D.H.; Thresh, H.R.

    1980-06-24

    A method of manufacturing electrodes for use in a magnetohydrodynamic (MHD) generator is described comprising the steps of preparing a billet having a core of a first metal, a tubular sleeve of a second metal, and an outer sheath of an extrusile metal; evacuating the space between the parts of the assembled billet; extruding the billet; and removing the outer jacket. The extruded bar may be made into electrodes by cutting and bending to the shape required for an MHD channel frame. The method forms a bond between the first metal of the core and the second metal of the sleeve strong enough to withstand a hot and corrosive environment.

  19. NTRCI Legacy Engine Research and Development Project Final Technical Report

    SciTech Connect

    Smith-Holbert, Connie; Petrolino, Joseph; Watkins, Bart; Irick, David

    2011-12-31

    The Legacy engine is a completely new design, transitional diesel engine, replacing the reciprocating engine with a rotary engine. The Legacy engine offers significant advances over conventional internal combustion engines in 1) power to weight ratio; 2) multiple fuel acceptance; 3) fuel economy; and 4) environmental compliance. These advances are achieved through a combination of innovative design geometry, rotary motion, aspiration simplicity, and manufacturing/part simplicity. The key technical challenge to the Legacy engine's commercialization, and the focus of this project, was the development of a viable roton tip seal. The PST concept for the roton tip seal was developed into a manufacturable design. The design was evaluated using a custom designed and fabricated seal test fixture and further refined. This design was incorporated into the GEN2.5A prototype and tested for achievable compression pressure. The Decision Point at the end of Phase 1 of the project (described below) was to further optimize the existing tip seal design. Enhancements to the tip seal design were incorporated into the GEN2.5B prototype and tested and evaluated using the iterative research strategy described below. Compression pressures adequate for compression ignition of diesel fuel were achieved, although not consistently in all combustion volumes. The variation in compression pressures was characterized versus design features. As the roton tip seal performance was improved, results pointed toward inadequate performance of the housing side seals. Enhancement of the housing side seal system was accomplished using a custom designed side seal test fixture. The design enhancements developed with the test fixture were also incorporated into the GEN2.5B prototype and tested and evaluated using the iterative research strategy described below. Finally, to simplify the requirements for the roton tip seals and to enhance the introduction and combustion of fuel, a flush-mount fuel injector was

  20. Semantic Web Service Framework to Intelligent Distributed Manufacturing

    SciTech Connect

    Kulvatunyou, Boonserm

    2005-12-01

    As markets become unexpectedly turbulent with a shortened product life cycle and a power shift towards buyers, the need for methods to develop products, production facilities, and supporting software rapidly and cost-effectively is becoming urgent. The use of a loosely integrated virtual enterprise based framework holds the potential of surviving changing market needs. However, its success requires reliable and large-scale interoperation among trading partners via a semantic web of trading partners services whose properties, capabilities, and interfaces are encoded in an unambiguous as well as computer-understandable form. This paper demonstrates a promising approach to integration and interoperation between a design house and a manufacturer that may or may not have prior relationship by developing semantic web services for business and engineering transactions. To this end, detailed activity and information flow diagrams are developed, in which the two trading partners exchange messages and documents. The properties and capabilities of the manufacturer sites are defined using DARPA Agent Markup Language (DAML) ontology definition language. The prototype development of semantic webs shows that enterprises can interoperate widely in an unambiguous and autonomous manner. This contributes towards the realization of virtual enterprises at a low cost.

  1. Energy Department Helps Manufacturers of Small and Mid-Size Wind Turbines

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Meet Certification Requirements | Department of Energy Helps Manufacturers of Small and Mid-Size Wind Turbines Meet Certification Requirements Energy Department Helps Manufacturers of Small and Mid-Size Wind Turbines Meet Certification Requirements May 11, 2016 - 5:01pm Addthis NREL has awarded four subcontracts to manufacturers of small and mid-size wind turbines to improve their turbine design and manufacturing processes while reducing costs and improving efficiency as they work toward

  2. Manufacturing Laboratory (Fact Sheet)

    SciTech Connect

    Not Available

    2011-10-01

    This fact sheet describes the purpose, lab specifications, applications scenarios, and information on how to partner with NREL's Manufacturing Laboratory at the Energy Systems Integration Facility. The Manufacturing Laboratory at NREL's Energy Systems Integration Facility (ESIF) focuses on developing methods and technologies that will assist manufacturers of hydrogen and fuel cell technologies, as well as other renewable energy technologies, to scale up their manufacturing capabilities to volumes that meet DOE and industry targets. Specifically, the manufacturing activity is currently focused on developing and validating quality control techniques to assist manufacturers of low temperature and high temperature fuel cells in the transition from low to high volume production methods for cells and stacks. Capabilities include initial proof-of-concept studies through prototype system development and in-line validation. Existing diagnostic capabilities address a wide range of materials, including polymer films, carbon and catalyst coatings, carbon fiber papers and wovens, and multi-layer assemblies of these materials, as well as ceramic-based materials in pre- or post-fired forms. Work leading to the development of non-contact, non-destructive techniques to measure critical dimensional and functional properties of fuel cell and other materials, and validation of those techniques on the continuous processing line. This work will be supported by materials provided by our partners. Looking forward, the equipment in the laboratory is set up to be modified and extended to provide processing capabilities such as coating, casting, and deposition of functional layers, as well as associated processes such as drying or curing. In addition, continuous processes are used for components of organic and thin film photovoltaics (PV) as well as battery technologies, so synergies with these important areas will be explored.

  3. Photovoltaic manufacturing technology

    SciTech Connect

    Wohlgemuth, J.H.; Whitehouse, D.; Wiedeman, S.; Catalano, A.W.; Oswald, R. )

    1991-12-01

    This report identifies steps leading to manufacturing large volumes of low-cost, large-area photovoltaic (PV) modules. Both crystalline silicon and amorphous silicon technologies were studied. Cost reductions for each step were estimated and compared to Solarex Corporation's manufacturing costs. A cost model, a simple version of the SAMICS methodology developed by the Jet Propulsion Laboratory (JPL), projected PV selling prices. Actual costs of materials, labor, product yield, etc., were used in the cost model. The JPL cost model compared potential ways of lowering costs. Solarex identified the most difficult technical challenges that, if overcome, would reduce costs. Preliminary research plans were developed to solve the technical problems. 13 refs.

  4. Manufacturing Fuel Cell Manhattan Project

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    to DOE Fuel Cell Manufacturing Workshop 2011 John Christensen, PE NREL Consultant DOE Fuel Cell Market Transformation Support August 11, 2011 Manufacturing Fuel Cell Manhattan Project √ Identify manufacturing cost drivers to achieve affordability √ Identify best practices in fuel cell manufacturing technology √ Identify manufacturing technology gaps √ Identify FC projects to address these gaps MFCMP Objectives Completed Final Report due out Nov 2010 B2PCOE Montana Tech SME's Industry

  5. Manufacturing laser glass by continuous melting

    SciTech Connect

    Campbell, J H; Suratwala, T; krenitsky, S; Takeuchi, K

    2000-07-01

    A novel, continuous melting process is being used to manufacture meter-sized plates of laser glass at a rate 20-times faster, 5-times cheaper, and with 2-3 times better optical quality than with previous one-at-a-time, ''discontinuous'' technology processes. This new technology for manufacturing laser glass, which is arguably the most difficult continuously-melted optical material ever produced, comes as a result of a $60 million, six-year joint R&D program between government and industry. The glasses manufactured by the new continuous melting process are Nd-doped phosphate-based glasses and are marketed under the product names LG-770 (Schott Glass Technologies) and LHG-8 (Hoya Corporation USA). With this advance in glass manufacturing technology, it is now possible to construct high-energy, high-peak-power lasers for use in fusion energy development, national defense, and basic physics research that would have been impractical to build using the old melting technology. The development of continuously melted laser glass required technological advances that have lead to improvements in the manufacture of other optical glass products as well. For example, advances in forming, annealing, and conditioning steps of the laser glass continuous melting process are now being used in manufacture of other large-size optical glasses.

  6. Economics of Future Growth in Photovoltaics Manufacturing

    SciTech Connect

    Basore, Paul A.; Chung, Donald; Buonassisi, Tonio

    2015-06-14

    The past decade's record of growth in the photovoltaics manufacturing industry indicates that global investment in manufacturing capacity for photovoltaic modules tends to increase in proportion to the size of the industry. The slope of this proportionality determines how fast the industry will grow in the future. Two key parameters determine this slope. One is the annual global investment in manufacturing capacity normalized to the manufacturing capacity for the previous year (capacity-normalized capital investment rate, CapIR, units $/W). The other is how much capital investment is required for each watt of annual manufacturing capacity, normalized to the service life of the assets (capacity-normalized capital demand rate, CapDR, units $/W). If these two parameters remain unchanged from the values they have held for the past few years, global manufacturing capacity will peak in the next few years and then decline. However, it only takes a small improvement in CapIR to ensure future growth in photovoltaics. Any accompanying improvement in CapDR will accelerate that growth.

  7. Cross-cutting technologies to enable clean energy manufacturing

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    TECHNOLOGIES TO ENABLE CLEAN ENERGY MANUFACTURING drhgfdjhngngfmhgmghmghjmghfmf DOUG LONGMAN Manager, Engine Combustion Research 2016-06-14 WWW.ANL.GOV This presentation does not contain any proprietary, confidential, or otherwise restricted information. CONNECTION TO AMO MISSION Distributed Generation (DG) systems improve energy efficiency, carbon footprint, reduce emissions, and facilitate market opportunities enabling U.S. manufacturers to be cost-competitive and energy independent.

  8. Fact #852 December 22, 2014 Turbocharged Engines Account for...

    Energy.gov [DOE] (indexed site)

    As auto manufacturers pursue greater fuel economy, models are increasingly being offered with smaller displacement engines that consume less fuel. In order to meet performance ...

  9. Industrial Assessment Centers Train Future Energy-Savvy Engineers

    Energy.gov [DOE]

    Learn how the Energy Department's Industrial Assessment Centers are helping develop a new generation of engineers capable of confronting the energy challenges faced by U.S. manufacturers.

  10. Career Map: Aerospace Engineer | Department of Energy

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Aerospace Engineer Career Map: Aerospace Engineer An aerospace engineer stands in front of a drivetrain testing machine. Aerospace Engineer Position Title Aerospace Engineer Alternate Title(s) Aeronautical Engineer Education & Training Level Advanced, Bachelor's required, prefer graduate degree Education & Training Level Description Aerospace engineers must have a bachelor's degree in aerospace engineering or another field of engineering or science related to aerospace systems. Brief job

  11. Career Map: Project Engineer | Department of Energy

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Project Engineer Career Map: Project Engineer project_engineer.jpg Project Engineer Position Title Project Engineer Alternate Title(s) Construction Engineer, Project Development Engineer Education & Training Level Advanced, Bachelors required Education & Training Level Description Project engineers usually have a bachelor's degree in mechanical, aerospace or electrical engineering. They may also have a degree in other technical disciplines or construction management. Employers also value

  12. Drug development and manufacturing

    DOEpatents

    Warner, Benjamin P.; McCleskey, T. Mark; Burrell, Anthony K.

    2015-10-13

    X-ray fluorescence (XRF) spectrometry has been used for detecting binding events and measuring binding selectivities between chemicals and receptors. XRF may also be used for estimating the therapeutic index of a chemical, for estimating the binding selectivity of a chemical versus chemical analogs, for measuring post-translational modifications of proteins, and for drug manufacturing.

  13. Advanced Reciprocating Engine System (ARES) | Department of Energy

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Advanced Reciprocating Engine System (ARES) Advanced Reciprocating Engine System (ARES) The ARES program is designed to promote separate, but parallel engine development among the major stationary, gaseous fueled engine manufacturers in the United States. Advanced Reciprocating Engine Systems (ARES) Brochure (2.28 MB) More Documents & Publications Advanced Natural Gas Reciprocating Engines (ARES) - Presentation by Cummins, Inc., June 2011 Advanced Natural Gas Reciprocating Engines (ARES) -

  14. Catalyst Assisted Manufacture of Olefins (CAMOL)

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Majid Keyvani, Ph.D., Lyondell Chemical Company U.S. DOE Advanced Manufacturing Office Peer Review Meeting Washington, D.C. May 6-7, 2014 This presentation does not contain any proprietary, confidential, or otherwise restricted information. Project Background  Coke is a naturally occurring by-product of steam cracking  Coking (carbonaceous deposits) of the furnace coils increases energy requirements, requires frequent production interruptions to de-coke, and shortens coil life  Both the

  15. Bio-Manufacturing: A Strategic clean energy manufacturing opportunity

    Energy.gov [DOE]

    Breakout Session 1: New Developments and Hot Topics Session 1-A: Biomass and the U.S. Competitive Advantages for Manufacturing Clean Energy Products Libby Wayman, Director, EERE Clean Energy Manufacturing Initiative

  16. Designing aluminum sealing glasses for manufacturability

    SciTech Connect

    Kovacic, L.; Crowder, S.V.; Brow, R.K.; Bencoe, D.N.

    1993-12-31

    Manufacturability issues involved in the development of new sealing glasses include tailoring glass compositions to meet material and component requirements and determining the optimum seal processing parameters. For each of these issues, statistical analysis can be used to shorten the time between concept and product in the development of what is essentially a new manufacturing technology. We use the development of our new family of phosphate-based glasses for aluminum/stainless steel and aluminum/CuBe hermetic sealing, the ALSG family, to illustrate the statistical approach.

  17. InSpira Sun Centered Engineering | Open Energy Information

    OpenEI (Open Energy Information) [EERE & EIA]

    InSpira Sun Centered Engineering Jump to: navigation, search Name: InSpira Sun Centered Engineering Place: Las Rozas de Madrid, Spain Zip: 28230 Product: Madrid-based manufacturer...

  18. Development of an Improved Process for Installation Projects of High Technology Manufacturing Equipment

    SciTech Connect

    Quintana, Sarah V.

    2014-04-30

    High technology manufacturing equipment is utilized at Los Alamos National Laboratory (LANL) to support nuclear missions. This is undertaken from concept initiation where equipment is designed and then taken through several review phases, working closely with system engineers (SEs) responsible for each of the affected systems or involved disciplines (from gasses to HVAC to structural, etc.). After the design is finalized it moves to procurement and custom fabrication of the equipment and equipment installation, including all of the paperwork involved. Not only are the engineering and manufacturing aspects important, but also the scheduling, financial forecasting, and planning portions that take place initially and are sometimes modified as the project progresses should requirements, changes or additions become necessary. The process required to complete a project of this type, including equipment installation, is unique and involves numerous steps to complete. These processes can be improved and recent work on the Direct Current Arc (DC Arc) Glovebox Design, Fabrication and Installation Project provides an opportunity to identify some important lessons learned (LL) that can be implemented in the future for continued project improvement and success.

  19. SUSTAINABLE MANUFACTURING VIA MULTI-SCALE PHYSICS-BASED PROCESS MODELING AND MANUFACTURING-INFORMED DESIGN

    Energy.gov [DOE]

    Micro-structural modeling tools for metals are being developed and used to demonstrate a design framework to improve the understanding of dynamic response and statistical variability. This project will enable design engineers to evaluate the effects of design changes and material selection; anticipate quality and cost prior to implementation on the factory floor; and enable low-waste, low-cost manufacturing. Third Wave Systems, Inc. - Minneapolis, MN

  20. Contribution to Nanotechnology Manufacturing

    U.S. Department of Energy (DOE) - all webpages (Extended Search)

    shares Nano 50 award for directed assembly September 3, 2008 Contribution to Nanotechnology Manufacturing LOS ALAMOS, New Mexico, September 3, 2008-A team of scientists spanning three institutions, including Los Alamos National Laboratory, has discovered a more efficient way of fusing charge-carrying electrical contacts to tiny "nanowires" of silicon to create the nanotechnology at the heart of potential future advances in modern electronics, sensing, and energy collection. Nanotech

  1. National Electrical Manufacturers Association

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    July 24, 2014 VIA EMAIL TO: Regulatory.Review@hq.doe.gov Steven Croley, General Counsel Office of the General Counsel U.S. Department of Energy 1000 Independence Avenue SW., Washington, DC 20585 NEMA Comments on DOE Reducing Regulatory Burden RFI 79 Fed.Reg. 28518 (July 3, 2014) Dear Mr. Croley, The National Electrical Manufacturers Association (NEMA) thanks you for the opportunity to provide comments on the Department of Energy's efforts to make its regulatory program more effective and less

  2. Manufacturing Demonstration Facility: Low Temperature Materials Synthesis

    SciTech Connect

    Graham, David E.; Moon, Ji-Won; Armstrong, Beth L.; Datskos, Panos G.; Duty, Chad E.; Gresback, Ryan; Ivanov, Ilia N.; Jacobs, Christopher B.; Jellison, Gerald Earle; Jang, Gyoung Gug; Joshi, Pooran C.; Jung, Hyunsung; Meyer, III, Harry M.; Phelps, Tommy

    2015-06-30

    The Manufacturing Demonstration Facility (MDF) low temperature materials synthesis project was established to demonstrate a scalable and sustainable process to produce nanoparticles (NPs) for advanced manufacturing. Previous methods to chemically synthesize NPs typically required expensive, high-purity inorganic chemical reagents, organic solvents and high temperatures. These processes were typically applied at small laboratory scales at yields sufficient for NP characterization, but insufficient to support roll-to-roll processing efforts or device fabrication. The new NanoFermentation processes described here operated at a low temperature (~60 C) in low-cost, aqueous media using bacteria that produce extracellular NPs with controlled size and elemental stoichiometry. Up-scaling activities successfully demonstrated high NP yields and quality in a 900-L pilot-scale reactor, establishing this NanoFermentation process as a competitive biomanufacturing strategy to produce NPs for advanced manufacturing of power electronics, solid-state lighting and sensors.

  3. Fuel Oil Use in Manufacturing

    Energy Information Administration (EIA) (indexed site)

    logo Return to: Manufacturing Home Page Fuel Oil Facts Oil Price Effect Fuel Switching Actual Fuel Switching Storage Capacity Fuel Oil Use in Manufacturing Why Look at Fuel Oil?...

  4. Additive Manufacturing for Fuel Cells

    Energy.gov [DOE]

    Blake Marshall, AMO's lead for Additive Manufacturing Technologies, will provide an overview of current R&D activities in additive manufacturing and its application to fuel cell prototyping and...

  5. Method for manufacturing magnetohydrodynamic electrodes

    DOEpatents

    Killpatrick, Don H.; Thresh, Henry R.

    1982-01-01

    A method of manufacturing electrodes for use in a magnetohydrodynamic (MHD) generator comprising the steps of preparing a billet having a core 10 of a first metal, a tubular sleeve 12 of a second metal, and an outer sheath 14, 16, 18 of an extrusile metal; evacuating the space between the parts of the assembled billet; extruding the billet; and removing the outer jacket 14. The extruded bar may be made into electrodes by cutting and bending to the shape required for an MDH channel frame. The method forms a bond between the first metal of the core 10 and the second metal of the sleeve 12 strong enough to withstand a hot and corrosive environment.

  6. NREL: Energy Analysis - Manufacturing Analysis

    U.S. Department of Energy (DOE) - all webpages (Extended Search)

    Recent Publications "Economic Measurements of Polysilicon for the Photovoltaic Industry: Market Competition and Manufacturing Competitiveness" IEEE Journal of Photovoltaics Supply Chain and Blade Manufacturing Considerations in the Global Wind Industry Economic Development Impact of 1,000 MW of Wind Energy in Texas Manufacturing Analysis With world-class manufacturing analysis capabilities, NREL analyzes clean energy industry trends; cost, price, and performance trends; market and

  7. ITP Nanomanufacturing: Nanomanufacturing Portfolio: Manufacturing...

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Use of Nanomaterials, January 2011 ITP Nanomanufacturing: Nanomanufacturing Portfolio: Manufacturing Processes and Applications to Accelerate Commercial Use of Nanomaterials, ...

  8. Energy 101: Clean Energy Manufacturing

    SciTech Connect

    2015-07-09

    Most of us have a basic understanding of manufacturing. It's how we convert raw materials, components, and parts into finished goods that meet our essential needs and make our lives easier. But what about clean energy manufacturing? Clean energy and advanced manufacturing have the potential to rejuvenate the U.S. manufacturing industry and open pathways to increased American competitiveness. Watch this video to learn more about this exciting movement and to see some of these innovations in action.

  9. Electrolyzer Manufacturing Progress and Challenges

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    * Proton Commercialization Status: PEM Electrolysis * Current Manufacturing Limitations: ... service * Broad understanding of PEM Electrolysis systems and markets 4 Proton ...

  10. Energy 101: Clean Energy Manufacturing

    Energy.gov [DOE]

    Most of us have a basic understanding of manufacturing. It's how we convert raw materials, components, and parts into finished goods that meet our essential needs and make our lives easier. But what about clean energy manufacturing? Clean energy and advanced manufacturing have the potential to rejuvenate the U.S. manufacturing industry and open pathways to increased American competitiveness. Watch this video to learn more about this exciting movement and to see some of these innovations in action.

  11. Energy Department Helps Manufacturers of Small and Mid-Size Wind Turbines

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Meet Certification Requirements | Department of Energy Manufacturers of Small and Mid-Size Wind Turbines Meet Certification Requirements Energy Department Helps Manufacturers of Small and Mid-Size Wind Turbines Meet Certification Requirements October 1, 2015 - 1:04pm Addthis Energy Department Helps Manufacturers of Small and Mid-Size Wind Turbines Meet Certification Requirements Mark Higgins Operations Supervisor, Wind & Water Power Technologies Office On October 1, the Energy

  12. MECS 2006 - All Manufacturing | Department of Energy

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    All Manufacturing MECS 2006 - All Manufacturing Manufacturing Energy and Carbon Footprint - Sector: All Manufacturing (NAICS 31-33) with Total Energy Input, October 2012 (MECS 2006) All available footprints and supporting documents Manufacturing Energy and Carbon Footprint All Manufacturing (NAICS 31-33) (120.28 KB) More Documents & Publications All Manufacturing (2010 MECS) MECS 2006 - Alumina and Aluminum MECS 2006 - Cement

  13. Out of Bounds Additive Manufacturing

    SciTech Connect

    Holshouser, Chris [Lockheed Martin Corporation; Newell, Clint [Lockheed Martin Corporation; Palas, Sid [Lockheed Martin Corporation; Love, Lonnie J [ORNL; Kunc, Vlastimil [ORNL; Lind, Randall F [ORNL; Lloyd, Peter D [ORNL; Rowe, John C [ORNL; Blue, Craig A [ORNL; Duty, Chad E [ORNL; Peter, William H [ORNL; Dehoff, Ryan R [ORNL

    2013-01-01

    Lockheed Martin and Oak Ridge National Laboratory are working on an additive manufacturing (AM) system capable of manufacturing components measured not in terms of inches or feet, but multiple yards in all dimensions with the potential to manufacture parts that are completely unbounded in size.

  14. Out of bounds additive manufacturing

    DOE PAGES [OSTI]

    Holshouser, Chris; Newell, Clint; Palas, Sid; Love, Lonnie J.; Kunc, Vlastimil; Lind, Randall F.; Lloyd, Peter D.; Rowe, John C.; Blue, Craig A.; Duty, Chad E.; et al

    2013-03-01

    Lockheed Martin and Oak Ridge National Laboratory are working on an additive manufacturing system capable of manufacturing components measured not in terms of inches or feet, but multiple yards in all dimensions with the potential to manufacture parts that are completely unbounded in size.

  15. Career Map: Civil Engineer | Department of Energy

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Civil Engineer Career Map: Civil Engineer A civil engineer wearing a safety vest and hard hat stands in front of a wind turbine. Civil Engineer Position Title Civil Engineer Alternate Title(s) Engineer Education & Training Level Bachelors required, prefer graduate degree Education & Training Level Description Civil engineers need a bachelor's degree. They typically need a graduate degree for promotion to managerial positions. Civil engineers who sell their own services publicly must be

  16. Career Map: Engineering Manager | Department of Energy

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Engineering Manager Career Map: Engineering Manager Two engineering managers wearing hard hats inspect a wind component. Engineering Manager Position Title Engineering Manager Alternate Title(s) n/a Education & Training Level Bachelor's degree in relevant engineering discipline required Education & Training Level Description Engineering managers typically have at least a bachelor's degree and significant work experience. Brief job description The engineering manager plans, coordinates,

  17. Career Map: Sales Engineer | Department of Energy

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Sales Engineer Career Map: Sales Engineer Several sales engineers collaborate on a project using a tablet. Sales Engineer Position Title Sales Engineer Alternate Title(s) Technical Sales Engineer, Senior Sales Executive, Vice President of Sales, Key Account Manager Education & Training Level Bachelors required, prefer graduate degree Education & Training Level Description Sales engineers typically need a bachelor's degree in engineering or a related field. Brief job description Sales

  18. Innovative Manufacturing Initiative Recognition Day, Advanced...

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Publications Innovative Manufacturing Initiative Recognition Day Advanced Manufacturing Office Overview Unlocking the Potential of Additive Manufacturing in the Fuel Cells Industry

  19. Manufacturing Energy Consumption Survey (MECS) - Analysis & Projection...

    Energy Information Administration (EIA) (indexed site)

    Residential - RECS Transportation DOE Uses MECS Data Manufacturing Energy and Carbon Footprints Associated Analysis Manufacturing Energy Sankey Diagrams Manufacturing Energy Flows ...

  20. GE's Digital Marketplace to Revolutionize Manufacturing | GE...

    U.S. Department of Energy (DOE) - all webpages (Extended Search)

    Manufacturing Commons" - a global ecosystem for manufacturing businesses The Commons ... The project aims to build an expansive manufacturing ecosystem, with the goal of having ...

  1. Manufacturing Energy Consumption Survey (MECS) - Analysis & Projection...

    U.S. Department of Energy (DOE) - all webpages (Extended Search)

    That increase in supply has in turn lowered the price of natural gas to manufacturers Manufacturing Energy Consumption Data Show Large Reductions in Both Manufacturing Energy Use ...

  2. Additive Manufacturing: Pursuing the Promise | Department of...

    Energy.gov [DOE] (indexed site)

    Fact sheet overviewing additive manufacturing techniques that are projected to exert a profound impact on manufacturing. Additive Manufacturing: Pursuing the Promise More Documents...

  3. FHP Manufacturing Company Geothermal | Open Energy Information

    OpenEI (Open Energy Information) [EERE & EIA]

    FHP Manufacturing Company Geothermal Jump to: navigation, search Name: FHP Manufacturing Company: Geothermal Place: Florida Sector: Geothermal energy Product: FHP Manufacturing...

  4. Teksun PV Manufacturing Inc | Open Energy Information

    OpenEI (Open Energy Information) [EERE & EIA]

    Teksun PV Manufacturing Inc Jump to: navigation, search Logo: Teksun PV Manufacturing Inc Name: Teksun PV Manufacturing Inc Address: 401 Congress Ave Place: Austin, Texas Zip:...

  5. Solar Manufacturing Technology | Department of Energy

    Office of Environmental Management (EM)

    Technology to Market Solar Manufacturing Technology Solar Manufacturing Technology The SunShot Solar Manufacturing Technology (SolarMat) program funds the development of ...

  6. WORKSHOP: SUSTAINABILITY IN MANUFACTURING AGENDA AND OVERVIEW...

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    WORKSHOP: SUSTAINABILITY IN MANUFACTURING AGENDA AND OVERVIEW WORKSHOP: SUSTAINABILITY IN MANUFACTURING AGENDA AND OVERVIEW PDF icon Sustainable Manufacturing Workshop Agenda.pdf ...

  7. About the Clean Energy Manufacturing Initiative | Department...

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    About the Clean Energy Manufacturing Initiative About the Clean Energy Manufacturing Initiative The Clean Energy Manufacturing Initiative (CEMI) is a U.S. Department of Energy ...

  8. clean energy manufacturing | netl.doe.gov

    U.S. Department of Energy (DOE) - all webpages (Extended Search)

    Clean Energy Manufacturing Initiative The Clean Energy Manufacturing Initiative is a strategic integration and commitment of manufacturing efforts across the DOE Office of Energy ...

  9. Sputnik Engineering AG | Open Energy Information

    OpenEI (Open Energy Information) [EERE & EIA]

    Zip: CH-2502 Sector: Solar Product: Manufacturer of SolarMax grid tie inverters for photovoltaic applications. References: Sputnik Engineering AG1 This article is a stub. You can...

  10. Engineered Products: Order (2012-SE-5401)

    Energy.gov [DOE]

    DOE ordered Engineered Products Company to pay a $480 civil penalty after finding EPCO had manufactured/privately labeled and distributed in commerce in the U.S. 19 units of basic model 15701, a metal halide lamp fixture.

  11. Flow Battery System Design for Manufacturability.

    SciTech Connect

    Montoya, Tracy Louise; Meacham, Paul Gregory; Perry, David; Broyles, Robin S.; Hickey, Steven; Hernandez, Jacquelynne

    2014-10-01

    Flow battery energy storage systems can support renewable energy generation and increase energy efficiency. But, presently, the costs of flow battery energy storage systems can be a significant barrier for large-scale market penetration. For cost- effective systems to be produced, it is critical to optimize the selection of materials and components simultaneously with the adherence to requirements and manufacturing processes to allow these batteries and their manufacturers to succeed in the market by reducing costs to consumers. This report analyzes performance, safety, and testing requirements derived from applicable regulations as well as commercial and military standards that would apply to a flow battery energy storage system. System components of a zinc-bromine flow battery energy storage system, including the batteries, inverters, and control and monitoring system, are discussed relative to manufacturing. The issues addressed include costs and component availability and lead times. A service and support model including setup, maintenance and transportation is outlined, along with a description of the safety-related features of the example flow battery energy storage system to promote regulatory and environmental, safety, and health compliance in anticipation of scale manufacturing.

  12. ESnet Requirements Workshops

    U.S. Department of Energy (DOE) - all webpages (Extended Search)

    Requirements Workshops Summary for Sites Eli Dart, Network Engineer ESnet Network Engineering Group ESnet Site Coordinating Committee Meeting Clemson, SC February 2, 2011 Lawrence Berkeley National Laboratory U.S. Department of Energy | Office of Science Overview ESnet requirements workshops - what are they? Common themes Discussion of subset of requirements learned * Examples of trends * Success stories * Upcoming needs that are currently unmet Thoughts for discussion 2/1/11 2 Lawrence Berkeley

  13. Manufacturing High Temperature Systems

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Manufacturing and Scale Up Challenges Joseph Hartvigsen Ceramatec, Inc. National Renewable Energy Laboratory Golden, CO February 28, 2014 Antipode Assertions * Electric power generation is not the limitation - To misquote Jay Leno "Use all you want, we'll make more" - http://atomicinsights.com/2013/02/use-all-the-electricity-you-want-well-make-more.html * High electric costs come from working the demand curve from below rather than above * "Grid Storage" is a misleading

  14. Honda motor company's CVCC engine

    SciTech Connect

    Abernathy, W.J.; Ronan, L.

    1980-07-01

    Honda Motor Company of Japan in a four-year period from 1968 to 1872 designed, tested, and mass-produced a stratified charge engine, the CVCC, which in comparison to conventional engines of similar output at the time was lower in CO, HC and NO/sub x/ emissions and higher in fuel economy. Honda developed the CVCC engine without government assistance or outside help. Honda's success came at a time when steadily increasing fuel costs and the various provisions of the Clean Air Act had forced US automakers to consider possible alternatives to the conventional gasoline engine. While most major engine manufacturers had investigated some form of stratified charge engine, Honda's CVCC was the only one to find successful market application. This case study examines the circumstances surrounding the development of the CVCC engine and its introduction into the Japanese and American markets.

  15. Materials Engineering Research Facility | Argonne National Laboratory

    U.S. Department of Energy (DOE) - all webpages (Extended Search)

    Materials Engineering Research Facility Argonne's new Materials Engineering Research Facility (MERF) supports the laboratory's Advanced Battery Materials Synthesis and Manufacturing R&D Program. The MERF is enabling the development of manufacturing processes for producing advanced battery materials in sufficient quantity for industrial testing. The research conducted in this program is known as process scale-up. Scale-up R&D involves taking a laboratory-developed material and developing

  16. Automated design synthesis of robotic/human workcells for improved manufacturing system design in hazardous environments

    SciTech Connect

    Williams, Joshua M.

    2012-06-12

    Manufacturing tasks that are deemed too hazardous for workers require the use of automation, robotics, and/or other remote handling tools. The associated hazards may be radiological or nonradiological, and based on the characteristics of the environment and processing, a design may necessitate robotic labor, human labor, or both. There are also other factors such as cost, ergonomics, maintenance, and efficiency that also effect task allocation and other design choices. Handling the tradeoffs of these factors can be complex, and lack of experience can be an issue when trying to determine if and what feasible automation/robotics options exist. To address this problem, we utilize common engineering design approaches adapted more for manufacturing system design in hazardous environments. We limit our scope to the conceptual and embodiment design stages, specifically a computational algorithm for concept generation and early design evaluation. In regard to concept generation, we first develop the functional model or function structure for the process, using the common 'verb-noun' format for describing function. A common language or functional basis for manufacturing was developed and utilized to formalize function descriptions and guide rules for function decomposition. Potential components for embodiment are also grouped in terms of this functional language and are stored in a database. The properties of each component are given as quantitative and qualitative criteria. Operators are also rated for task-relevant criteria which are used to address task compatibility. Through the gathering of process requirements/constraints, construction of the component database, and development of the manufacturing basis and rule set, design knowledge is stored and available for computer use. Thus, once the higher level process functions are defined, the computer can automate the synthesis of new design concepts through alternating steps of embodiment and function structure updates

  17. AMO Celebrates Manufacturing Day Across the Country

    Office of Energy Efficiency and Renewable Energy (EERE)

    On October 7, 2016, manufacturers across the country opened their doors and hosted events in honor of Manufacturing Day.  Manufacturing Day is a celebration of modern manufacturing meant to inspire...

  18. Smart Manufacturing Innovation | Department of Energy

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Smart Manufacturing Innovation Smart Manufacturing Innovation Addthis Find out how advanced technologies developed by our latest institute will make U.S. manufacturing more productive, energy efficient, and competitive. Learn more about advanced manufacturing

  19. Energy Department Announces Funding to Train Engineers, Provide Energy

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Assessments for Small- and Medium-sized Manufacturers | Department of Energy Train Engineers, Provide Energy Assessments for Small- and Medium-sized Manufacturers Energy Department Announces Funding to Train Engineers, Provide Energy Assessments for Small- and Medium-sized Manufacturers April 6, 2016 - 3:34pm Addthis The U.S. Department of Energy (DOE) today announced approximately $35 million in funding, subject to congressional appropriations, to assist small- and medium-sized U.S.

  20. Gas-Fired Reciprocating Engines

    Energy.gov [DOE]

    The reciprocating, or piston-driven, engine is a widespread and well-known technology. Also called internal combustion engines, reciprocating engines require fuel, air, compression, and a combustion source to function. Depending on the ignition source, they generally fall into two categories: (1) spark-ignited engines, typically fueled by gasoline or natural gas, and (2) compression-ignited engines, typically fueled by diesel oil fuel.

  1. Oak Ridge Centers for Manufacturing Technology - The Manufacturing...

    U.S. Department of Energy (DOE) - all webpages (Extended Search)

    The Manufacturing Skills Campus Another of the inputs came from Garry Whitley, President of the Atomic Trades and Labor Council, since retired. Garry and I have worked together...

  2. Oak Ridge Centers for Manufacturing Technology ? The Manufacturing...

    U.S. Department of Energy (DOE) - all webpages (Extended Search)

    The Manufacturing Skills Campus Another of the inputs came from Garry Whitley, President of the Atomic Trades and Labor Council, since retired. Garry and I have worked together...

  3. Understanding Manufacturing Energy and Carbon Footprints, October...

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Understanding Manufacturing Energy and Carbon Footprints, October 2012 Understanding Manufacturing Energy and Carbon Footprints, October 2012 understandingenergyfootprints2012.p...

  4. National Electrical Manufacturers Association Comment | Department...

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Comment National Electrical Manufacturers Association Comment The National Electrical Manufacturers Association (NEMA) appreciates the opportunity to provide the attached comments ...

  5. Nakagawa Electric Machinery Manufacturer | Open Energy Information

    OpenEI (Open Energy Information) [EERE & EIA]

    navigation, search Name: Nakagawa Electric Machinery Manufacturer Place: Saku, Nagano, Japan Product: A company engages in electrical equipment manufacture. Coordinates:...

  6. Clean Energy Manufacturing Initiative: Increasing American Competitive...

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Manufacturing Initiative: Increasing American Competitiveness Through Innovation Clean ... Manufacturing Initiative (CEMI), a collaborative effort between the federal government, ...

  7. Clean Energy Manufacturing Initiative Midwest Regional Summit...

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Breakout Session Summary (372.05 KB) More Documents & Publications Fiber Reinforced Polymer Composite Manufacturing Workshop Multimaterial Joining Workshop Manufacturing ...

  8. Semiconductor Manufacturing International Corp SMIC | Open Energy...

    OpenEI (Open Energy Information) [EERE & EIA]

    Manufacturing International Corp SMIC Jump to: navigation, search Name: Semiconductor Manufacturing International Corp (SMIC) Place: Shanghai, Shanghai Municipality, China Zip:...

  9. Advanced Manufacturing Office (Formerly Industrial Technologies...

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Manufacturing Office (Formerly Industrial Technologies Program) Advanced Manufacturing Office (Formerly Industrial Technologies Program) Presented at the NREL Hydrogen and Fuel ...

  10. Institute for Advanced Composites Manufacturing Innovation Holds...

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Institute for Advanced Composites Manufacturing Innovation Holds Second Membership Meeting Institute for Advanced Composites Manufacturing Innovation Holds Second Membership Meeting ...

  11. Manufacturing Demonstration Facilities Workshop Agenda, March...

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Manufacturing Demonstration Facilities Workshop Marriott Springhill Suites O'Hare - ... mechanics of the Manufacturing Demonstration Facility (MDF) concept and the ...

  12. Clean Energy Manufacturing Innovation Institute for Composites...

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Clean Energy Manufacturing Innovation Institute for Composites Materials and Structures Clean Energy Manufacturing Innovation Institute for Composites Materials and Structures ...

  13. Life cycle cost study for coated conductor manufacture by electron beam and pulsed laser deposition systems

    SciTech Connect

    Chapman, J.N.

    1999-04-14

    The results of this study establish a framework for evaluation of the cost impact of many performance parameters in coated conductor manufacturing systems. Since the cost and concepts are based on early developmental results and engineering judgment, the study should be updated periodically based on latest data to enhance its usefulness. The study should be expanded to include other promising processes under consideration or development for manufacture of coated conductors. Review of this study by as wide a group of experts from industry, national laboratories and universities as possible is desirable to facilitate improving accuracy of the estimates and communication on the issues involved. The results for the case of achieving the $10/kA-m goal at a J{sub c} of 10{sup 5} a/cm{sup 2} applicable to applications requiring a magnetic field perpendicular to the direction of current flow may be viewed as somewhat discouraging. However, there is ample margin for improvement due to continued development and engineering that could enable meeting the goal of $10/kA-m.

  14. A Semantic Web Service and Simulation Framework to Intelligent Distributed Manufacturing

    SciTech Connect

    Son, Young Jun; Kulvatunyou, Boonserm; Cho, Hyunbo; Feng, Shaw

    2005-11-01

    To cope with today's fluctuating markets, a virtual enterprise (VE) concept can be employed to achieve the cooperation among independently operating enterprises. The success of VE depends on reliable interoperation among trading partners. This paper proposes a framework based on semantic web of manufacturing and simulation services to enable business and engineering collaborations between VE partners, particularly a design house and manufacturing suppliers.

  15. The Illuminating Engineering Society and TM-24-13

    Energy.gov [DOE]

    In 2013, the Illuminating Engineering Society published TM-24-13, An Optional Method for Adjusting the Recommended Illuminance for Visually Demanding Tasks Within IES Illuminance Categories P through Y Based on Light Source Spectrum. This technical memorandum allows the use of spectrum in determining illuminance recommendations for visually demanding tasks, generally in the realm of commercial and industrial interior lighting. Such tasks require the ability to discern detail for efficient performance and include most reading tasks, as well as other critical vision tasks typically found in office, inspection, repair, manufacturing, education, and medical settings.

  16. RMACS software requirements specification

    SciTech Connect

    Gneiting, B.C.

    1996-10-01

    This document defines the essential user (or functional) requirements of the Requirements Management and Assured Compliance System (RMACS), which is used by the Tank Waste Remediation System program (TWRS). RMACS provides a computer-based environment that TWRS management and systems engineers can use to identify, define, and document requirements. The intent of the system is to manage information supporting definition of the TWRS technical baseline using a structured systems engineering process. RMACS has the capability to effectively manage a complete set of complex requirements and relationships in a manner that satisfactorily assures compliance to the program requirements over the TWRS life-cycle.

  17. clean energy manufacturing | netl.doe.gov

    U.S. Department of Energy (DOE) - all webpages (Extended Search)

    Clean Energy Manufacturing Initiative The Clean Energy Manufacturing Initiative is a strategic integration and commitment of manufacturing efforts across the DOE Office of Energy Efficiency & Renewable Energy's (EERE's) clean energy technology offices and Advanced Manufacturing Office, focusing on American competitiveness in clean energy manufacturing. Clean Energy Manufacturing Initiative: http://www1.eere.energy.gov/energymanufacturing

  18. Industrial Assessment Centers - Small Manufacturers Reduce Energy & Increase Productivity

    SciTech Connect

    2015-11-06

    Since 1976, the Industrial Assessment Centers (IACs), administered by the US Department of Energy, have supported small and medium-sized American manufacturers to reduce energy use and increase their productivity and competitiveness. The 24 IACs, located at premier engineering universities around the country (see below), send faculty and engineering students to local small and medium-sized manufacturers to provide no-cost assessments of energy use, process performance and waste and water flows. Under the direction of experienced professors, IAC engineering students analyze the manufacturer’s facilities, energy bills and energy, waste and water systems, including compressed air, motors/pumps, lighting, process heat and steam. The IACs then follow up with written energy-saving and productivity improvement recommendations, with estimates of related costs and payback periods.

  19. Manufacturing consumption of energy 1994

    SciTech Connect

    1997-12-01

    This report provides estimates on energy consumption in the manufacturing sector of the U.S. economy based on data from the Manufacturing Energy Consumption Survey. The sample used in this report represented about 250,000 of the largest manufacturing establishments which account for approximately 98 percent of U.S. economic output from manufacturing, and an expected similar proportion of manufacturing energy use. The amount of energy use was collected for all operations of each establishment surveyed. Highlights of the report include profiles for the four major energy-consuming industries (petroleum refining, chemical, paper, and primary metal industries), and an analysis of the effects of changes in the natural gas and electricity markets on the manufacturing sector. Seven appendices are included to provide detailed background information. 10 figs., 51 tabs.

  20. Manufacturing consumption of energy 1991

    SciTech Connect

    Not Available

    1994-12-01

    This report provides estimates on energy consumption in the manufacturing sector of the US economy. These estimates are based on data from the 1991 Manufacturing Energy Consumption Survey (MECS). This survey--administered by the Energy End Use and Integrated Statistics Division, Office of Energy Markets and End Use, Energy Information Administration (EIA)--is the most comprehensive source of national-level data on energy-related information for the manufacturing industries.

  1. Revolutionizing Manufacturing | Department of Energy

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Revolutionizing Manufacturing Revolutionizing Manufacturing Addthis Saving Energy and Resources 1 of 4 Saving Energy and Resources Thanks to additive manufacturing technology, Oak Ridge National Laboratory was able to fabricate a robotic hand with less energy use and material waste. The novel, lightweight, low-cost fluid powered hand was selected for a 2012 R&D 100 award. | Photo courtesy of Oak Ridge National Laboratory. Partnering with Industry 2 of 4 Partnering with Industry The Energy

  2. Transformational Manufacturing | Argonne National Laboratory

    U.S. Department of Energy (DOE) - all webpages (Extended Search)

    Transformational Manufacturing Argonne's new Advanced Battery Materials Synthesis and Manufacturing R&D Program focuses on scalable process R&D to produce advanced battery materials in sufficient quantity for industrial testing. The U.S. manufacturing industry consumes more than 30 quadrillion Btu of energy per year, directly employs about 12 million people and generates another 7 million jobs in related businesses. Argonne is working with industry to develop innovative and

  3. Low Temperature Fuel Cell and Electrolyzer Balance-of-Plant Manufactur...

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Requirement for Fuel Cell and Electrolyser BOP Manufacturing * Clean environment (No dust, VOCs, controlled humidity and temperature, etc.) * Safe process - high pressure gases, ...

  4. The Use of Additive Manufacturing for Fabrication of Multi-Function...

    Office of Scientific and Technical Information (OSTI)

    However, the use of today's additive manufacturing capabilities is often cost-prohibitive for small companies due to the large capital investments required. To alleviate this ...

  5. Method and apparatus for manufacturing gas tags

    DOEpatents

    Gross, K.C.; Laug, M.T.

    1996-12-17

    For use in the manufacture of gas tags employed in a gas tagging failure detection system for a nuclear reactor, a plurality of commercial feed gases each having a respective noble gas isotopic composition are blended under computer control to provide various tag gas mixtures having selected isotopic ratios which are optimized for specified defined conditions such as cost. Using a new approach employing a discrete variable structure rather than the known continuous-variable optimization problem, the computer controlled gas tag manufacturing process employs an analytical formalism from condensed matter physics known as stochastic relaxation, which is a special case of simulated annealing, for input feed gas selection. For a tag blending process involving M tag isotopes with N distinct feed gas mixtures commercially available from an enriched gas supplier, the manufacturing process calculates the cost difference between multiple combinations and specifies gas mixtures which approach the optimum defined conditions. The manufacturing process is then used to control tag blending apparatus incorporating tag gas canisters connected by stainless-steel tubing with computer controlled valves, with the canisters automatically filled with metered quantities of the required feed gases. 4 figs.

  6. Method and apparatus for manufacturing gas tags

    DOEpatents

    Gross, Kenny C.; Laug, Matthew T.

    1996-01-01

    For use in the manufacture of gas tags employed in a gas tagging failure detection system for a nuclear reactor, a plurality of commercial feed gases each having a respective noble gas isotopic composition are blended under computer control to provide various tag gas mixtures having selected isotopic ratios which are optimized for specified defined conditions such as cost. Using a new approach employing a discrete variable structure rather than the known continuous-variable optimization problem, the computer controlled gas tag manufacturing process employs an analytical formalism from condensed matter physics known as stochastic relaxation, which is a special case of simulated annealing, for input feed gas selection. For a tag blending process involving M tag isotopes with N distinct feed gas mixtures commercially available from an enriched gas supplier, the manufacturing process calculates the cost difference between multiple combinations and specifies gas mixtures which approach the optimum defined conditions. The manufacturing process is then used to control tag blending apparatus incorporating tag gas canisters connected by stainless-steel tubing with computer controlled valves, with the canisters automatically filled with metered quantities of the required feed gases.

  7. Manufacturing Spotlight: Boosting American Competitiveness

    Energy.gov [DOE]

    Find out how the Energy Department is helping bring new clean energy technologies to the marketplace and make manufacturing processes more energy efficient.

  8. Manufacturing Consumption of Energy 1994

    Energy Information Administration (EIA) (indexed site)

    the CM, the ASM contains two components. The first component is the mail portion, a probability sample of manufacturing establishments selected from the list of establishments...

  9. The Clean Energy Manufacturing Initiative

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    by ensuring critical feedback from the production phase to invention and discovery. Additive manufacturing is just one of several technologies advanced by the Energy...

  10. Manufacturing Consumption of Energy 1994

    Energy Information Administration (EIA) (indexed site)

    Natural Gas to Residual Fuel Oil, by Industry Group and Selected Industries, 1994 369 Energy Information AdministrationManufacturing Consumption of Energy 1994 SIC Residual...

  11. Solar Thermal Collector Manufacturing Activities

    Annual Energy Outlook

    4 Average thermal performance rating of solar thermal collectors by type shipped in 2009 ... Administration, Form EIA-63A, "Annual Solar Thermal Collector Manufacturers Survey." ...

  12. Solar Thermal Collector Manufacturing Activities

    Annual Energy Outlook

    5 Shipments of complete solar thermal collector systems, 2008 and 2009 Shipment ... Administration, Form EIA-63A, "Annual Solar Thermal Collector Manufacturers Survey."

  13. Geothermal Heat Pump Manufacturing Activities

    Annual Energy Outlook

    8 Geothermal heat pump shipments by origin, 2008 and 2009 (rated capacity in tons) Origin ... Administration (EIA), Form EIA-902, "Annual Geothermal Heat Pump Manufacturers Survey

  14. Geothermal Heat Pump Manufacturing Activities

    Annual Energy Outlook

    0 Geothermal heat pump domestic shipments by customer type, 2008 and 2009 (rated capacity ... Administration (EIA), Form EIA-902, "Annual Geothermal Heat Pump Manufacturers Survey

  15. Geothermal Heat Pump Manufacturing Activities

    Gasoline and Diesel Fuel Update

    1 Geothermal heat pump domestic shipments by sector and model type, 2009 (rated capacity ... Administration (EIA), Form EIA-902, "Annual Geothermal Heat Pump Manufacturers Survey

  16. Geothermal Heat Pump Manufacturing Activities

    Annual Energy Outlook

    Geothermal heat pump shipments by model type, 2000 - 2009 (number of units) ARI-320 ... Administration (EIA), Form EIA-902, "Annual Geothermal Heat Pump Manufacturers Survey."

  17. Geothermal Heat Pump Manufacturing Activities

    Gasoline and Diesel Fuel Update

    Rated capacity of geothermal heat pump shipments by model type, 2000 - 2009 (tons) ARI-320 ... Administration (EIA), Form EIA-902, "Annual Geothermal Heat Pump Manufacturers Survey."

  18. Manufacturing Consumption of Energy 1994

    Energy Information Administration (EIA) (indexed site)

    Detailed Tables 28 Energy Information AdministrationManufacturing Consumption of Energy 1994 1. In previous MECS, the term "primary energy" was used to denote the "first use" of...

  19. Manufacturing Consumption of Energy 1994

    Energy Information Administration (EIA) (indexed site)

    energy data used in this report do not reflect adjustments for losses in electricity generation or transmission. 1 The manufacturing sector is composed of establishments classified...

  20. Energy-Efficient Manufactured Homes

    Energy.gov [DOE]

    Like site-built homes, new manufactured homes (formerly known as mobile homes) can be designed for energy efficiency and renewable energy.

  1. Advanced Manufacturing | Department of Energy

    U.S. Department of Energy (DOE) - all webpages (Extended Search)

    The U.S. Department of Energy funds the research, development, and demonstration of highly ... that enable the development and demonstration of advanced manufacturing ...

  2. Manufacturing Fuel Cell Manhattan Project

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Manufacturing Fuel Cell Manhattan Project Presented by the Benchmarking and Best Practices ... in providing valued information on affordable and implementable fuel cell technology. ...

  3. Manufacturing Innovation in the DOE

    Energy.gov [DOE] (indexed site)

    Products Swung to historic deficit, lost 13 of workforce Data Source: http:www.census.govforeign-tradePress-Releaseft900index.html Advanced Manufacturing Office (AMO) ...

  4. Gas rotary engine technology development. Final Report, April-December 1990

    SciTech Connect

    Kuchnicki, T.A.; Goodrich, B.E.; Page, R.A.

    1990-12-01

    The feasibility of developing a small natural gas oil-cooled rotary engine for long life gas heat pump applications was explored. A literature search was conducted, rotary engine manufacturers were contacted and questioned, experts in engine materials and engine lubricants furnished reports, and discussions were held with engineering management and staff engineers to review rotary engine technology and discuss practical ideas for more durable engine designs.

  5. Career Map: Quality Engineer | Department of Energy

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Quality Engineer Career Map: Quality Engineer A male quality engineer sits at a desk with several computers showing data. Quality Engineer Position Title Quality Engineer Alternate Title(s) Quality Assurance, Quality Control Education & Training Level Advanced, Bachelors required, prefer graduate degree or equivalent experience Education & Training Level Description Quality engineers need a bachelor's degree in an engineering field, plus experience. Professional certifications may be

  6. Fact #852 December 22, 2014 Turbocharged Engines Account for 64.7% of all Four-Cylinder Gasoline Car Engines in 2014

    Energy.gov [DOE]

    As auto manufacturers pursue greater fuel economy, models are increasingly being offered with smaller displacement engines that consume less fuel. In order to meet performance expectations,...

  7. Sandia National Laboratories: Careers: Electrical Engineering

    U.S. Department of Energy (DOE) - all webpages (Extended Search)

    Electrical Engineering Electrical Engineering photo Electrical engineers at Sandia design and develop advanced instrumentation systems for in-flight weapons system evaluations and other applications. Sandia creates innovative, science-based, systems-engineering solutions to our nation's most challenging national security problems. Sandia electrical engineers are an integral part of multidisciplinary teams tasked with defining requirements, creating system designs, implementing design

  8. Cummins Engine Company B5.9 Propane Engine Development, Certification, and Demonstration Project

    SciTech Connect

    The ADEPT Group, Inc.

    1998-12-18

    The objective of this project was to successfuly develop and certify an LPG-dedicated medium-duty original equipment manufacturer (OEM) engine that could be put into production. The engine was launched into production in 1994, and more than 800 B5.9G engines are now in service in the United States and abroad. This engine is now offered by more than 30 bus and truck OEMs.

  9. Predictive Engineering Tools for Injection-Molded Long-Carbon-Fiber Thermoplastic Composites - FY13 Third Quarterly Report

    SciTech Connect

    Nguyen, Ba Nghiep; Simmons, Kevin L.

    2013-08-06

    This quarterly report summarizes the status for the project planning to obtain all the approvals required for a Cooperative Research and Development Agreement (CRADA) with Autodesk, Inc., Toyota Motor Engineering and Manufacturing North America (Toyota), and Magna Exterior and Interiors Corporation (Magna). The CRADA documents have been processed by PNNL Legal Services that is also coordinating the revision effort with the industrial parties to address DOEs comments.

  10. Energy Department Supports Manufacturing Day

    Office of Energy Efficiency and Renewable Energy (EERE)

    The Energy Department’s Office of Energy Efficiency and Renewable Energy (EERE) is supporting Manufacturing Day—a nationwide event that opens the doors of nearly 2000 manufacturing companies to the public—with visits to sites in the Midwest.

  11. Solar Manufacturing Projects | Department of Energy

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Solar Manufacturing Projects Solar Manufacturing Projects Solar Manufacturing Projects Solar Manufacturing Projects Solar Manufacturing Projects Solar Manufacturing Projects SOLAR MANUFACTURING 1 PROJECT in 1 LOCATION 1,000 MW GENERATION CAPACITY 1,927,000 MWh PROJECTED ANNUAL GENERATION * 1,100,000 METRIC TONS OF CO2 EMISSIONS PREVENTED ANNUALLY ALL FIGURES AS OF MARCH 2015 * Calculated using the project's and NREL Technology specific capacity factors. For cases in which NREL's capacity factors

  12. Advanced Manufacturing Office (Formerly Industrial Technologies Program) |

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Department of Energy Manufacturing Office (Formerly Industrial Technologies Program) Advanced Manufacturing Office (Formerly Industrial Technologies Program) Presented at the NREL Hydrogen and Fuel Cell Manufacturing R&D Workshop in Washington, DC, August 11-12, 2011. DOE's Advanced Manufacturing Office (85.03 KB) More Documents & Publications Innovative Manufacturing Initiative Recognition Day Manufacturing Demonstration Facilities Workshop Agenda, March 2012 Advanced Manufacturing

  13. Advanced Manufacturing Office At-A-Glance

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    ADVANCED MANUFACTURING OFFICE FY 2017 BUDGET AT-A-GLANCE The Advanced Manufacturing Office (AMO) brings together manufacturers, research institutions, suppliers, and universities to investigate manufacturing processes, information, and materials technologies critical to advance domestic manufacturing of clean energy products, and to support energy productivity across the entire manufacturing sector. What We Do The Advanced Manufacturing Offce uses an integrated approach that relies on three

  14. All Manufacturing (2010 MECS) | Department of Energy

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    All Manufacturing (2010 MECS) All Manufacturing (2010 MECS) Manufacturing Energy and Carbon Footprint for All Manufacturing Sector (NAICS 31-33) Energy use data source: 2010 EIA MECS (with adjustments) Footprint Last Revised: June 2015 View footprints for other sectors here. Manufacturing Energy and Carbon Footprint All Manufacturing (111.63 KB) More Documents & Publications Cement (2010 MECS) Chemicals (2010 MECS) Computers, Electronics and Electrical Equipment (2010 MECS) Manufacturing

  15. Experience Scaling Up Manufacturing of Emerging Photovoltaic Technologies

    SciTech Connect

    Braun, G. W.; Skinner, D. E.

    2007-01-01

    This report examines two important generic photovoltaic technologies at particularly revealing stages of development, i.e., the stages between R&D and stable commercial production and profitable sales. Based on two historical cases, it attempts to shed light on the difference between: (1) costs and schedules validated by actual manufacturing and market experience, and (2) estimated costs and schedules that rely on technology forecasts and engineering estimates. The amorphous Silicon case also identifies some of the costs that are incurred in meeting specific market requirements, while the Cadmium Telluride case identifies many of the operational challenges involved in transferring R&D results to production. The transition between R&D and commercial success takes a great deal of time and money for emerging energy conversion technologies in general. The experience reported here can be instructive to those managing comparable efforts, and to their investors. It can also be instructive to R&D managers responsible for positioning such new technologies for commercial success.

  16. Commercial Implementation of Model-Based Manufacturing of Nanostructured Metals

    SciTech Connect

    Lowe, Terry C.

    2012-07-24

    Computational modeling is an essential tool for commercial production of nanostructured metals. Strength is limited by imperfections at the high strength levels that are achievable in nanostructured metals. Processing to achieve homogeneity at the micro- and nano-scales is critical. Manufacturing of nanostructured metals is intrinsically a multi-scale problem. Manufacturing of nanostructured metal products requires computer control, monitoring and modeling. Large scale manufacturing of bulk nanostructured metals by Severe Plastic Deformation is a multi-scale problem. Computational modeling at all scales is essential. Multiple scales of modeling must be integrated to predict and control nanostructural, microstructural, macrostructural product characteristics and production processes.

  17. Chemical Engineering

    U.S. Department of Energy (DOE) - all webpages (Extended Search)

    ARPA-E Basic Energy Sciences Materials Sciences and Engineering Chemical Sciences ... SunShot Grand Challenge: Regional Test Centers Chemical Engineering HomeTag:Chemical ...

  18. Reliability Engineering

    U.S. Department of Energy (DOE) - all webpages (Extended Search)

    LA-UR 15-27450 This document is approved for public release; further dissemination unlimited Reliability Engineering Reliability Engineering Current practice in reliability is ...

  19. Federal certification test results for 1992 model year. Control of air pollution from new motor vehicles and new motor vehicle engines

    SciTech Connect

    Not Available

    1992-01-01

    Each manufacturer of a passenger car, (light-duty-vehicle), light-duty truck, motorcycle, heavy-duty gasoline engine, and heavy-duty diesel engine is required to demonstrate compliance with the applicable exhaust emission standard. This report contains all of the individual tests that were required by the certification-procedures found in Title 40 of the Code of Federal Regulations in Part 86. These data were submitted to the Environmental Protection Agency's Certification Division at the National Vehicle and Fuel Emissions Laboratory.

  20. Two Manufacturers Agree to Civil Penalties to Resolve Enforcement Actions |

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Department of Energy Two Manufacturers Agree to Civil Penalties to Resolve Enforcement Actions Two Manufacturers Agree to Civil Penalties to Resolve Enforcement Actions February 15, 2011 - 5:30pm Addthis The Department of Energy today announced it has now settled two civil penalty actions against companies for violations of DOE regulations requiring that they certify products as compliant with federal efficiency standards. In the first case, DOE cited Perlick Residential & Hospitality

  1. ATVM requirements:

    Energy Saver

    Advanced Technology Vehicles Manufacturing Loan Program Effective Date: November 4, 2014 GUIDANCE FOR APPLICANTS TO THE ADVANCED TECHNOLOGY VEHICLES MANUFACTURING LOAN PROGRAM The Advanced Technology Vehicles Manufacturing Loan Program (ATVM Program) was authorized by Congress pursuant to Section 136 of the Energy Independence and Security Act of 2007, as amended (Section 136). The ATVM Program is administered by the U.S. Department of Energy's (DOE) Loan Programs Office (LPO). The purpose of

  2. Clean Energy Manufacturing Initiative | Department of Energy

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Clean Energy Manufacturing Initiative Clean Energy Manufacturing Initiative Clean Energy Manufacturing Initiative Industrial Efficiency and Energy Productivity Video Clean Energy Manufacturing Initiative Industrial Efficiency and Energy Productivity Video Industrial efficiency and low-cost energy resources are key components to increasing U.S. energy productivity and makes the U.S. manufacturing sector more competitive. Companies find a competitive advantage in implementing efficiency

  3. Advanced Technology Vehicles Manufacturing Incentive Program | Department

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    of Energy Technology Vehicles Manufacturing Incentive Program Advanced Technology Vehicles Manufacturing Incentive Program A fact sheet detailling the advanced technology vehicles manufacturing incentive program. Advanced Technology Vehicles Manufacturing Incentive Program (1.49 MB) More Documents & Publications Advanced Technology Vehicles Manufacturing Incentive Program MEMA: Comments MEMA: Letter

  4. Manufacturers' View on Benchmarking and Disclosure

    Gasoline and Diesel Fuel Update

    Association of Electrical and Medical Imaging Equipment Manufacturers Manufacturing Solutions for Energy Efficiency in Buildings Patrick Hughes Policy Director, High Performance Buildings National Electrical Manufacturers Association The Association of Electrical and Medical Imaging Equipment Manufacturers What is NEMA? The Association of Electrical Equipment and Medical Imaging Manufacturers Which policies encourage energy efficiency in buildings? Energy Savings Performance Contracts Tax

  5. Engineer develops 'leap forward' with 3D-printer | National Nuclear...

    National Nuclear Security Administration (NNSA)

    NNSA Blog Lawrence Livermore Laboratory engineer Bryan Moran won an award last month for his 3D printing innovation. It could revolutionize additive manufacturing. Lawrence ...

  6. Laser Manufacturing | GE Global Research

    U.S. Department of Energy (DOE) - all webpages (Extended Search)

    Laser Manufacturing at GE Global Research Click to email this to a friend (Opens in new window) Share on Facebook (Opens in new window) Click to share (Opens in new window) Click to share on LinkedIn (Opens in new window) Click to share on Tumblr (Opens in new window) Laser Manufacturing at GE Global Research Learn how laser sintering, an additive laser manufacturing process practiced at GE Global Research, makes parts from metal powder. You Might Also Like Munich_interior_V 10 Years ON: From

  7. Filter-based control of particulate matter from a lean gasoline direct injection engine

    SciTech Connect

    Parks, II, James E; Lewis Sr, Samuel Arthur; DeBusk, Melanie Moses; Prikhodko, Vitaly Y; Storey, John Morse

    2016-01-01

    New regulations requiring increases in vehicle fuel economy are challenging automotive manufacturers to identify fuel-efficient engines for future vehicles. Lean gasoline direct injection (GDI) engines offer significant increases in fuel efficiency over the more common stoichiometric GDI engines already in the marketplace. However, particulate matter (PM) emissions from lean GDI engines, particularly during stratified combustion modes, are problematic for lean GDI technology to meet U.S. Environmental Protection Agency Tier 3 and other future emission regulations. As such, the control of lean GDI PM with wall-flow filters, referred to as gasoline particulate filter (GPF) technology, is of interest. Since lean GDI PM chemistry and morphology differ from diesel PM (where more filtration experience exists), the functionality of GPFs needs to be studied to determine the operating conditions suitable for efficient PM removal. In addition, lean GDI engine exhaust temperatures are generally higher than diesel engines which results in more continuous regeneration of the GPF and less presence of the soot cake layer common to diesel particulate filters. Since the soot layer improves filtration efficiency, this distinction is important to consider. Research on the emission control of PM from a lean GDI engine with a GPF was conducted on an engine dynamometer. PM, after dilution, was characterized with membrane filters, organic vs. elemental carbon characterization, and size distribution techniques at various steady state engine speed and load points. The engine was operated in three primary combustion modes: stoichiometric, lean homogeneous, and lean stratified. In addition, rich combustion was utilized to simulate PM from engine operation during active regeneration of lean NOx control technologies. High (>95%) PM filtration efficiencies were observed over a wide range of conditions; however, some PM was observed to slip through the GPF at high speed and load conditions. The

  8. Estimates of emergency operating capacity in US manufacturing and nonmanufacturing industries - Volume 1: Concepts and Methodology

    SciTech Connect

    Belzer, D.B. ); Serot, D.E. ); Kellogg, M.A. )

    1991-03-01

    Development of integrated mobilization preparedness policies requires planning estimates of available productive capacity during national emergency conditions. Such estimates must be developed in a manner to allow evaluation of current trends in capacity and the consideration of uncertainties in various data inputs and in engineering assumptions. This study developed estimates of emergency operating capacity (EOC) for 446 manufacturing industries at the 4-digit Standard Industrial Classification (SIC) level of aggregation and for 24 key nonmanufacturing sectors. This volume lays out the general concepts and methods used to develop the emergency operating estimates. The historical analysis of capacity extends from 1974 through 1986. Some nonmanufacturing industries are included. In addition to mining and utilities, key industries in transportation, communication, and services were analyzed. Physical capacity and efficiency of production were measured. 3 refs., 2 figs., 12 tabs. (JF)

  9. Manufacturing Advanced Engineered Components Using Lost Foam Casting Technology

    SciTech Connect

    None

    2004-11-01

    The project will further reduce porosity and fold defects in lost foam casting to improve production efficiency, mechanical properties, and marketability of castings.

  10. Computer-aided manufacturing of laminated engineering materials

    SciTech Connect

    Cawley, J.D.; Heuer, A.H.; Newman, W.S.; Mathewson, B.B.

    1996-05-01

    The high cost of tooling is often an obstacle to the implementation of design changes or material substitutions. The advent of rapid prototyping (RP), or solid freeform fabrication (SFF), has, to a large degree, eliminated this problem for design changes by allowing rapid fabrication of form-and-fit models without the need for tooling or extensive machining. Although a new class of technology--3D Systems Inc. introduced the first commercial machine, based on stereolithography, in 1987--RP has assumed a critical role in the activities of technologically advanced corporations, and it has become increasingly available to small businesses through service bureaus.

  11. Stirling Engines and Irrigation Pumping

    SciTech Connect

    West, C.D.

    1987-01-01

    This report was prepared in support of the Renewable Energy Applications and Training Project that is sponsored by the U.S. Agency for International Development for which ORNL provides technical assistance. It briefly outlines the performance that might be achievable from various kinds of Stirling-engine-driven irrigation pumps. Some emphasis is placed on the very simple liquid-piston engines that have been the subject of research in recent years and are suitable for manufacture in less well-developed countries. In addition to the results quoted here (possible limits on M4 and pumping head for different-size engines and various operating conditions), the method of calculation is described in sufficient detail for engineers to apply the techniques to other Stirling engine designs for comparison.

  12. Stirling engines

    SciTech Connect

    Reader, G.T.; Hooper

    1983-01-01

    The Stirling engine was invented by a Scottish clergyman in 1816, but fell into disuse with the coming of the diesel engine. Advances in materials science and the energy crisis have made a hot air engine economically attractive. Explanations are full and understandable. Includes coverage of the underlying thermodynamics and an interesting historical section. Topics include: Introduction to Stirling engine technology, Theoretical concepts--practical realities, Analysis, simulation and design, Practical aspects, Some alternative energy sources, Present research and development, Stirling engine literature.

  13. The President's Manufacturing Initiative | Department of Energy

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Presentation prepared by Dale Hall for the Roadmap Workshop on Manufacturing R&D for the ... Manufacturing National Program Office Roadmap on Manufacturing R&D for the Hydrogen ...

  14. CFL Manufacturers: ENERGY STAR Letters

    Energy.gov [DOE]

    DOE issued letters to 25 manufacturers of compact fluorescent lamps (CFLs) involving various models after PEARL Cycle 9 testing indicated that the models do not meet the ENERGY STAR specification and, therefore, are disqualified from the ENERGY STAR Program.

  15. PEM Stack Manufacturing: Industry Status

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    © 2009 BALLARD POWER SYSTEMS INC. ALL RIGHTS RESERVED JULY 2009 B U I L D I N G A C L E A N E N E R G Y G R O W T H C O M P A N Y B A L L A R D P O W E R S Y S T E M S PEM Stack Manufacturing: Industry Status Duarte R. Sousa, PE August 11, 2011 AUGUST 2009 P A G E 2 Overview of PEM Stack Manufacturing MEA Manufacturing Plate Manufacturing Stack Assembly Stack Conditioning and Testing Package and Ship For each of the four main processes, the following will be provided: 1. A brief history of

  16. 2014 Manufacturing Energy Consumption Survey

    U.S. Department of Energy (DOE) - all webpages (Extended Search)

    U S C E N S U S B U R E A U 2014 Manufacturing Energy Consumption Survey Sponsored by the Energy Information Administration U.S. Department of Energy Administered and Compiled by ...

  17. Alternative Energy Manufacturing Tax Credit

    Office of Energy Efficiency and Renewable Energy (EERE)

    The Alternative Energy Manufacturing Tax Credit is a nonrefundable tax credit for up to 100% of new state tax revenues (including state, corporate, sales, and withholding taxes) over the life of a...

  18. Solar Thermal Collector Manufacturing Activities

    Annual Energy Outlook

    U.S. Total 74 88 Percent of Total Sales Revenue Number of Companies Source: U.S. Energy Information Administration, Form EIA-63A, "Annual Solar Thermal Collector Manufacturers ...

  19. Manufacturing means jobs ? Mike Arms

    U.S. Department of Energy (DOE) - all webpages (Extended Search)

    Manufacturing Means Jobs - Mike Arms Mike Arms and I usually meet and say hello at the East Tennessee Economic Council meetings each Friday morning at 7:30 a.m. This unique meeting...

  20. Manufacturing Consumption of Energy 1994

    Energy Information Administration (EIA) (indexed site)

    2(94) Distribution Category UC-950 Manufacturing Consumption of Energy 1994 December 1997 Energy Information Administration Office of Energy Markets and End Use U.S. Department of...

  1. First Solar Manufacturing Solar Modules

    Energy.gov [DOE]

    In this photograph, a First Solar associate handles photovoltaic materials at the company's Ohio manufacturing plant. First Solar is an industry partner with the U.S. Department of Energy Solar...

  2. Heavy Truck Engine Program

    SciTech Connect

    Nelson, Christopher

    2009-01-08

    The Heavy Duty Truck Engine Program at Cummins embodied three significant development phases. All phases of work strove to demonstrate a high level of diesel engine efficiency in the face of increasingly stringent emission requirements. Concurrently, aftertreatment system development and refinement was pursued in support of these efficiency demonstrations. The program's first phase focused on the demonstration in-vehicle of a high level of heavy duty diesel engine efficiency (45% Brake Thermal Efficiency) at a typical cruise condition while achieving composite emissions results which met the 2004 U.S. EPA legislated standards. With a combination of engine combustion calibration tuning and the development and application of Urea-based SCR and particulate aftertreatment, these demonstrations were successfully performed by Q4 of 2002. The second phase of the program directed efforts towards an in-vehicle demonstration of an engine system capable of meeting 2007 U.S. EPA legislated emissions requirements while achieving 45% Brake Thermal Efficiency at cruise conditions. Through further combustion optimization, the refinement of Cummins Cooled EGR architecture, the application of a high pressure common rail fuel system and the incorporation of optimized engine parasitics, Cummins Inc. successfully demonstrated these deliverables in Q2 of 2004. The program's final phase set a stretch goal of demonstrating 50% Brake Thermal Efficiency from a heavy duty diesel engine system capable of meeting 2010 U.S. EPA legislated emissions requirements. Cummins chose to pursue this goal through further combustion development and refinement of the Cooled EGR system architecture and also applied a Rankine cycle Waste Heat Recovery technique to convert otherwise wasted thermal energy to useful power. The engine and heat recovery system was demonstrated to achieve 50% Brake Thermal Efficiency while operating at a torque peak condition in second quarter, 2006. The 50% efficient engine

  3. Advanced Reciprocating Engine Systems (ARES): Raising the Bar on Engine Technology with Increased Efficiency and Reduced Emissions, at Attractive Costs

    SciTech Connect

    2009-02-01

    This is a fact sheet on the U.S. Department of Energy's (DOE) Advanced Reciprocating Engine Systems program (ARES), which is designed to promote separate, but parallel engine development between the major stationary, gaseous fueled engine manufacturers in the United States.

  4. Manufacturing R&D

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    D The Manufacturing R&D sub-program in the Fuel Cell Technologies Office (FCTO) improves processes and reduces the cost of manufacturing components and systems for hydrogen production and delivery, hydrogen storage, and fuel cells for transportation, stationary, and portable applications. Scaling up production of today's hydrogen and fuel cell components and systems (currently built using laboratory-scale fabrication technologies) to high- volume commercially-viable products is challenging.

  5. Innovative Manufacturing Initiative Recognition Day

    Energy.gov [DOE]

    The Innovative Manufacturing Initiative (IMI) Recognition Day (held in Washington, DC on June 20, 2012) showcased IMI projects selected by the Energy Department to help American manufacturers dramatically increase the energy efficiency of their operations and reduce costs. Each project will advance transformational technologies and materials that can benefit a broad cross-section of the domestic economy. This event created a platform for inter-agency and industry networking and also raised awareness among congressional staff and private investors.

  6. Large-Scale Manufacturing of Nanoparticle-Based Lubrication Additives

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Large-Scale Manufacturing of Nanoparticulate-Based Lubrication Additives Development of Boron-Based Nanolubrication Additives for Improved Energy Efficiency and Reduced Emissions Lubricants play a vital role in machine life and performance, reducing friction and wear and preventing component failure. Poor lubricant performance can cause signifcant energy and material losses. The already large global demand for lubricants is expected to continue growing in the future. Engine oils account for

  7. Advanced Qualification of Additive Manufacturing Workshop

    U.S. Department of Energy (DOE) - all webpages (Extended Search)

    Additive Manufacturing Workshop Poster Abstract Submission - deadline July 10, 2015 Advanced Qualification of Additive Manufacturing Materials using in situ sensors, diagnostics...

  8. Third Annual American Energy and Manufacturing Competitiveness...

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    and included showpieces highlighting advanced composites manufacturing and large scale additive manufacturing. Image: Photo courtesy of Attlee Photography View All Galleries

  9. 2010 Manufacturing Energy and Carbon Footprints: Definitions...

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Manufacturing Energy and Carbon Footprints: Definitions and Assumptions This 13-page document defines key terms and details assumptions and references used in the Manufacturing ...

  10. ITP Nanomanufacturing: Manufacturing of Surfaces with Nanoscale...

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Manufacturing of Surfaces with Nanoscale and Microscale Features ITP Nanomanufacturing: Manufacturing of Surfaces with Nanoscale and Microscale Features superhydrophobicsurfaces.p...

  11. Energy Intensity Indicators: Manufacturing Energy Intensity

    Energy.gov [DOE]

    The manufacturing sector comprises 18 industry sectors, generally defined at the three-digit level of the North American Industrial Classification System (NAICS). The manufacturing energy data...

  12. Electric Drive Component Manufacturing Facilities | Department...

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Component Manufacturing Facilities Electric Drive Component Manufacturing Facilities 2013 DOE Hydrogen and Fuel Cells Program and Vehicle Technologies Program Annual Merit Review ...

  13. Electric Drive Component Manufacturing Facilities | Department...

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Component Manufacturing Facilities Electric Drive Component Manufacturing Facilities 2012 DOE Hydrogen and Fuel Cells Program and Vehicle Technologies Program Annual Merit Review ...

  14. Miraial formerly Kakizaki Manufacturing | Open Energy Information

    OpenEI (Open Energy Information) [EERE & EIA]

    to: navigation, search Name: Miraial (formerly Kakizaki Manufacturing) Place: Tokyo, Japan Zip: 171-0021 Product: Manufacturer of wafer handling products and other components...

  15. Testing, Manufacturing, and Component Development Projects |...

    Office of Environmental Management (EM)

    Testing, Manufacturing, and Component Development Projects This report covers the Wind and Water Power Technologies Office's testing, manufacturing, and component development ...

  16. Energy Department Invests in Innovative Manufacturing Technologies...

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    in Innovative Manufacturing Technologies Energy Department Invests in Innovative Manufacturing Technologies June 13, 2012 - 12:00am Addthis The Energy Department announced on June...

  17. Foreword: Additive Manufacturing: Interrelationships of Fabrication...

    Office of Scientific and Technical Information (OSTI)

    Moreover, a variety of fields such as aerospace, military, automotive, and biomedical are employing this manufacturing technique as a way to decrease costs, increase manufacturing ...

  18. Wind Energy & Manufacturing | Open Energy Information

    OpenEI (Open Energy Information) [EERE & EIA]

    Wind Energy & Manufacturing Jump to: navigation, search Blades manufactured at Gamesa's factory in Ebensburg, Pennsylvania, will be delivered to wind farms across the United...

  19. Manufacturing Consumption of Energy 1991--Combined Consumption...

    Energy Information Administration (EIA) (indexed site)

    call 202-586-8800 for help. Return to Energy Information Administration Home Page. Home > Energy Users > Manufacturing > Consumption and Fuel Switching Manufacturing Consumption of...

  20. American Wind Manufacturing | Department of Energy

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    American Wind Manufacturing Addthis 1 of 9 Nordex USA -- a global manufacturer of wind turbines -- delivered and installed turbine components for the Power County Wind...

  1. FY 2008 Honeywell Federal Manufacturing & Technologies, LLC,...

    National Nuclear Security Administration (NNSA)

    FY 2008 Honeywell Federal Manufacturing & Technologies, LLC, PER Summary SUMMARY OF FY 2008 HONEYWELL FEDERAL MANUFACTURING & TECHNOLOGIES, LLC, AWARD FEE DETERMINATION Total ...

  2. FY 2010 Honeywell Federal Manufacturing & Technologies, LLC,...

    National Nuclear Security Administration (NNSA)

    FY 2010 Honeywell Federal Manufacturing & Technologies, LLC, PER Summary SUMMARY OF FY 2010 HONEYWELL FEDERAL MANUFACTURING & TECHNOLOGIES, LLC, AWARD FEE DETERMINATION Total ...

  3. FY 2009 Honeywell Federal Manufacturing & Technologies, LLC,...

    National Nuclear Security Administration (NNSA)

    FY 2009 Honeywell Federal Manufacturing & Technologies, LLC, PER Summary SUMMARY OF FY 2009 HONEYWELL FEDERAL MANUFACTURING & TECHNOLOGIES, LLC, AWARD FEE DETERMINATION Total ...

  4. FY 2006 Honeywell Federal Manufacturing & Technologies, LLC,...

    National Nuclear Security Administration (NNSA)

    FY 2006 Honeywell Federal Manufacturing & Technologies, LLC, PER Summary SUMMARY OF FY 2006 HONEYWELL FEDERAL MANUFACTURING & TECHNOLOGIES, LLC, AWARD FEE DETERMINATION Total ...

  5. FY 2007 Honeywell Federal Manufacturing & Technologies, LLC,...

    National Nuclear Security Administration (NNSA)

    FY 2007 Honeywell Federal Manufacturing & Technologies, LLC, PER Summary SUMMARY OF FY 2007 HONEYWELL FEDERAL MANUFACTURING & TECHNOLOGIES, LLC, AWARD FEE DETERMINATION Total ...

  6. FY 2011 Honeywell Federal Manufacturing & Technologies, LLC,...

    National Nuclear Security Administration (NNSA)

    FY 2011 Honeywell Federal Manufacturing & Technologies, LLC, PER Summary SUMMARY OF FY 2011 HONEYWELL FEDERAL MANUFACTURING & TECHNOLOGIES, LLC, AWARD FEE DETERMINATION Total ...

  7. Oak Ridge Centers for Manufacturing Technology - Partnership...

    U.S. Department of Energy (DOE) - all webpages (Extended Search)

    Impact on the Semiconductor Industry, part 2 The Oak Ridge Centers for Manufacturing Technology in partnership with SEMATECH (Semiconductor Manufacturing TECHnology) had...

  8. Advanced Battery Manufacturing Facilities and Equipment Program...

    Energy.gov [DOE] (indexed site)

    More Documents & Publications Advanced Battery Manufacturing Facilities and Equipment Program Advanced Battery Manufacturing Facilities and Equipment Program Fact Sheet: Grid-Scale ...

  9. Advanced Battery Manufacturing Facilities and Equipment Program...

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    D.C. PDF icon esarravt002flicker2010p.pdf More Documents & Publications Advanced Battery Manufacturing Facilities and Equipment Program Advanced Battery Manufacturing...

  10. Advanced Technology Vehicles Manufacturing Loan Program | Department...

    Office of Environmental Management (EM)

    Technology Vehicles Manufacturing Loan Program Advanced Technology Vehicles Manufacturing Loan Program ATVM-Program-Application-Overview.pdf More Documents & Publications ATVM...

  11. Clean Energy Manufacturing Initiative Southeast Regional Summit...

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Clean Energy Manufacturing Initiative Southeast Regional Summit Clean Energy Manufacturing Initiative Southeast Regional Summit July 9, 2015 8:30AM to 6:00PM EDT Renaissance...

  12. Industrial Activities at DOE: Efficiency, Manufacturing, Process...

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Industrial Activities at DOE: Efficiency, Manufacturing, Process, and Materials R&D Industrial Activities at DOE: Efficiency, Manufacturing, Process, and Materials R&D Overview of ...

  13. Processing and Manufacturing Equipment | Open Energy Information

    OpenEI (Open Energy Information) [EERE & EIA]

    Processing and Manufacturing Equipment Jump to: navigation, search TODO: Add description List of Processing and Manufacturing Equipment Incentives Retrieved from "http:...

  14. Technologies Enabling Agile Manufacturing (TEAM) ? an ORCMT...

    U.S. Department of Energy (DOE) - all webpages (Extended Search)

    Technologies Enabling Agile Manufacturing (TEAM) - An ORCMT success story Technologies Enabling Agile Manufacturing (TEAM) was one of the larger programs to come from the...

  15. Bio Solutions Manufacturing Inc | Open Energy Information

    OpenEI (Open Energy Information) [EERE & EIA]

    Solutions Manufacturing Inc Jump to: navigation, search Name: Bio Solutions Manufacturing Inc Place: Las Vegas, Nevada Zip: 89103 Product: Waste-to-energy bioremediation developer....

  16. DOE - Office of Legacy Management -- Manufacturing Laboratories...

    Office of Legacy Management (LM)

    Manufacturing Laboratories Inc - MA 0-04 FUSRAP Considered Sites Site: MANUFACTURING LABORATORIES, INC. (MA.0-04 ) Eliminated from further consideration under FUSRAP Designated...

  17. Chung Hsin Electric Machinery Manufacturing Corporation CHEM...

    OpenEI (Open Energy Information) [EERE & EIA]

    Chung Hsin Electric Machinery Manufacturing Corporation CHEM Jump to: navigation, search Name: Chung Hsin Electric & Machinery Manufacturing Corporation (CHEM) Place: Taoyuan...

  18. Leitner Shriram Manufacturing Ltd | Open Energy Information

    OpenEI (Open Energy Information) [EERE & EIA]

    Manufacturing Ltd Jump to: navigation, search Name: Leitner Shriram Manufacturing Ltd Place: Chennai, Tamil Nadu, India Zip: 600095 Sector: Wind energy Product: Chennai-based JV...

  19. Advanced Qualification of Additive Manufacturing Materials Workshop

    U.S. Department of Energy (DOE) - all webpages (Extended Search)

    Advanced Qualification of Additive Manufacturing Materials Workshop Advanced Qualification of Additive Manufacturing Materials Workshop WHEN: Jul 20, 2015 8:30 AM - Jul 21, 2015...

  20. Aurora Photovoltaics Manufacturing | Open Energy Information

    OpenEI (Open Energy Information) [EERE & EIA]

    Photovoltaics Manufacturing Jump to: navigation, search Name: Aurora Photovoltaics Manufacturing Place: Lawrenceville, New Jersey Zip: 8648 Sector: Solar Product: A subsidiary of...

  1. Stronger Manufacturers' Energy Efficiency Standards for Residential...

    Energy Saver

    Stronger Manufacturers' Energy Efficiency Standards for Residential Air Conditioners Go Into Effect Today Stronger Manufacturers' Energy Efficiency Standards for Residential Air ...

  2. China Shandong Penglai Electric Power Equipment Manufacturing...

    OpenEI (Open Energy Information) [EERE & EIA]

    Penglai Electric Power Equipment Manufacturing Jump to: navigation, search Name: China Shandong Penglai Electric Power Equipment Manufacturing Place: Penglai, Shandong Province,...

  3. Manufacturing Institutes Exhibit American Innovation at Hannover...

    Office of Environmental Management (EM)

    Manufacturing Institutes Exhibit American Innovation at Hannover Messe Manufacturing Institutes Exhibit American Innovation at Hannover Messe April 25, 2016 - 4:30pm Addthis The ...

  4. FACTSHEET: Next Generation Power Electronics Manufacturing Innovation...

    Energy.gov [DOE] (indexed site)

    a public-private manufacturing innovation institute for next generation power electronics. ... network of up to 45 manufacturing innovation institutes that help make America a ...

  5. Advanced Manufacturing Office and Potential Technologies for...

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    for Clean Energy Manufacturing Innovation October 8, 2014 DOEDOD Planning ... is a leader in advanced manufacturing innovation and implementing the National Network ...

  6. Energy Conservation Standards for Manufactured Housing. Notice...

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    EERE-2009-BT-BC-0021 RIN: 1904-AC11 Energy Conservation Standards for Manufactured ... which directs DOE to establish energy conservation standards for manufactured housing. ...

  7. Manufacturing Energy and Carbon Footprint References | Department...

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Manufacturing Energy and Carbon Footprint References footprintreferences.pdf (309.04 KB) More Documents & Publications 2010 Manufacturing Energy and Carbon Footprints: References ...

  8. Clean Energy Manufacturing Funding Opportunities | Department...

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Funding Opportunities Clean Energy Manufacturing Funding Opportunities To accomplish the goals of the Clean Energy Manufacturing Initiative (CEMI), the U.S. Department of Energy ...

  9. Manufacturing Demonstration Facility Workshop | Department of...

    Energy.gov [DOE] (indexed site)

    March 12, 2012 The Manufacturing Demonstration Facility Workshop (held in Chicago, IL, on ... aspects of planning a series of Manufacturing Demonstration Facilities (MDFs). ...

  10. Manufacturing Demonstration Facilities Workshop Agenda, March...

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Manufacturing Demonstration Facilities Workshop Agenda, March 2012 mdfworkshopagenda.pdf (263.06 KB) More Documents & Publications Manufacturing Demonstration Facility Workshop ...

  11. Monitoring system for the quality assessment in additive manufacturing

    SciTech Connect

    Carl, Volker

    2015-03-31

    Additive Manufacturing (AM) refers to a process by which a set of digital data -representing a certain complex 3dim design - is used to grow the respective 3dim real structure equal to the corresponding design. For the powder-based EOS manufacturing process a variety of plastic and metal materials can be used. Thereby, AM is in many aspects a very powerful tool as it can help to overcome particular limitations in conventional manufacturing. AM enables more freedom of design, complex, hollow and/or lightweight structures as well as product individualisation and functional integration. As such it is a promising approach with respect to the future design and manufacturing of complex 3dim structures. On the other hand, it certainly calls for new methods and standards in view of quality assessment. In particular, when utilizing AM for the design of complex parts used in aviation and aerospace technologies, appropriate monitoring systems are mandatory. In this respect, recently, sustainable progress has been accomplished by joining the common efforts and concerns of a manufacturer Additive Manufacturing systems and respective materials (EOS), along with those of an operator of such systems (MTU Aero Engines) and experienced application engineers (Carl Metrology), using decent know how in the field of optical and infrared methods regarding non-destructive-examination (NDE). The newly developed technology is best described by a high-resolution layer by layer inspection technique, which allows for a 3D tomography-analysis of the complex part at any time during the manufacturing process. Thereby, inspection costs are kept rather low by using smart image-processing methods as well as CMOS sensors instead of infrared detectors. Moreover, results from conventional physical metallurgy may easily be correlated with the predictive results of the monitoring system which not only allows for improvements of the AM monitoring system, but finally leads to an optimisation of the quality

  12. Manufacturing Innovation Institute for Smart Manufacturing: Advanced Sensors, Controls, Platforms, and Modeling for Manufacturing

    Energy.gov [DOE]

    Office: Advanced ManufacturingPost date: 9/15/15Original Closing Date for Applications: Jan 29, 2016 A mandatory Concept Paper is due 11/04/2015 at 5:00pm ET.

  13. Worldwide Energy and Manufacturing USA Inc formerly Worldwide...

    OpenEI (Open Energy Information) [EERE & EIA]

    and Manufacturing USA Inc formerly Worldwide Manufacturing USA Jump to: navigation, search Name: Worldwide Energy and Manufacturing USA Inc (formerly Worldwide Manufacturing USA)...

  14. Review of the thermal energy standards for manufactured housing proposed by the Manufactured Housing Institute Consensus Committee

    SciTech Connect

    Conner, C.C.

    1992-02-01

    Congress passed legislation that requires the US Department of Housing and Urban Development (HUD) to revise the energy efficiency standards for manufactured housing contained in the Manufactured Home Construction and Safety Standards (MHCSS). The Manufactured Housing Institute's Consensus Committee (MHICC) proposed revised standards to HUD based on an analysis contained in a 1989 report by E. Levy. This document is primarily a review of the Levy report, including the methods and inputs to that analysis. The approach to be used in developing the revised standard was specified by Congress as a cost-benefit analysis in which the costs of energy efficiency measures (EEM) were balanced against the benefits of energy savings. The resulting optimum specified an overall level of energy efficiency in terms of a maximum allowable building shell U-value (overall thermal transmittance) that produced the lowest life-cycle cost to the owner of a manufactured home. In his 1989 analysis, this was the general approach used by Levy.

  15. EVALUATION OF A LOW FRICTION - HIGH EFFICIENCY ROLLER BEARING ENGINE

    SciTech Connect

    Kolarik, Robert V. II; Shattuck, Charles W.; Copper, Anthony P.

    2009-06-30

    This Low Friction (High Efficiency Roller Bearing) Engine (LFE) report presents the work done by The Timken Company to conduct a technology demonstration of the benefits of replacing hydrodynamic bearings with roller bearings in the crankshaft and camshaft assemblies of an internal combustion engine for the purpose of collecting data sufficient to prove merit. The engines in the present study have been more extensively converted to roller bearings than any previous studies (40 needle roller bearings per engine) to gain understanding of the full potential of application of bearing technology. The project plan called for comparative testing of a production vehicle which was already respected for having demonstrated low engine friction levels with a rollerized version of that engine. Testing was to include industry standard tests for friction, emissions and fuel efficiency conducted on instrumented dynamometers. Additional tests for fuel efficiency, cold start resistance and other measures of performance were to be made in the actual vehicle. Comparative measurements of noise, vibration and harshness (NVH), were planned, although any work to mitigate the suspected higher NVH level in the rollerized engine was beyond the scope of this project. Timken selected the Toyota Avalon with a 3.5L V-6 engine as the test vehicle. In an attempt to minimize cost and fabrication time, a ‘made-from’ approach was proposed in which as many parts as possible would be used or modified from production parts to create the rollerized engine. Timken commissioned its test partner, FEV Engine Technology, to do a feasibility study in which they confirmed that using such an approach was possible to meet the required dimensional restrictions and tolerances. In designing the roller bearing systems for the crank and cam trains, Timken utilized as many production engine parts as possible. The crankshafts were produced from production line forgings, which use Timken steel, modified with special

  16. Value Engineering

    Directives, Delegations, and Other Requirements [Office of Management (MA)]

    2002-12-30

    To establish Department of Energy (DOE) value engineering policy that establishs and maintains cost-effective value procedures and processes.

  17. Energy Efficient Thermoplastic Composite Manufacturing

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    thermoplastic composite aerospace structure with cycle ... produce due to material lay-down constraints and ... per lineal foot part to engineering accuracy; +- .030" per ...

  18. Sustainable Manufacturing via Multi-Scale, Physics-Based Process Modeling and Manufacturing- Informed Design

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Manufacturing ADVANCED MANUFACTURING OFFICE Sustainable Manufacturing via Multi-Scale, Physics-Based Process Modeling and Manufacturing- Informed Design Improving Product and Manufacturing Process Design through a More Accurate and Widely Applicable Modeling Framework. This project aims to fll the knowledge gap between upstream design and downstream manufacturing processes by developing a manufacturing-informed design framework enabled by multi-scale, physics-based process models. This framework

  19. Oak Ridge Manufacturing Demonstration Facility (MDF)

    Energy.gov [DOE]

    The Manufacturing Demonstration Facility (MDF) is a collaborative manufacturing community that shares a common RD&D infrastructure. This shared infrastructure provides affordable access to advanced physical and virtual tools for rapidly demonstrating new manufacturing technologies and optimizing critical processes. Oak Ridge National Laboratory is home to AMO's MDF focused on Additive Manufacturing and Low-cost Carbon Fiber.

  20. Oak Ridge Manufacturing Demonstration Facility (MDF)

    Office of Energy Efficiency and Renewable Energy (EERE)

    The Manufacturing Demonstration Facility (MDF) is a collabora­tive manufacturing community that shares a common RD&D infrastructure. This shared infrastructure provides affordable access to advanced physical and virtual tools for rapidly demonstrating new manufacturing technologies and optimizing critical processes. Oak Ridge National Laboratory is home to AMO's MDF focused on Additive Manufacturing and Low-cost Carbon Fiber.

  1. Career Map: Power Systems/Transmission Engineer | Department of Energy

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Systems/Transmission Engineer Career Map: Power Systems/Transmission Engineer A stretch of wind turbines and power lines at dusk. Power Systems/Transmission Engineer Position Title Power Systems/Transmission Engineer Alternate Title(s) Electric Power Engineer, Electrical Interconnection Engineer, Electrical Design Engineer Education & Training Level Advanced, Bachelors required, prefer graduate degree Education & Training Level Description Power Systems Engineers typically have a

  2. Metrology for Fuel Cell Manufacturing

    SciTech Connect

    Stocker, Michael; Stanfield, Eric

    2015-02-04

    The project was divided into three subprojects. The first subproject is Fuel Cell Manufacturing Variability and Its Impact on Performance. The objective was to determine if flow field channel dimensional variability has an impact on fuel cell performance. The second subproject is Non-contact Sensor Evaluation for Bipolar Plate Manufacturing Process Control and Smart Assembly of Fuel Cell Stacks. The objective was to enable cost reduction in the manufacture of fuel cell plates by providing a rapid non-contact measurement system for in-line process control. The third subproject is Optical Scatterfield Metrology for Online Catalyst Coating Inspection of PEM Soft Goods. The objective was to evaluate the suitability of Optical Scatterfield Microscopy as a viable measurement tool for in situ process control of catalyst coatings.

  3. Advanced Natural Gas Reciprocating Engine(s)

    SciTech Connect

    Kwok, Doris; Boucher, Cheryl

    2009-09-30

    Energy independence and fuel savings are hallmarks of the nation’s energy strategy. The advancement of natural gas reciprocating engine power generation technology is critical to the nation’s future. A new engine platform that meets the efficiency, emissions, fuel flexibility, cost and reliability/maintainability targets will enable American manufacturers to have highly competitive products that provide substantial environmental and economic benefits in the US and in international markets. Along with Cummins and Waukesha, Caterpillar participated in a multiyear cooperative agreement with the Department of Energy to create a 50% efficiency natural gas powered reciprocating engine system with a 95% reduction in NOx emissions by the year 2013. This platform developed under this agreement will be a significant contributor to the US energy strategy and will enable gas engine technology to remain a highly competitive choice, meeting customer cost of electricity targets, and regulatory environmental standard. Engine development under the Advanced Reciprocating Engine System (ARES) program was divided into phases, with the ultimate goal being approached in a series of incremental steps. This incremental approach would promote the commercialization of ARES technologies as soon as they emerged from development and would provide a technical and commercial foundation of later-developing technologies. Demonstrations of the Phase I and Phase II technology were completed in 2004 and 2008, respectively. Program tasks in Phase III included component and system development and testing from 2009-2012. Two advanced ignition technology evaluations were investigated under the ARES program: laser ignition and distributed ignition (DIGN). In collaboration with Colorado State University (CSU), a laser ignition system was developed to provide ignition at lean burn and high boost conditions. Much work has been performed in Caterpillar’s DIGN program under the ARES program. This work

  4. Lithium ion batteries and their manufacturing challenges

    SciTech Connect

    Daniel, Claus

    2015-03-01

    There is no single lithium ion battery. With the variety of materials and electrochemical couples available, it is possible to design battery cells specific to their applications in terms of voltage, state of charge use, lifetime needs, and safety. Selection of specific electrochemical couples also facilitates the design of power and energy ratios and available energy. Integration in a large format cell requires optimized roll-to-roll electrode manufacturing and use of active materials. Electrodes are coated on a metal current collector foil in a composite structure of active material, binders, and conductive additives, requiring careful control of colloidal chemistry, adhesion, and solidification. But the added inactive materials and the cell packaging reduce energy density. Furthermore, degree of porosity and compaction in the electrode can affect battery performance.

  5. Lithium ion batteries and their manufacturing challenges

    DOE PAGES [OSTI]

    Daniel, Claus

    2015-03-01

    There is no single lithium ion battery. With the variety of materials and electrochemical couples available, it is possible to design battery cells specific to their applications in terms of voltage, state of charge use, lifetime needs, and safety. Selection of specific electrochemical couples also facilitates the design of power and energy ratios and available energy. Integration in a large format cell requires optimized roll-to-roll electrode manufacturing and use of active materials. Electrodes are coated on a metal current collector foil in a composite structure of active material, binders, and conductive additives, requiring careful control of colloidal chemistry, adhesion, andmore » solidification. But the added inactive materials and the cell packaging reduce energy density. Furthermore, degree of porosity and compaction in the electrode can affect battery performance.« less

  6. DOE Traineeship In Power Engineering (Leveraging Wide Bandgap Power Electronics)

    Energy.gov [DOE]

    The Advanced Manufacturing Office announced up to $10 million is available to establish 5-year graduate-level university-led DOE Traineeship(s) in Power Engineering (leveraging emerging Wide...

  7. Method for manufacturing glass frit

    DOEpatents

    Budrick, Ronald G.; King, Frank T.; Nolen, Jr., Robert L.; Solomon, David E.

    1977-01-01

    A method of manufacturing a glass frit for use in the manufacture of uniform glass microspheres to serve as containers for laser fusion fuel to be exposed to laser energy which includes the formation of a glass gel which is then dried, pulverized, and very accurately sized to particles in a range of, for example, 125 to 149 micrometers. The particles contain an occluded material such as urea which expands when heated. The sized particles are washed, dried, and subjected to heat to control the moisture content prior to being introduced into a system to form microspheres.

  8. Automotive Stirling Engine Development Program. RESD Summary report

    SciTech Connect

    Not Available

    1984-05-01

    This is the final report compiling a summary of the information presented and discussed at the May 1983 Automotive Stirling Engine (AES) Reference Engine System Design (RESD) review held at the NASA Lewis Research Center. The design of the engine and its auxiliaries and controls is described. Manufacturing costs in production quantity are also presented. Engine system performance predictions are discussed and vehicle integration is developed, along with projected fuel economy levels.

  9. White House Announces Eighth Manufacturing Innovation Institute |

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Department of Energy White House Announces Eighth Manufacturing Innovation Institute White House Announces Eighth Manufacturing Innovation Institute April 6, 2016 - 4:49pm Addthis On Thursday, April 1, the White House announced a new institute which will focus on revolutionary fibers and textile manufacturing. This new institute is the eighth manufacturing hub to be awarded as part of the National Network for Manufacturing Innovation (NNMI). Collectively, the federal government's commitment

  10. Manufacturing Energy and Carbon Footprints Scope

    Energy.gov [DOE] (indexed site)

    Manufacturing Energy and Carbon Footprint Scope The footprint analysis looks at a large subset of U.S. manufacturing, with the objective of capturing the bulk share of energy consumption and carbon emissions. Table 1 lists the fifteen manufacturing sectors selected for analysis; a sixteenth footprint has also been prepared for the entire manufacturing sector. Manufacturing sectors are listed by their respective NAICS (North American Industry Classification System) codes. NAICS descriptions of

  11. Manufacturing Energy and Carbon Footprints (2006 MECS)

    Energy.gov [DOE]

    Energy and Carbon Footprints provide a mapping of energy from supply to end use in manufacturing. They show us where energy is used and lost—and where greenhouse gases (GHGs) are emitted. Footprints are available below for 15 manufacturing sectors (representing 94% of all manufacturing energy use) and for U.S. manufacturing as a whole. Analysis of these footprints is also available in the U.S. Manufacturing Energy Use and Greenhouse Gas Emissions Analysis report.

  12. Explore Careers in Manufacturing | Department of Energy

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Manufacturing Explore Careers in Manufacturing The Advanced Manufacturing Office (AMO) invests in public-private research and development partnerships and encourages a culture of continuous improvement in corporate energy management to bring about a transformation in U.S. manufacturing. The Advanced Manufacturing Office (AMO) invests in public-private research and development partnerships and encourages a culture of continuous improvement in corporate energy management to bring about a

  13. Manufacturing Success Stories | Department of Energy

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Manufacturing Success Stories Manufacturing Success Stories RSS The Office of Energy Efficiency and Renewable Energy's (EERE) successes in developing technologies and processes for more efficient energy management systems create big opportunities for energy savings and new jobs in manufacturing. Explore EERE's manufacturing success stories below. August 17, 2016 Distillation columns like this one are used in a variety of chemical manufacturing applications. Photo courtesy of Organic Chemistry

  14. Design and manufacturing of complex optics: the dragonfly eye optic.

    SciTech Connect

    Claudet, Andre A.; Sweatt, William C.; Hodges, V. Carter; Adams, David Price; Gill, David Dennis; Vasile, Michael J.

    2006-01-01

    The ''Design and Manufacturing of Complex Optics'' LDRD sought to develop new advanced methods for the design and manufacturing of very complex optical systems. The project team developed methods for including manufacturability into optical designs and also researched extensions of manufacturing techniques to meet the challenging needs of aspherical, 3D, multi-level lenslet arrays on non-planar surfaces. In order to confirm the applicability of the developed techniques, the team chose the Dragonfly Eye optic as a testbed. This optic has arrays of aspherical micro-lenslets on both the exterior and the interior of a 4mm diameter hemispherical shell. Manufacturing of the dragonfly eye required new methods of plunge milling aspherical optics and the development of a method to create the milling tools using focused ion beam milling. The team showed the ability to create aspherical concave milling tools which will have great significance to the optical industry. A prototype dragonfly eye exterior was created during the research, and the methods of including manufacturability in the optical design process were shown to be successful as well.

  15. Central heat engine cost and availability study

    SciTech Connect

    Not Available

    1987-11-01

    This report documents the performance and cost of commercially available heat engines for use at solar power plants. The scope of inquiry spans power ratings of 500 kW to 50 MW and peak cycle temperatures of 750 /sup 0/F to 1200 /sup 0/F. Data were collected by surveying manufacturers of steam turbines, organic Rankine (ORC) systems, and ancillary equipment (steam condensers, cooling towers, pumps, etc.). Methods were developed for estimating design-point and off-design efficiencies of steam Rankine cycle (SRC) and ORC systems. In the size-temperature range of interest, SRC systems were found to be the only heat engines requiring no additional development effort, and SRC capital and operating cost estimates were developed. Commercially available steam turbines limit peak cycle temperatures to about 1000 /sup 0/F in this size range, which in turn limits efficiency. Other systems were identified that could be prototyped using existing turbomachines. These systems include ORC, advanced SRC, and various configurations employing Brayton cycle equipment, i.e., gas turbines. The latter are limited to peak cycle temperatures of 1500 /sup 0/F in solar applications, based on existing heat-exchanger technology. The advanced systems were found to offer performance advantages over SRC in specific cases. 7 refs., 30 figs., 20 tabs.

  16. Becoming a Certified Practitioner or a Certified Energy Engineer

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    John Smegal Workforce Development Lead Advanced Manufacturing Office U.S. Department of Energy Becoming a Certified Practitioner or a Certified Energy Engineer 2 | Advanced Manufacturing Office eere.energy.gov * Define the scope of our discussion - Certified Practitioner (CP) and Certified Energy Manager (CEM) credentialing - Will not discuss the Superior Energy Performance program in depth - Provide Association of Energy Engineers an opportunity to discuss the CEM credential Purpose 3 |

  17. President Obama Announces Two New Public-Private Manufacturing Innovation Institutes and Launches the First of Four New Manufacturing Innovation Institute Competitions

    Energy.gov [DOE]

    The President announces new steps in partnership with the private sector to boost advanced manufacturing, strengthen our capabilities for defense, and attract the types of high-quality jobs that a growing middle class requires.

  18. Manufacturing Cost Levelization Model – A User’s Guide

    SciTech Connect

    Morrow, William R.; Shehabi, Arman; Smith, Sarah Josephine

    2015-08-01

    The Manufacturing Cost Levelization Model is a cost-performance techno-economic model that estimates total large-scale manufacturing costs for necessary to produce a given product. It is designed to provide production cost estimates for technology researchers to help guide technology research and development towards an eventual cost-effective product. The model presented in this user’s guide is generic and can be tailored to the manufacturing of any product, including the generation of electricity (as a product). This flexibility, however, requires the user to develop the processes and process efficiencies that represents a full-scale manufacturing facility. The generic model is comprised of several modules that estimate variable costs (material, labor, and operating), fixed costs (capital & maintenance), financing structures (debt and equity financing), and tax implications (taxable income after equipment and building depreciation, debt interest payments, and expenses) of a notional manufacturing plant. A cash-flow method is used to estimate a selling price necessary for the manufacturing plant to recover its total cost of production. A levelized unit sales price ($ per unit of product) is determined by dividing the net-present value of the manufacturing plant’s expenses ($) by the net present value of its product output. A user defined production schedule drives the cash-flow method that determines the levelized unit price. In addition, an analyst can increase the levelized unit price to include a gross profit margin to estimate a product sales price. This model allows an analyst to understand the effect that any input variables could have on the cost of manufacturing a product. In addition, the tool is able to perform sensitivity analysis, which can be used to identify the key variables and assumptions that have the greatest influence on the levelized costs. This component is intended to help technology researchers focus their research attention on tasks

  19. Public-Private Partnerships for Clean Energy Manufacturing

    SciTech Connect

    2015-09-01

    As part of its mission, CEMI builds partnerships around strategic priorities to increase U.S. clean energy manufacturing competitiveness. This requires an “all-hands-on-deck” approach that involves the nation’s private and public sectors, universities, think tanks, and labor leaders working together.

  20. Energy-Efficient Manufactured Homes | Department of Energy

    Energy.gov [DOE] (indexed site)

    home walls often have only 2-inch by 2-inch studs (5.08 cm 5.08 cm) (new manufactured houses are required to have at least 2-inch by 4-inch 5.08 cm 10.16 cm studs),...

  1. Process for manufacturing multilayer capacitors

    DOEpatents

    Lauf, Robert J.; Holcombe, Cressie E.; Dykes, Norman L.

    1996-01-01

    The invention is directed to a method of manufacture of multilayer electrical components, especially capacitors, and components made by such a method. High capacitance dielectric materials and low cost metallizations layered with such dielectrics may be fabricated as multilayer electrical components by sintering the metallizations and the dielectrics during the fabrication process by application of microwave radiation.

  2. Process for manufacturing multilayer capacitors

    DOEpatents

    Lauf, R.J.; Holcombe, C.E.; Dykes, N.L.

    1996-01-02

    The invention is directed to a method of manufacture of multilayer electrical components, especially capacitors, and components made by such a method. High capacitance dielectric materials and low cost metallizations layered with such dielectrics may be fabricated as multilayer electrical components by sintering the metallizations and the dielectrics during the fabrication process by application of microwave radiation. 4 figs.

  3. Heat treating of manufactured components

    SciTech Connect

    Ripley, Edward B.

    2012-05-22

    An apparatus for heat treating manufactured components using microwave energy and microwave susceptor material is disclosed. The system typically includes an insulating vessel placed within a microwave applicator chamber. A moderating material is positioned inside the insulating vessel so that a substantial portion of the exterior surface of each component for heat treating is in contact with the moderating material.

  4. Experiences on IGSCC crack manufacturing

    SciTech Connect

    Veron, P.

    1997-02-01

    The author presents his experience in manufacturing IGSCC realistic defects, mainly in INCONEL 600 MA Steam Generator Tubes. From that experience he extracts some knowledge about this cracking (influence of chemistry in the environment, stress state, crack growth rate, and occurrence in laboratory condition of break before leak).

  5. Interface and Electrode Engineering for Next-Generation Organic Photovoltaic Cells: Final Technical Report, March 2005 - August 2008

    SciTech Connect

    Mason, T. O.; Chang, R. P. H.; Freeman, A. J.; Marks, T. J.; Poeppelmeier, K. R.

    2008-11-01

    The objective of this project was to enable next-generation, efficient, easily manufacturable, and durable organic photovoltaics through interface and electrode engineering.

  6. Alvar variable compression engine development. Final report

    SciTech Connect

    1998-03-30

    The Alvar engine is an invention by Mr. Alvar Gustafsson of Skarblacka, Sweden. It is a four stroke spark ignition internal combustion engine, having variable compression ratio and variable displacements. The compression ratio can be varied by means of small secondary cylinders and pistons which are communicating with the main combustion chambers. The secondary pistons can be phase shifted with respect to the main pistons. The engine is suitable for multi-fuel operation. Invention rights are held by Alvar Engine AB of Sweden, a company created to handle the development of the Alvar Engine. A project was conceived wherein an optimised experimental engine would be built and tested to verify the advantages claimed for the Alvar engine and also to reveal possible drawbacks, if any. Alvar Engine AB appointed Gunnar Lundholm, professor of Combustion Engines at Lund University, Lund, Sweden as principal investigator. The project could be seen as having three parts: (1) Optimisation of the engine combustion chamber geometry; (2) Design and manufacturing of the necessary engine parts; and (3) Testing of the engine in an engine laboratory NUTEK, The Swedish Board for Industrial and Technical Development granted Gunnar Lundholm, SEK 50000 (about $6700) to travel to the US to evaluate potential research and development facilities which seemed able to perform the different project tasks.

  7. Shockwave Engine: Wave Disk Engine

    SciTech Connect

    2010-01-14

    Broad Funding Opportunity Announcement Project: MSU is developing a new engine for use in hybrid automobiles that could significantly reduce fuel waste and improve engine efficiency. In a traditional internal combustion engine, air and fuel are ignited, creating high-temperature and high-pressure gases which expand rapidly. This expansion of gases forces the engine’s pistons to pump and powers the car. MSU’s engine has no pistons. It uses the combustion of air and fuel to build up pressure within the engine, generating a shockwave that blasts hot gas exhaust into the blades of the engine’s rotors causing them to turn, which generates electricity. MSU’s redesigned engine would be the size of a cooking pot and contain fewer moving parts—reducing the weight of the engine by 30%. It would also enable a vehicle that could use 60% of its fuel for propulsion.

  8. U.S. Department of Energy integrated manufacturing & processing predoctoral fellowships. Final Report

    SciTech Connect

    Petrochenkov, Margaret

    2003-03-31

    The objective of this program was threefold: to create a pool of PhDs trained in the integrated approach to manufacturing and processing, to promote academic interest in the field, and to attract talented professionals to this challenging area of engineering. It was anticipated that the program would result in the creation of new manufacturing methods that would contribute to improved energy efficiency, to better utilization of scarce resources, and to less degradation of the environment. Emphasis in the competition was on integrated systems of manufacturing and the integration of product design with manufacturing processes. Research addressed such related areas as aspects of unit operations, tooling and equipment, intelligent sensors, and manufacturing systems as they related to product design. This is the final report to close out the contract.

  9. Nanocatalysts for Diesel Engine Emissions Remediation

    SciTech Connect

    2009-05-01

    This factsheet describes a research project whose goal is to develop durable zeolite nanocatalysts with broad temperature operating windows to treat diesel engine emissions, thus enabling diesel engine equipment and vehicles to meet regulatory requirements.

  10. TODAY: AMO Director Talks Advanced Manufacturing LIVE on Facebook, 9/21 |

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Department of Energy TODAY: AMO Director Talks Advanced Manufacturing LIVE on Facebook, 9/21 TODAY: AMO Director Talks Advanced Manufacturing LIVE on Facebook, 9/21 September 21, 2016 - 2:00pm Addthis AMO Director Talks Advanced Manufacturing LIVE on Facebook TODAY at 1:00 PM EST The 39th WEEC kicks off today at the Walter E. Washington Convention Center in Washington, DC. For a behind the scenes look at the World Energy Engineering Congress (WEEC), watch AMO Director, Mark Johnson, on the

  11. Comparison of indirect cost multipliers for vehicle manufacturing

    SciTech Connect

    Vyas, A.; Santini, D.; Cuenca, R.

    2000-05-16

    In the process of manufacturing and selling vehicles, a manufacturer incurs certain costs. Among these costs are those incurred directly as a part of manufacturing operations and those incurred indirectly in the processes of manufacturing and selling. The indirect costs may be production-related, such as R and D and engineering; business-related, such as corporate staff salaries and pensions; or retail-sales-related, such as dealer support and marketing. These indirect costs are recovered by allocating them to each vehicle. Under a stable, high-volume production process, the allocation of these indirect costs can be approximated as multipliers (or factors) applied to the direct cost of manufacturing. A manufacturer usually allocates indirect costs to finished vehicles according to a corporation-specific pricing strategy. Because the volumes of sales and production vary widely by model within a corporation, the internal corporate percent allocation of various accounting categories (such as profit or corporate overheat) can vary widely among individual models. Approaches also vary across corporations. For these purposes, an average value is constructed, by means of a generic representative method, for vehicle models produced at high volume. To accomplish this, staff at Argonne National Laboratory's (ANL's) Center for Transportation Research analyzed the conventional vehicle cost structure and developed indirect cost multipliers for passenger vehicles. This memorandum summarizes the results of an effort to compare and put on a common basis the cost multipliers used in ANL's electric and hybrid electric vehicle cost estimation procedures with those resulting from two other methodologies. One of the two compared methodologies is derived from a 1996 presentation by Dr. Chris Borroni-Bird of Chrysler Corporation, the other is by Energy and Environmental Analysis, Inc. (EEA), as described in a 1995 report by the Office of Technology Assessment (OTA), Congress of the United

  12. General Engineers

    Energy Information Administration (EIA) (indexed site)

    General Engineers The U.S. Energy Information Administration (EIA) within the Department of Energy has forged a world-class information program that stresses quality, teamwork, and employee growth. In support of our program, we offer a variety of profes- sional positions, including the General Engineer, whose work is associated with analytical studies and evaluation projects pertaining to the operations of the energy industry. Responsibilities: General Engineers perform or participate in one or

  13. Engineering Institute

    U.S. Department of Energy (DOE) - all webpages (Extended Search)

    Institute Engineering Institute Multidisciplinary engineering research that integrates advanced modeling and simulations, novel sensing systems and new developments in information technology. May 14, 2013 Los Alamos Research Park Los Alamos Research Park, the home of Engineering Institute Contact Institute Director Charles Farrar (505) 665-0860 Email UCSD EI Director Michael Todd (858) 534-5951 Executive Administrator Ellie Vigil (505) 667-2818 Email Administrative Assistant Rebecca Duran (505)

  14. Engineering Services

    U.S. Department of Energy (DOE) - all webpages (Extended Search)

    Services Engineering Services The Network OSCARS Fasterdata IPv6 Network Network Performance Tools The ESnet Engineering Team Contact Us Technical Assistance: 1 800-33-ESnet (Inside US) 1 800-333-7638 (Inside US) 1 510-486-7600 (Globally) 1 510-486-7607 (Globally) Report Network Problems: trouble@es.net Provide Web Site Feedback: info@es.net Engineering Services ESnet provides interoperable, effective, reliable, and high performance network communications infrastructure, and certain

  15. Information engineering

    SciTech Connect

    Hunt, D.N.

    1997-02-01

    The Information Engineering thrust area develops information technology to support the programmatic needs of Lawrence Livermore National Laboratory`s Engineering Directorate. Progress in five programmatic areas are described in separate reports contained herein. These are entitled Three-dimensional Object Creation, Manipulation, and Transport, Zephyr:A Secure Internet-Based Process to Streamline Engineering Procurements, Subcarrier Multiplexing: Optical Network Demonstrations, Parallel Optical Interconnect Technology Demonstration, and Intelligent Automation Architecture.

  16. IMHEX fuel cell repeat component manufacturing continuous improvement accomplishments

    SciTech Connect

    Jakaitis, L.A.; Petraglia, V.J.; Bryson, E.S.

    1996-12-31

    M-C Power is taking a power generation technology that has been proven in the laboratory and is making it a commercially competitive product. There are many areas in which this technology required scale up and refinement to reach the market entry goals for the IMHEX{reg_sign} molten carbonate fuel cell power plant. One of the primary areas that needed to be addressed was the manufacturing of the fuel cell stack. Up to this point, the fuel cell stack and associated components were virtually hand made for each system to be tested. M-C Power has now continuously manufactured the repeat components for three 250 kW stacks. M-C Power`s manufacturing strategy integrated both evolutionary and revolutionary improvements into its comprehensive commercialization effort. M-C Power`s objectives were to analyze and continuously improve stack component manufacturing and assembly techniques consistent with established specifications and commercial scale production requirements. Evolutionary improvements are those which naturally occur as the production rates are increased and experience is gained. Examples of evolutionary (learning curve) improvements included reducing scrap rates and decreasing raw material costs by buying in large quantities. Revolutionary improvements result in significant design and process changes to meet cost and performance requirements of the market entry system. Revolutionary changes often involve identifying new methods and developing designs to accommodate the new process. Based upon our accomplishments, M-C Power was able to reduce the cost of continuously manufactured fuel cell repeat components from the first to third 250 kW stack by 63%. This paper documents the continuous improvement accomplishments realized by M-C Power during IMHEX{reg_sign} fuel cell repeat component manufacturing.

  17. Electrical Engineer

    Energy.gov [DOE]

    (See Frequently Asked Questions for more information). Where would I be working? Western Area Power Administration Rocky Mountain Region Power System Operation Operations Engineering, (J4200) 5555...

  18. Environmental Engineer

    Energy.gov [DOE]

    A successful candidate in this position will be an environmental technical expert and advisor to integrate science and engineering principles to improve the natural environment and direct and...

  19. structured engineering

    U.S. Department of Energy (DOE) - all webpages (Extended Search)

    engineering - Sandia Energy Energy Search Icon Sandia Home Locations Contact Us Employee Locator Energy & Climate Secure & Sustainable Energy Future Stationary Power Energy ...

  20. Systems Engineering

    U.S. Department of Energy (DOE) - all webpages (Extended Search)

    Solar Energy Wind Energy Water Power Supercritical CO2 Geothermal Natural Gas Safety, Security & Resilience of the Energy Infrastructure Energy Storage Nuclear Power & Engineering ...

  1. Rotary engine

    SciTech Connect

    Leas, A. M.; Leas, L. E.

    1985-02-12

    Disclosed are an engine system suitable for use with methyl alcohol and hydrogen and a rotary engine particularly suited for use in the engine system. The rotary engine comprises a stator housing having a plurality of radially directed chamber dividers, a principal rotor, a plurality of subordinate rotors each having an involute gear in its periphery mounted on the principal rotor, and means for rotating the subordinate rotors so that their involute gears accept the radially directed dividers as the subordinate rotors move past them.

  2. Electronics Engineer

    Energy.gov [DOE]

    This position is located in the Communications Test and Energization (TETD) organization of Commissioning and Testing (TET), Engineering and Technical Services (TE), Transmission Services (T),...

  3. Mechanical Engineer

    Energy.gov [DOE]

    This position is located in the Engineering Services (PEJD) organization of Program Implementation Energy Efficiency, Power Services, Bonneville Power Administration (BPA). As part of the Power...

  4. Agenda: Fiber Reinforced Polymer Composite Manufacturing Workshop

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Advanced Manufacturing Office (AMO) manufacturing.energy.gov 3 Morning Agenda 9:00am - 9:05am Welcome Mark Johnson Director, Advanced Manufacturing Office 9:05am - 9:20am Clean Energy Manufacturing Initiative David Danielson Assistant Secretary Energy Efficiency and Renewable Energy 9:20am - 9:50am Advanced Manufacturing Office Overview and Review of RFI Results Mark Johnson Director, Advanced Manufacturing Office 9:50am - 10:30am Panel Discussion: DOE Perspectives Mark Shuart, Advanced

  5. Initial testing of a variable-stroke Stirling engine

    SciTech Connect

    Thieme, L.G.

    1985-02-01

    In support of the US Department of Energy's Stirling Engine Highway Vehicle Systems Program, NASA Lewis Research Center is evaluating variable-stroke control for Stirling engines. The engine being tested is the Advenco Stirling engine; this engine was manufactured by Philips Research Laboratories of the Netherlands and uses a variable-angle swash-plate drive to achieve variable stroke operation. This report describes the engine, presents initial steady-state test data taken at Lewis, and describes a major drive system failure and subsequent modifications. Computer simulation results are presented to show potential part-load efficiency gains with variable-stroke control.

  6. Diesel engines vs. spark ignition gasoline engines -- Which is ``greener``?

    SciTech Connect

    Fairbanks, J.W.

    1997-12-31

    Criteria emissions, i.e., NO{sub x}, PM, CO, CO{sub 2}, and H{sub 2}, from recently manufactured automobiles, compared on the basis of what actually comes out of the engines, the diesel engine is greener than spark ignition gasoline engines and this advantage for the diesel engine increases with time. SI gasoline engines tend to get out of tune more than diesel engines and 3-way catalytic converters and oxygen sensors degrade with use. Highway measurements of NO{sub 2}, H{sub 2}, and CO revealed that for each model year, 10% of the vehicles produce 50% of the emissions and older model years emit more than recent model year vehicles. Since 1974, cars with SI gasoline engines have uncontrolled emission until the 3-way catalytic converter reaches operating temperature, which occurs after roughly 7 miles of driving. Honda reports a system to be introduced in 1998 that will alleviate this cold start problem by storing the emissions then sending them through the catalytic converter after it reaches operating temperature. Acceleration enrichment, wherein considerable excess fuel is introduced to keep temperatures down of SI gasoline engine in-cylinder components and catalytic converters so these parts meet warranty, results in 2,500 times more CO and 40 times more H{sub 2} being emitted. One cannot kill oneself, accidentally or otherwise, with CO from a diesel engine vehicle in a confined space. There are 2,850 deaths per year attributable to CO from SI gasoline engine cars. Diesel fuel has advantages compared with gasoline. Refinery emissions are lower as catalytic cracking isn`t necessary. The low volatility of diesel fuel results in a much lower probability of fires. Emissions could be improved by further reducing sulfur and aromatics and/or fuel additives. Reformulated fuel has become the term covering reducing the fuels contribution to emissions. Further PM reduction should be anticipated with reformulated diesel and gasoline fuels.

  7. Northwest Energy Efficient Manufactured Housing Program Specification Development

    SciTech Connect

    Hewes, Tom; Peeks, Brady

    2013-02-01

    The DOE research team Building America Partnership for Improved Residential Construction (BA-PIRC), Bonneville Power Administration (BPA), and Northwest Energy Works (NEW), the current Northwest Energy Efficient Manufactured Home Program (NEEM) program administrator, collaborated to research a new specification that would reduce the energy requirements of a NEEM home.This research identified and developed combinations of cost-effective high performance building assemblies and mechanical systems that can readily can be deployed in the manufacturing setting that reduce energy used for space conditioning, water heating and lighting by 50% over the present NEEM specifications.

  8. Reactor Engineering Design | netl.doe.gov

    U.S. Department of Energy (DOE) - all webpages (Extended Search)

    Reactor Engineering Design The Reactor Engineering Design Key Technology will focus on control of chemical reactions with unprecedented precision in increasingly modular and efficient reactors, allowing for smaller reactors and streamlined processes that will convert coal into valuable products at low cost and with high energy efficiency. Here, the specific emphasis will be reactors enabling conversion of coal-biomass to liquid fuels, Novel reactors, advanced manufacturing, etc. will be

  9. Manufacturing

    Office of Environmental Management (EM)

    ... to show up in the market place (aluminum, carbon fiber). ... the US. The intent of the studies 103 was to help shape ... 106 107 108 Figure 2: Process flow diagrams to ...

  10. Industrial rotary engine development - application opportunities. Final report, January-November 1985

    SciTech Connect

    Guidry, J.D.

    1985-11-01

    The study examines the economic feasibility of manufacturing natural-gas rotary engines for cogeneration and industrial variable-speed applications. Cogeneration and variable speed potential is evaluated by market segment and projected to the year 2000. Market penetrations possible for natural gas rotary are estimated for each market segment. The benefits of manufacturing a natural-gas rotary engine for cogeneration and variable-speed applications to the energy consumer, to total energy conservation, the gas industry, and the natural-gas rotary engine manufacturer are also discussed. The study concludes that total benefits warrant a program to develop a natural-gas rotary engine for eventual sale.

  11. Manufacturing of Plutonium Tensile Specimens

    SciTech Connect

    Knapp, Cameron M

    2012-08-01

    Details workflow conducted to manufacture high density alpha Plutonium tensile specimens to support Los Alamos National Laboratory's science campaigns. Introduces topics including the metallurgical challenge of Plutonium and the use of high performance super-computing to drive design. Addresses the utilization of Abaqus finite element analysis, programmable computer numerical controlled (CNC) machining, as well as glove box ergonomics and safety in order to design a process that will yield high quality Plutonium tensile specimens.

  12. Energy Efficient Thermoplastic Composite Manufacturing

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Boeing Research & Technology (Marc Matsen) U.S. DOE Advanced Manufacturing Office Program Review Meeting Washington, D.C. June 14-15, 2016 This presentation does not contain any proprietary, confidential, or otherwise restricted information. Project Objective  The objective of the project is to establish an effective and affordable method to lay- up and consolidate/join large thermoplastic composite aerospace structure with cycle times measured in minutes rather than hours.  Composite

  13. High Pressure Hydrogen Tank Manufacturing

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Workshop High Pressure Hydrogen Tank Manufacturing Mark Leavitt Quantum Fuel Systems Technologies Worldwide, Inc. August 11, 2011 This presentation does not contain any proprietary, confidential, or otherwise restricted information History of Innovations... Announced breakthrough in all-composite lightweight, high capacity, low-cost fuel storage technologies. * Developed a series of robust, OEM compatible electronic control products. Developed H 2 storage system for SunLine Tran-sit Hythane®

  14. Design specifications for manufacturability of MCM-C multichip modules

    SciTech Connect

    Blazek, R.; Desch, J.; Kautz, D.; Morgenstern, H.

    1996-10-01

    A comprehensive guide for ceramic-based multichip modules (MCMS) has been developed by AlliedSignal Federal Manufacturing & Technologies (FM&T) to provide manufacturability information for its customers about how MCM designs can be affected by existing process and equipment capabilities. This guide extends beyond a listing of design rules by providing information about design layout, low- temperature cofired ceramic (LTCC) substrate fabrication, MCM assembly and electrical testing Electrical mechanical packaging, environmental, and producibility issues are reviewed. Examples of three MCM designs are shown in the form of packaging cross-sectional views, LTCC substrate layer allocations, and overall MCM photographs. The guide has proven to be an effective tool for enhancing communications between MCM designers and manufacturers and producing a microcircuit that meets design requirements within the limitations of process capabilities.

  15. Artisan Manufacturing: Order (2010-CW-0712)

    Energy.gov [DOE]

    DOE ordered Artisan Manufacturing Company, Inc., to pay a $5,000 civil penalty after finding Artisan Manufacturing had failed to certify that certain models of faucets comply with the applicable water conservation standard.

  16. Refrigerator Manufacturers: Order (2013-CE-5341)

    Energy.gov [DOE]

    DOE ordered Refrigerator Manufacturers, LLC to pay a $8,000 civil penalty after finding Refrigerator Manufacturers had failed to certify that certain models of walk-in cooler and freezer components comply with the applicable energy conservation standards.

  17. Clean Energy Manufacturing Incentive Grant Program

    Energy.gov [DOE]

    "Clean energy manufacturer" is defined as a biofuel producer, a manufacturer of renewable energy or nuclear equipment/products, or "products used for energy conservation, storage, or grid efficie...

  18. Advanced Methods for Manufacturing Newsletter- Issue 2

    Office of Energy Efficiency and Renewable Energy (EERE)

    The Advanced Methods for Manufacturing (AMM) newsletter includes information about selected projects pertaining to additive manufacturing, concrete technologies, and welding innovations currently funded by the Department of Energy’s Office of Nuclear Energy.

  19. Summit Manufacturing: Case Closure (2010-SE-0303)

    Energy.gov [DOE]

    DOE closed this case against Summit Manufacturing, Inc. without civil penalty after Summit Manufacturing provided information that the non-compliant products were not sold in the United States.

  20. NREL: Photovoltaics Research - Awards for Photovoltaic Manufacturing...

    U.S. Department of Energy (DOE) - all webpages (Extended Search)

    Awards for Photovoltaic Manufacturing R&D The following research efforts within the PV Manufacturing R&D Project were honored with prestigious industry awards. 1995-AstroPower (now ...

  1. Thin-Film Solar Cell Manufacturing

    Energy.gov [DOE]

    In this b-roll, thin-film photovoltaic cells are manufactured and deployed in Arizona. Steps shown in the manufacturing process include the screen printing of conductive material onto laminated...

  2. National Manufacturing Day | Department of Energy

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    anticipated 400,000 people who want to experience U.S. manufacturing up close and in person. On October 2, the U.S. Department of Commerce's fourth annual Manufacturing Day will...

  3. Goodman Manufacturing: Order (2012-CE-1509)

    Energy.gov [DOE]

    DOE ordered Goodman Manufacturing Company L.P. to pay an $8,000 civil penalty after finding Goodman Manufacturing had failed to certify that certain room air conditioners comply with the applicable energy conservation standard.

  4. Goodman Manufacturing: Proposed Penalty (2011-SE-4301)

    Energy.gov [DOE]

    DOE alleged in a Notice of Proposed Civil Penalty that Goodman Manufacturing manufactured and distributed noncompliant basic model CPC180* commercial package air conditioners in the U.S.

  5. FACT SHEET: 48C MANUFACTURING TAX CREDITS

    Energy.gov [DOE]

    The Advanced Energy Manufacturing Tax Credit Program is helping build a robust U.S. manufacturing capacity to supply clean energy projects with American-made parts and equipment. On February 7,...

  6. Advanced Methods for Manufacturing Newslettter- Issue 3

    Energy.gov [DOE]

    The Advanced Methods for Manufacturing newsletter includes information about selected projects pertaining to additive manufacturing, concrete technologies, welding innovations and imaging techniques for design reconstruction currently funded by the Department of Energy's Office of Nuclear Energy.

  7. USA Manufacturing: Order (2013-CE-5336)

    Energy.gov [DOE]

    DOE ordered USA Manufacturing to pay a $8,000 civil penalty after finding USA Manufacturing had failed to certify that certain models of walk-in cooler and freezer components comply with the applicable energy conservation standards.

  8. Energy & Manufacturing Workforce Training Topics List - Version...

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    & Manufacturing Workforce Training Topics List - Version 1.7 (02.11.14) Energy & Manufacturing Workforce Training Topics List - Version 1.7 (02.11.14) View this searchable list of ...

  9. AMO Hosted Workshop on Composite Manufacturing

    Energy.gov [DOE]

    The U.S. Department of Energy's Advanced Manufacturing Office will host a workshop on Fiber Reinforced Polymer Composite Manufacturing on January 13, 2014 at the Hilton Crystal City in Arlington, VA.

  10. Fuel Cell Technologies Manufacturing Related Links

    Energy.gov [DOE]

    The following resources provide details about U.S. Department of Energy-funded fuel cell technologies manufacturing activities, other EERE and federal manufacturing activities and initiatives, research plans and roadmaps, workshops, and additional related links.

  11. Manufacturing in the Clean Energy Race

    ScienceCinema

    Danielson, David; Jackson, Keoki; Johnson, Mark; Wince-Smith, Deborah L.

    2016-06-24

    There is an energy and manufacturing revolution in the world today. Here is what the United States Department of Energy has done through collaborations in pursuit of American prosperity in the energy and manufacturing industry of tomorrow.

  12. Imperial Manufacturing: Order (2013-CE-5322)

    Energy.gov [DOE]

    DOE ordered Imperial Manufacturing, Inc. to pay a $8,000 civil penalty after finding Imperial Manufacturing had failed to certify that certain models of walk-in cooler and freezer components comply with the applicable energy conservation standards.

  13. Manufactured Home Energy Audit (MHEA)Users Manual (Version 7)

    SciTech Connect

    Gettings, M.B.

    2003-01-27

    The Manufactured Home Energy Audit (MHEA) is a software tool that predicts manufactured home energy consumption and recommends weatherization retrofit measures. It was developed to assist local weatherization agencies working with the U.S. Department of Energy (DOE) Weatherization Assistance Program. Whether new or experienced, employed within or outside the Weatherization Assistance Program, all users can benefit from incorporating MHEA into their manufactured home weatherization programs. DOE anticipates that the state weatherization assistance programs that incorporate MHEA into their programs will find significant growth in the energy and cost savings achieved from manufactured home weatherization. The easy-to-use MHEA uses a relatively standard Windows graphical interface for entering simple inputs and provides understandable, usable results. The user enters information about the manufactured home construction, heating equipment, cooling equipment appliances, and weather site. MHEA then calculates annual energy consumption using a simplified building energy analysis technique. Weatherization retrofit measures are evaluated based on the predicted energy savings after installation of the measure, the measure cost, and the measure life. Finally, MHEA recommends retrofit measures that are energy and cost effective for the particular home being evaluated. MHEA evaluates each manufactured home individually and takes into account local weather conditions, retrofit measure costs, and fuel costs. The recommended package of weatherization retrofit measures is tailored to the home being evaluated. More traditional techniques apply the same package of retrofit measures to all manufactured homes, often the same set of measures that are installed into site-built homes. Effective manufactured home weatherization can be achieved only by installing measures developed specifically for manufactured homes. The unique manufactured home construction characteristics require that

  14. Manufacture and Development of Multilayer Diffraction Gratings

    SciTech Connect

    Keck, J.; Oliver, J.B.; Kessler, T.J.; Huang, H.; Barone, J.; Hettrick, J.; Rigatti, A.L.; Hoover, T.; Marshall, K.L.; Schmid, A.W.; Kozlov, A.; Kosc, T.Z.

    2006-03-01

    The OMEGA EP Facility includes two high-energy, short-pulse laser beams that will be focused to high intensity in the OMEGA target chamber, providing backlighting of compressed fusion targets and investigating the fast-ignition concept. To produce 2.6 kJ output energy per beam, developments in grating compressor technology are required. Gold-coated diffraction gratings limit on-target energy because of their low damage fluence. Multilayer dielectric (MLD) gratings have shown promise as high-damage-threshold, high-efficiency diffraction gratings suitable for use in high-energy chirped-pulse amplification. This paper details the manufacture and development of these gratings, including the specifics of the MLD coating, holographic lithography, reactive ion etching, reactive ion-beam cleaning, and wet chemical cleaning.

  15. Solar Assembly Line at Manufacturing Facility

    Energy.gov [DOE]

    In this photograph, an associate oversees the automatic sorting of solar cells after final tests at a BP manufacturing facility.

  16. 2014 Manufacturing Energy and Carbon Footprints: Scope

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Scope The energy and carbon footprint analysis examines fifteen individual manufacturing sectors that together consume 95% of U.S. manufacturing primary energy consumption and account for 94% of U.S. manufacturing combustion greenhouse gas (GHG) emissions. Manufacturing sectors are defined by their respective NAICS (North American Industry Classification System) codes. i Individual sectors were selected for analysis based on their relative energy intensities, contribution to the U.S. economy,

  17. Manufacturing Energy and Carbon Footprints Scope

    Energy.gov [DOE]

    List of manufacturing sectors selected for analysis along with North American Industry Classification System (NAICS) code descriptions

  18. Additive Manufacturing - Materials by Design - Energy Innovation...

    U.S. Department of Energy (DOE) - all webpages (Extended Search)

    Additive Manufacturing - Materials by Design Lawrence Livermore National Laboratory ... Send Message Lawrence Livermore National Laboratory Industrial Partnerships Office Visit ...

  19. Solid Oxide Fuel Cell Manufacturing Overview

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Cell Manufacturing Overview Hydrogen and Fuel Cell Technologies Manufacturing R&D Workshop August 11-12, 2011 Washington, DC Mark Richards, Eric Tang, Randy Petri Copyright © 2011 Versa Power Systems. All Rights Reserved. 2 Contents  Manufacturing development dependencies  SOFC elements  Cell manufacturing processes - Materials - Forming - Conditioning  Stack assembly  Quality control and testing  VPS projected cost reductions in SECA Copyright © 2011 Versa Power Systems.

  20. Secure Manufacturing | Y-12 National Security Complex

    U.S. Department of Energy (DOE) - all webpages (Extended Search)

    the most difficult manufacturability and development obstacles; protecting classified and proprietary materials, components, and information; developing unique ...

  1. Clean Energy Manufacturing Initiative Industrial Efficiency and...

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Industrial Efficiency and Energy Productivity Video Clean Energy Manufacturing Initiative Industrial Efficiency and Energy Productivity Video Addthis Description Industrial ...

  2. Advanced Manufacturing Initiative Improves Turbine Blade Productivity |

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Department of Energy Advanced Manufacturing Initiative Improves Turbine Blade Productivity Advanced Manufacturing Initiative Improves Turbine Blade Productivity May 20, 2011 - 2:56pm Addthis This is an excerpt from the Second Quarter 2011 edition of the Wind Program R&D Newsletter. The Advanced Manufacturing Initiative (AMI) at DOE's Sandia National Laboratories is working with industry to improve manufacturing processes and create U.S. jobs by improving labor productivity in wind

  3. Alternative Interconnect Manufacturing | Department of Energy

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Alternative Interconnect Manufacturing Alternative Interconnect Manufacturing Lead Performer: Vadient Optics LLC - Eugene, OR DOE Total Funding: $150,000 Project Term: February 22, 2016 - November 21, 2016 Funding Type: SBIR PROJECT OBJECTIVE Vadient Optics proposes to develop and demonstrate a practical commercial manufacturing route for its flexible, low-cost additive manufacturing process used to efficiently fabricate complex and highly efficient light-extraction optics for a variety of SSL

  4. advanced manufacturing office | netl.doe.gov

    U.S. Department of Energy (DOE) - all webpages (Extended Search)

    Advanced Manufacturing Office The U.S. Department of Energy (DOE) funds the research, development, and demonstration of highly efficient and innovative manufacturing technologies. DOE has supported the development of more than 250 energy-saving industrial technologies that have been commercialized since 1976. DOE is also working to create a network of Manufacturing Innovation Institutes, each of which will create collaborative communities to target a unique technology in advanced manufacturing.

  5. Clean Energy Manufacturing Innovation Institute for Composite...

    Energy.gov [DOE] (indexed site)

    and Fuel Cell Technologies Research, Development, and Demonstrations Funding Opportunity Announcement Webinar Slides Fiber Reinforced Polymer Composite Manufacturing Workshop

  6. Clean Energy Manufacturing Analysis Center Webinar

    Energy.gov [DOE]

    The U.S. Department of Energy offers a webinar to address clean energy manufacturing on April 5. Register today!

  7. A National Strategic Plan For Advanced Manufacturing

    Office of Energy Efficiency and Renewable Energy (EERE)

    A National Strategic Plan For Advanced Manufacturing February 2012 Executive Office of the President National Science and Technology Council

  8. Webinar: Additive Manufacturing for Fuel Cells

    Energy.gov [DOE]

    Video recording and text version of the webinar titled "Additive Manufacturing for Fuel Cells," originally presented on February 11, 2014.

  9. DOE Announces Manufacturing Training for Cleantech Entrepreneurs |

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Department of Energy DOE Announces Manufacturing Training for Cleantech Entrepreneurs DOE Announces Manufacturing Training for Cleantech Entrepreneurs September 30, 2016 - 10:22am Addthis On Thursday, September 29, the Energy Department announced the new Build4Scale Manufacturing Training for Cleantech Entrepreneurs at the 2016 MForesight National Summit in Washington, D.C. Build4Scale helps entrepreneurs build their clean energy products by providing training on manufacturing fundamentals

  10. Manufacturing Leadership Council recognizes advancements at KCNSC |

    National Nuclear Security Administration (NNSA)

    National Nuclear Security Administration | (NNSA) Manufacturing Leadership Council recognizes advancements at KCNSC Wednesday, July 20, 2016 - 11:01am Team members from the Kansas City National Security Campus took back three Manufacturing Leadership Awards from the ceremony in Carlsbad, CA. The spotlight was shining on the Kansas City National Security Campus (KCNSC) on June 8 at the Manufacturing Leadership Awards Summit. The Manufacturing Leadership Council recognized KCNSC's achievements

  11. Discover E for budding engineers

    U.S. Department of Energy (DOE) - all webpages (Extended Search)

    The event coincides with National Engineers Week and is free with no registration required. Boy and Girl Scouts can even use the activities to help earn merit badges. Last year's ...

  12. Emerging Opportunities and Challenges in U.S. Solar Manufacturing

    Energy.gov [DOE]

    Innovation-driven cost and performance improvements, along with strong projected solar demand in the United States and across the Americas, could increase the attractiveness of U.S.-based solar manufacturing (see Chung et al. 2016). Although improvements to standard PV modules have produced deep cost reductions over the past 5 years, the returns on such incremental improvements appear to be diminishing, and more dramatic innovations in module design and manufacturing are required to continue along the path of rapid progress. At the same time, major opportunities exist for innovation to unlock the potential of CSP technologies. This need for innovation could benefit U.S. PV and CSP manufacturers. The United States has been rated one of the world’s most competitive and innovative countries as well as one of the best locations for PV manufacturing. It is a global leader in PV and CSP R&D and patent production, and U.S. PV manufacturers are already pursuing highly differentiated innovations.

  13. Structure Property Studies for Additively Manufactured Parts

    SciTech Connect

    Milenski, Helen M; Schmalzer, Andrew Michael; Kelly, Daniel

    2015-08-17

    Since the invention of modern Additive Manufacturing (AM) processes engineers and designers have worked hard to capitalize on the unique building capabilities that AM allows. By being able to customize the interior fill of parts it is now possible to design components with a controlled density and customized internal structure. The creation of new polymers and polymer composites allow for even greater control over the mechanical properties of AM parts. One of the key reasons to explore AM, is to bring about a new paradigm in part design, where materials can be strategically optimized in a way that conventional subtractive methods cannot achieve. The two processes investigated in my research were the Fused Deposition Modeling (FDM) process and the Direct Ink Write (DIW) process. The objectives of the research were to determine the impact of in-fill density and morphology on the mechanical properties of FDM parts, and to determine if DIW printed samples could be produced where the filament diameter was varied while the overall density remained constant.

  14. INDUSTRIAL SCALE DEMONSTRATION OF SMART MANUFACTURING ACHIEVING

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    TRANSFORMATIONAL ENERGY PRODUCTIVITY GAINS | Department of Energy INDUSTRIAL SCALE DEMONSTRATION OF SMART MANUFACTURING ACHIEVING TRANSFORMATIONAL ENERGY PRODUCTIVITY GAINS INDUSTRIAL SCALE DEMONSTRATION OF SMART MANUFACTURING ACHIEVING TRANSFORMATIONAL ENERGY PRODUCTIVITY GAINS University of Texas at Austin - Austin, TX A Smart Manufacturing (SM) platform can integrate information technology, performance metrics, and models and simulations driven by real-time plant sensor data. This

  15. The Clean Energy Manufacturing Initiative: Dissolving Silos

    ScienceCinema

    Danielson, David; Orr, Lynn; Sarkar, Reuben; Zayas, Jose; Johnson, Mark

    2016-07-12

    DOE’s work is closely tied to manufacturing because manufacturing is an important part of technology innovation and commercialization. Find out how DOE – through the Clean Energy Manufacturing Initiative – is helping America lead the clean energy revolution.

  16. Manufacturing Demonstration Facilities Workshop Agenda, March 2012 |

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Department of Energy Workshop Agenda, March 2012 Manufacturing Demonstration Facilities Workshop Agenda, March 2012 mdf_workshop_agenda.pdf (263.06 KB) More Documents & Publications Manufacturing Demonstration Facility Workshop Critical Materials Workshop Agenda Innovative Manufacturing Initiatives Recognition Day Agenda

  17. QER- Comment of Meyil Engineering Company

    Office of Energy Efficiency and Renewable Energy (EERE)

    Dear Sirs, We, as a Meyil Engineering Co. Ltd., with its headquarters and factory located in Ostim industrial zone in Ankara, manufacture concrete batching plants. Brief information about our Concrete Batching Plants is enclosed to this email. Meyil's products group includes stationary and mobile plants, wet and dry mix plants, compact and complicated plants with planetary, singleshaft and twinshaft mixer choices.

  18. Engineered Products: Proposed Penalty (2012-SE-5401)

    Office of Energy Efficiency and Renewable Energy (EERE)

    DOE alleged in a Notice of Proposed Civil Penalty that Engineered Products Company manufactured/privately-labeled and distributed a number of units of noncompliant basic model 15701, a metal halide lamp fixture with a magnetic probe-start ballast in the U.S.

  19. Learn About Introduce a Girl to Engineering Day | Argonne National

    U.S. Department of Energy (DOE) - all webpages (Extended Search)

    Laboratory Learn About Introduce a Girl to Engineering Day Share Duration 2:30 Browse By - Any - General Argonne Information Energy -Energy efficiency --Vehicles ---Alternative fuels ---Automotive engineering ---Diesel ---Electric drive technology ---Hybrid & electric vehicles ---Hydrogen & fuel cells ---Internal combustion ---Powertrain research --Building design ---Construction --Manufacturing -Energy sources --Renewable energy ---Bioenergy ---Solar energy --Fossil fuels ---Natural

  20. Integrated computational materials engineering: Tools, simulations and new applications

    DOE PAGES [OSTI]

    Madison, Jonathan D.

    2016-03-30

    Here, Integrated Computational Materials Engineering (ICME) is a relatively new methodology full of tremendous potential to revolutionize how science, engineering and manufacturing work together. ICME was motivated by the desire to derive greater understanding throughout each portion of the development life cycle of materials, while simultaneously reducing the time between discovery to implementation [1,2].

  1. Argonne's Materials Engineering Research Facility - Joint Center for

    U.S. Department of Energy (DOE) - all webpages (Extended Search)

    Energy Storage Research August 8, 2012, Videos Argonne's Materials Engineering Research Facility Argonne's Materials Engineering Research Facility (MERF) enables the development of manufacturing processes for producing advanced battery materials in sufficient quantity for industrial testing. The research conducted in this program is known as process scale-up

  2. Web Requirements and Best Practices for PDFs

    Office of Energy Efficiency and Renewable Energy (EERE)

    The Office of Energy Efficiency and Renewable Energy (EERE) has requirements for creating PDFs that are compliant with Section 508 and are optimized for search engine optimization.

  3. Clean Energy Manufacturing: U.S. Competitiveness and State Policy Strategies (Presentation)

    SciTech Connect

    Lantz, E.

    2014-02-01

    The capital intensive nature of clean energy technologies suggests that manufacturing clean energy equipment has the potential to support state and local economic development efforts. However, manufacturing siting decisions tend to be complex and multi-variable decision processes that require in-depth knowledge of specific markets, the logistical requirements of a given technology, and insight into global clean tech trends. This presentation highlights the potential of manufacturing in supporting economic development opportunities while also providing examples of the financial considerations affecting manufacturing facility siting decisions for wind turbine blades and solar PV. The presentation also includes discussion of other more qualitative drivers of facility siting decisions as gleaned from NREL industry interviews and discusses strategies state and local policymakers may employee to bolster their chances of successfully attracting clean energy manufacturers to their localities.

  4. Thermoacoustic engines

    SciTech Connect

    Swift, G.W.

    1988-10-01

    Thermoacoustic engines, or acoustic heat engines, are energy-conversion devices that achieve simplicity and concomitant reliability by use of acoustic technology. Their efficiency can be a substantial fraction of Carnot's efficiency. In thermoacoustic prime movers, heat flow from a high-temperature source to a low-temperature sink generates acoustic power (which may be converted to electric power using a transducer). In thermoacoustic heat pumps and refrigerators, acoustic power is used to pump heat from a low-temperature source to a high-temperature sink. This review teaches the fundamentals of thermoacoustic engines, by analysis, intuition, and example.

  5. D&D Engineering & Design Guidance

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    ... Systems engineering is a tool that consists of iterative processes, such as requirements analysis, alternative studies, and functional analysis and allocation. Recommended Approach ...

  6. The Safe Handling of Unbound Engineered Nanoparticles

    Directives, Delegations, and Other Requirements [Office of Management (MA)]

    2011-05-31

    The order establishes requirements and assigns responsibilities for activities involving unbound engineered nanoparticles (UNP). Admin Chg 1, dated 2-14-13, supersedes DOE O 456.1.

  7. 1991 Manufacturing Consumption of Energy 1991 Executive Summary

    Energy Information Administration (EIA) (indexed site)

    Summary The Manufacturing Consumption of Energy 1991 report presents statistics about the energy consumption of the manufacturing sector, based on the 1991 Manufacturing Energy...

  8. $23.5 Million Investment in Innovative Manufacturing Projects...

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    23.5 Million Investment in Innovative Manufacturing Projects Supports the New Clean Energy Manufacturing Initiative 23.5 Million Investment in Innovative Manufacturing Projects ...

  9. Notice of Intent (NOI): Clean Energy Manufacturing Innovation...

    Office of Energy Efficiency and Renewable Energy (EERE) (indexed site)

    Innovation Institute on Smart Manufacturing: Advanced Sensors, Controls, Platforms and Modeling for Manufacturing Notice of Intent (NOI): Clean Energy Manufacturing Innovation ...

  10. Rebirth of the stirling engine

    SciTech Connect

    Sternlicht, B.

    1983-01-01

    Revived interest in external combustion is attributed to such advantages as ability to use a variety of energy sources, high system efficiency and low pollution. A relatively high weight-power ratio, which is undesirable in propulsion applications, and manufacturing costs that have not yet been refined are the two remaining technological challenges. A diagram explaining the Stirling cycle is presened. It is revealed that the first-generation automotive engine (MOD I), which is now being tested, has efficiency in most of the operating ranges that exceeds the analytical predictions that were incorporated into the design. The engine's power density has been improved by 35%. MOD II, which is the second-generation engine and represents the conclusion of the program in 1985, is expected to have 50% fuel economy improvement. This is considerably greater than the 30% currently specified, and the engine weight is expected to be about 5 lb/hp, which is comparable to the weight of diesel engines. It is also expected to meet or surpass both the emission and noise standards. It is concluded that whether the automotive industry will choose the Stirling engine or the gas turbine as its prime mover will depend on a variety of factors, of which technology is only one.

  11. Ohio Advanced Energy Manufacturing Center

    SciTech Connect

    Kimberly Gibson; Mark Norfolk

    2012-07-30

    The program goal of the Ohio Advanced Energy Manufacturing Center (OAEMC) is to support advanced energy manufacturing and to create responsive manufacturing clusters that will support the production of advanced energy and energy-efficient products to help ensure the nation's energy and environmental security. This goal cuts across a number of existing industry segments critical to the nation's future. Many of the advanced energy businesses are starting to make the transition from technology development to commercial production. Historically, this transition from laboratory prototypes through initial production for early adopters to full production for mass markets has taken several years. Developing and implementing manufacturing technology to enable production at a price point the market will accept is a key step. Since these start-up operations are configured to advance the technology readiness of the core energy technology, they have neither the expertise nor the resources to address manufacturing readiness issues they encounter as the technology advances toward market entry. Given the economic realities of today's business environment, finding ways to accelerate this transition can make the difference between success and failure for a new product or business. The advanced energy industry touches a wide range of industry segments that are not accustomed to working together in complex supply chains to serve large markets such as automotive and construction. During its first three years, the Center has catalyzed the communication between companies and industry groups that serve the wide range of advanced energy markets. The Center has also found areas of common concern, and worked to help companies address these concerns on a segment or industry basis rather than having each company work to solve common problems individually. EWI worked with three industries through public-private partnerships to sew together disparate segments helping to promote overall industry

  12. Highly oriented carbon fiber–polymer composites via additive manufacturing

    DOE PAGES [OSTI]

    Tekinalp, Halil L.; Kunc, Vlastimil; Velez-Garcia, Gregorio M.; Duty, Chad E.; Love, Lonnie J.; Naskar, Amit K.; Blue, Craig A.; Ozcan, Soydan

    2014-10-16

    Additive manufacturing, diverging from traditional manufacturing techniques, such as casting and machining materials, can handle complex shapes with great design flexibility without the typical waste. Although this technique has been mainly used for rapid prototyping, interest is growing in using this method to directly manufacture actual parts of complex shape. To use 3D-printing additive manufacturing in wide spread applications, the technique and the feedstock materials require improvements to meet the mechanical requirements of load-bearing components. Thus, we investigated the short fiber (0.2 mm to 0.4 mm) reinforced acrylonitrile-butadiene-styrene composites as a feedstock for 3D-printing in terms of their processibility, microstructuremore » and mechanical performance; and also provided comparison with traditional compression molded composites. The tensile strength and modulus of 3D-printed samples increased ~115% and ~700%, respectively. 3D-printer yielded samples with very high fiber orientation in printing direction (up to 91.5 %), whereas, compression molding process yielded samples with significantly less fiber orientation. Microstructure-mechanical property relationships revealed that although the relatively high porosity is observed in the 3D-printed composites as compared to those produced by the conventional compression molding technique, they both exhibited comparable tensile strength and modulus. Furthermore, this phenomena is explained based on the changes in fiber orientation, dispersion and void formation.« less

  13. Highly oriented carbon fiber–polymer composites via additive manufacturing

    SciTech Connect

    Tekinalp, Halil L.; Kunc, Vlastimil; Velez-Garcia, Gregorio M.; Duty, Chad E.; Love, Lonnie J.; Naskar, Amit K.; Blue, Craig A.; Ozcan, Soydan

    2014-10-16

    Additive manufacturing, diverging from traditional manufacturing techniques, such as casting and machining materials, can handle complex shapes with great design flexibility without the typical waste. Although this technique has been mainly used for rapid prototyping, interest is growing in using this method to directly manufacture actual parts of complex shape. To use 3D-printing additive manufacturing in wide spread applications, the technique and the feedstock materials require improvements to meet the mechanical requirements of load-bearing components. Thus, we investigated the short fiber (0.2 mm to 0.4 mm) reinforced acrylonitrile-butadiene-styrene composites as a feedstock for 3D-printing in terms of their processibility, microstructure and mechanical performance; and also provided comparison with traditional compression molded composites. The tensile strength and modulus of 3D-printed samples increased ~115% and ~700%, respectively. 3D-printer yielded samples with very high fiber orientation in printing direction (up to 91.5 %), whereas, compression molding process yielded samples with significantly less fiber orientation. Microstructure-mechanical property relationships revealed that although the relatively high porosity is observed in the 3D-printed composites as compared to those produced by the conventional compression molding technique, they both exhibited comparable tensile strength and modulus. Furthermore, this phenomena is explained based on the changes in fiber orientation, dispersion and void formation.

  14. Combustion Engine

    Energy.gov [DOE]

    Pictured here is an animation showing the basic mechanics of how an internal combustion engine works. With support from the Energy Department, General Motors researchers developed a new technology ...

  15. Civil Engineer

    Energy.gov [DOE]

    (See Frequently Asked Questions for more information). Where would I be working? Western Area Power Administration Desert Southwest Region Engineering and Construction (G5600) 615 S. 43rd Avenue...

  16. Engineering Technician

    Energy.gov [DOE]

    (See Frequently Asked Questions for more information). Where would I be working? Western Area Power Administration Desert Southwest Region Engineering and Construction (G5600) 615 S. 43rd Avenue...

  17. Harmonic engine

    DOEpatents

    Bennett, Charles L.

    2009-10-20

    A high efficiency harmonic engine based on a resonantly reciprocating piston expander that extracts work from heat and pressurizes working fluid in a reciprocating piston compressor. The engine preferably includes harmonic oscillator valves capable of oscillating at a resonant frequency for controlling the flow of working fluid into and out of the expander, and also preferably includes a shunt line connecting an expansion chamber of the expander to a buffer chamber of the expander for minimizing pressure variations in the fluidic circuit of the engine. The engine is especially designed to operate with very high temperature input to the expander and very low temperature input to the compressor, to produce very high thermal conversion efficiency.

  18. General Engineer

    Energy.gov [DOE]

    This position is located in Office of Standard Contract Management, within the Office of the General Counsel (GC). The purpose of the position is to conduct technical and engineering reviews of the...

  19. Process for manufacturing tantalum capacitors

    DOEpatents

    Lauf, Robert J.; Holcombe, Cressie E.; Dykes, Norman L.

    1993-01-01

    A process for manufacturing tantalum capacitors in which microwave energy is used to sinter a tantalum powder compact in order to achieve higher surface area and improved dielectric strength. The process comprises cold pressing tantalum powder with organic binders and lubricants to form a porous compact. After removal of the organics, the tantalum compact is heated to 1300.degree. to 2000.degree. C. by applying microwave radiation. Said compact is then anodized to form a dielectric oxide layer and infiltrated with a conductive material such as MnO.sub.2. Wire leads are then attached to form a capacitor to said capacitor is hermetically packaged to form the finished product.

  20. Process for manufacturing tantalum capacitors

    DOEpatents

    Lauf, R.J.; Holcombe, C.E.; Dykes, N.L.

    1993-02-02

    A process for manufacturing tantalum capacitors in which microwave energy is used to sinter a tantalum powder compact in order to achieve higher surface area and improved dielectric strength. The process comprises cold pressing tantalum powder with organic binders and lubricants to form a porous compact. After removal of the organics, the tantalum compact is heated to 1,300 to 2,000 C by applying microwave radiation. Said compact is then anodized to form a dielectric oxide layer and infiltrated with a conductive material such as MnO[sub 2]. Wire leads are then attached to form a capacitor to said capacitor is hermetically packaged to form the finished product.