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Note: This page contains sample records for the topic "distributed energy resource" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


1

Federal Energy Management Program: Distributed Energy Resources...  

NLE Websites -- All DOE Office Websites (Extended Search)

Distributed Energy Resources and Combined Heat and Power Distributed energy resources (DER) and combined heat and power (CHP) systems help Federal agencies meet increased demand,...

2

Distributed Energy Resources for Carbon Emissions Mitigation  

E-Print Network (OSTI)

2003. “Gas-Fired Distributed Energy Resource TechnologyATIONAL L ABORATORY Distributed Energy Resources for CarbonFirestone 5128 Distributed Energy Resources for Carbon

Firestone, Ryan; Marnay, Chris

2008-01-01T23:59:59.000Z

3

Distributed Energy Resources Market Diffusion Model  

E-Print Network (OSTI)

International Journal of Distributed Energy Resources, 1 (Gas-Fired Distributed Energy Resources Characterizations.Firestone, R. (2004) Distributed Energy Resources Customer

Maribu, Karl Magnus; Firestone, Ryan; Marnay, Chris; Siddiqui, Afzal S.

2006-01-01T23:59:59.000Z

4

Federal Energy Management Program: Distributed Energy Resources...  

NLE Websites -- All DOE Office Websites (Extended Search)

Energy Resources and Combined Heat and Power to someone by E-mail Share Federal Energy Management Program: Distributed Energy Resources and Combined Heat and Power on...

5

Federal Energy Management Program: Distributed Energy Resource...  

NLE Websites -- All DOE Office Websites (Extended Search)

Resource Basics to someone by E-mail Share Federal Energy Management Program: Distributed Energy Resource Basics on Facebook Tweet about Federal Energy Management Program:...

6

Federal Energy Management Program: Distributed Energy Resources...  

NLE Websites -- All DOE Office Websites (Extended Search)

Resources and Combined Heat and Power Contacts to someone by E-mail Share Federal Energy Management Program: Distributed Energy Resources and Combined Heat and Power Contacts on...

7

Energy Storage and Distributed Resources  

NLE Websites -- All DOE Office Websites (Extended Search)

diagram of molecular structure, spectrocscopic data, low-swirl flame diagram of molecular structure, spectrocscopic data, low-swirl flame Energy Storage and Distributed Resources Energy Storage and Distributed Resources application/pdf icon esdr-org-chart-03-2013.pdf EETD researchers in the energy storage and distributed resources area conduct R&D and develops technologies that provide the electricity grid with significant storage capability for energy generated from renewable sources; real-time monitoring and response technologies for the "smart grid" to optimize energy use and communication between electricity providers and consumers; and technologies for improved electricity distribution reliability. Their goal is to identify and develop technologies, policies and strategies to enable a shift to renewable energy sources at $1 per watt for a

8

Federal Energy Management Program: Distributed Energy Resources...  

NLE Websites -- All DOE Office Websites (Extended Search)

Project Implementation to someone by E-mail Share Federal Energy Management Program: Distributed Energy Resources and Combined Heat and Power Project Implementation on Facebook...

9

Smart Distribution Applications for Distributed Energy Resources  

Science Conference Proceedings (OSTI)

P180.014 Smart Distribution Applications for Distributed Energy Resources (070625)The factors listed below all support the proliferation of Distributed Generating (DG) units in electric utility systems. The growing rate of DG deployment suggests that alternative energy-based solutions play an increasingly important role in the smart grid and modern utility.Deregulation of the electric utility industry in some countriesEnvironmental ...

2013-08-16T23:59:59.000Z

10

Definition: Distributed Energy Resource | Open Energy Information  

Open Energy Info (EERE)

Resource Resource Jump to: navigation, search Dictionary.png Distributed Energy Resource A device that produces electricity, and is connected to the electrical system, either "behind the meter" in the customer's premise, or on the utility's primary distribution system. A Distributed Energy Resource (DER) can utilize a variety of energy inputs including, but not limited to, liquid petroleum fuels, biofuels, natural gas, solar, wind, and geothermal. Electricity storage devices can also be classified as DERs.[1] Also Known As DER Related Terms energy, biofuels, electricity storage technologies, system, electricity generation References ↑ https://www.smartgrid.gov/category/technology/distributed_energy_resource [[Categ LikeLike UnlikeLike You like this.Sign Up to see what your friends like.

11

LBNL -52753 Distributed Energy Resources in Practice  

E-Print Network (OSTI)

LBNL -52753 Distributed Energy Resources in Practice: A Case Study Analysis and Validation of LBNL Energy, Distributed Energy and Electric Reliability Program of the U.S. Department of Energy under-52753 Distributed Energy Resources in Practice: A Case Study Analysis and Validation of LBNL's Customer

12

LBNL-60590 JART Distributed energy resources market  

E-Print Network (OSTI)

LBNL-60590 JART Distributed energy resources market diffusion model Karl Magnus Maribua , Ryan M by the Office of Electricity Delivery and Energy Reliability, Distributed Energy Program of the U.S. Department Policy 35 (2007) 4471­4484 Distributed energy resources market diffusion model Karl Magnus Maribua

13

Evaluation Framework and Tools for Distributed Energy Resources  

E-Print Network (OSTI)

of Customer Adoption of Distributed Energy Resources." LBNL-Strategic Plan for Distributed Energy Resources." U.S.3. Effects of Distributed Energy Resources Deployment

Gumerman, Etan Z.; Bharvirkar, Ranjit R.; LaCommare, Kristina Hamachi; Marnay, Chris

2003-01-01T23:59:59.000Z

14

Distributed energy resources at naval base ventura county building 1512  

E-Print Network (OSTI)

up by a DER system. Distributed Energy Resources at NavalFebruary 2003. “Distributed Energy Resources in Practice: ARyan. January 2004. “Distributed Energy Resources Customer

Bailey, Owen C.; Marnay, Chris

2004-01-01T23:59:59.000Z

15

Integration of distributed energy resources. The CERTS Microgrid Concept  

E-Print Network (OSTI)

2001. Integration of Distributed Energy Resources - The C Enew Integration of Distributed Energy Resources - The C E Ron Integration of Distributed Energy Resources The CERTS

2002-01-01T23:59:59.000Z

16

Modeling of customer adoption of distributed energy resources  

E-Print Network (OSTI)

Customer Adoption of Distributed Energy Resources Ozbek, A.Customer Adoption of Distributed Energy Resources Figure 39.Customer Adoption of Distributed Energy Resources REFERENCES

2001-01-01T23:59:59.000Z

17

The urban design of distributed energy resources  

E-Print Network (OSTI)

Distributed energy resources (DERs) are a considerable research focus for cities to reach emissions reduction goals and meet growing energy demand. DERs, consisting of local power plants and distribution infrastructure, ...

Sheehan, Travis (Travis P.)

2012-01-01T23:59:59.000Z

18

Enhanced distributed energy resource system  

DOE Patents (OSTI)

A power transmission system including a direct current power source electrically connected to a conversion device for converting direct current into alternating current, a conversion device connected to a power distribution system through a junction, an energy storage device capable of producing direct current connected to a converter, where the converter, such as an insulated gate bipolar transistor, converts direct current from an energy storage device into alternating current and supplies the current to the junction and subsequently to the power distribution system. A microprocessor controller, connected to a sampling and feedback module and the converter, determines when the current load is higher than a set threshold value, requiring triggering of the converter to supply supplemental current to the power transmission system.

Atcitty, Stanley (Albuquerque, NM); Clark, Nancy H. (Corrales, NM); Boyes, John D. (Albuquerque, NM); Ranade, Satishkumar J. (Las Cruces, NM)

2007-07-03T23:59:59.000Z

19

Primer on Distributed Energy Resources for Distribution Planning  

Science Conference Proceedings (OSTI)

Many factors -- including restructuring of the electric utility industry and an increased demand for electricity -- are driving the adoption of distributed energy technologies. This primer outlines the potential impacts that distributed generation and energy storage technologies (collectively called distributed energy resources) may have on utility distribution company planning. The primer focuses on distributed generation technologies with a capacity of 500 kW to 5 MW as well as energy storage systems w...

2002-10-09T23:59:59.000Z

20

Distributed Energy Resource Optimization Using a Software as...  

NLE Websites -- All DOE Office Websites (Extended Search)

Distributed Energy Resource Optimization Using a Software as Service (SaaS) Approach at the University of California, Davis Campus Title Distributed Energy Resource Optimization...

Note: This page contains sample records for the topic "distributed energy resource" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


21

South Korea-ANL Distributed Energy Resources and Demand Side...  

Open Energy Info (EERE)

Korea-ANL Distributed Energy Resources and Demand Side Management Jump to: navigation, search Name Distributed Energy Resources and Demand Side Management in South Korea Agency...

22

Efficient Communication Interfaces for Distributed Energy Resources  

Science Conference Proceedings (OSTI)

The IEC 61850 standard originally was developed for the substation automation. During the past years it was adapted for the integration of distributed energy resources into communication networks, however, with specific requirements. Many small and midsize ... Keywords: Client-Server, Data Modeling, Distributed Systems, Information and Communication Technologies, Networks

Heinz Frank; Sidonia Mesentean

2010-04-01T23:59:59.000Z

23

Distributed energy resources customer adoption modeling with combined heat and power applications  

E-Print Network (OSTI)

of Microgrid Distributed Energy Resource Potential Usingon Integration of Distributed Energy Resources: The CERTSof Customer Adoption of Distributed Energy Resources. ”

Siddiqui, Afzal S.; Firestone, Ryan M.; Ghosh, Srijay; Stadler, Michael; Edwards, Jennifer L.; Marnay, Chris

2003-01-01T23:59:59.000Z

24

An Australian Perspective On Distributed Energy Resources  

NLE Websites -- All DOE Office Websites (Extended Search)

An Australian Perspective On Distributed Energy Resources An Australian Perspective On Distributed Energy Resources Speaker(s): Hugh Outhred Date: December 11, 2003 - 12:00pm Location: Bldg. 90 Seminar Host/Point of Contact: Kristina LaCommare The seminar will describe and critique the Australian approach to incorporating distributed energy resources into its restructured electricity industry, which consists of the National Electricity Market (a wholesale electricity market), retail electricity markets, network regulation and environmental regulation. These arrangements continue to evolve and recent developments will be discussed. Hugh Outhred is in the School of Electrical Engineering & Telecommunications at the University of New South Wales, Sydney, Australia. He is also a member of the National Electricity Tribunal ( a quasi-judicial appeal body associated with

25

Distributed Energy Resources for Carbon Emissions Mitigation  

E-Print Network (OSTI)

and Energy Reliability, Distribution System Integrationand Energy Reliability, Distribution System Integration

Firestone, Ryan; Marnay, Chris

2008-01-01T23:59:59.000Z

26

AMO Industrial Distributed Energy: Information Resources  

Office of Energy Efficiency and Renewable Energy (EERE) Indexed Site

Energy Efficiency and Renewable Energy EERE Home | Programs & Offices | Consumer Information Industrial Distributed Energy Search Search Help Industrial Distributed Energy EERE...

27

Integrating Smart Distributed Energy Resources with Distribution Management Systems  

Science Conference Proceedings (OSTI)

No portion of the electric power grid has been impacted more by grid modernization (that is, the “smart grid”) than the electric distribution system. A central part of this transformation is the distribution management system (DMS), which integrates numerous remote monitoring and central control facilities with enterprise-level systems to optimize distribution system performance and accomplish a variety of business goals. At the same time, distributed energy resources are often connected ...

2012-09-21T23:59:59.000Z

28

Distributed Energy Resources and Management of Future Distribution  

Science Conference Proceedings (OSTI)

The Electric Power Research Institute's (EPRI's) Smart Grid demonstration initiative is a collaborative research effort focused on the design, implementation, and assessment of field demonstrations to address challenges with integrated distributed resources in grid and market operations as well as system planning. The main objective of this study is to identify approaches to interoperability and integration that can be used on a systemwide scale to help standardize the use of distributed energy resources...

2010-03-25T23:59:59.000Z

29

Architecture Considerations for Integration of Distributed Energy Resources (DER)  

Science Conference Proceedings (OSTI)

This report summarizes the March 2010 Smart Grid demonstration meeting panel session on approaches for integrating distributed energy resources (DER).

2010-05-04T23:59:59.000Z

30

Understanding Fault Characteristics of Inverter-Based Distributed Energy Resources  

SciTech Connect

This report discusses issues and provides solutions for dealing with fault current contributions from inverter-based distributed energy resources.

Keller, J.; Kroposki, B.

2010-01-01T23:59:59.000Z

31

Distributed Energy Resources Market Diffusion Model  

E-Print Network (OSTI)

8] Energy Efficiency Standards Group. (2005) Tariff Analysistariffs and DER technology cost and performance data to run the Distributed Energy

Maribu, Karl Magnus; Firestone, Ryan; Marnay, Chris; Siddiqui, Afzal S.

2006-01-01T23:59:59.000Z

32

Dynamic Voltage Regulation Using Distributed Energy Resources  

Science Conference Proceedings (OSTI)

Many distributed energy resources (DE) are near load centres and equipped with power electronics converters to interface with the grid, therefore it is feasible for DE to provide ancillary services such as voltage regulation, nonactive power compensation, and power factor correction. A synchronous condenser and a microturbine with an inverter interface are implemented in parallel in a distribution system to regulate the local voltage. Voltage control schemes of the inverter and the synchronous condenser are developed. The experimental results show that both the inverter and the synchronous condenser can regulate the local voltage instantaneously, while the dynamic response of the inverter is faster than the synchronous condenser; and that integrated voltage regulation (multiple DE perform voltage regulation) can increase the voltage regulation capability, increase the lifetime of the equipment, and reduce the capital and operation costs.

Xu, Yan [ORNL; Rizy, D Tom [ORNL; Li, Fangxing [ORNL; Kueck, John D [ORNL

2007-01-01T23:59:59.000Z

33

Distributed Energy Resources at Naval Base Ventura County Building 1512  

E-Print Network (OSTI)

LBNL-55340 Distributed Energy Resources at Naval Base Ventura County Building 1512 Prepared, of the U.S. Department of Energy under Contract No. DE-AC03-76SF00098. #12;Distributed Energy Resources and the Distributed Energy Program of DOE also provided prior funding to develop and validate the DER-CAM model

34

The Influence of a CO2 Pricing Scheme on Distributed Energy Resources in California's Commercial Buildings  

E-Print Network (OSTI)

J.L. Edwards, (2003), “Distributed Energy Resources CustomerGas-Fired Distributed Energy Resource Characterizations,”of a CO2 Pricing Scheme on Distributed Energy Resources in

Stadler, Michael

2010-01-01T23:59:59.000Z

35

Distributed Energy Resources On-Site Optimization for Commercial Buildings with Electric and Thermal Storage Technologies  

E-Print Network (OSTI)

Gas-Fired Distributed Energy Resource Characterizations”,and J.L. Edwards, “Distributed Energy Resources CustomerN ATIONAL L ABORATORY Distributed Energy Resources On-Site

Stadler, Michael

2008-01-01T23:59:59.000Z

36

Distributed energy resources in practice: A case study analysis and validation of LBNL's customer adoption model  

E-Print Network (OSTI)

BD Biosciences Pharmingen Distributed Energy Resources inin many regions. Distributed Energy Resources in PracticeAssessment of µGrid Distributed Energy Resource Potential

Bailey, Owen; Creighton, Charles; Firestone, Ryan; Marnay, Chris; Stadler, Michael

2003-01-01T23:59:59.000Z

37

Distributed Energy Resources at Naval Base Ventura County Building 1512: A Sensitivity Analysis  

E-Print Network (OSTI)

February 2003. “Distributed Energy Resources in Practice: ARyan. January 2004. “Distributed Energy Resources Customer2003. “Gas-Fired Distributed Energy Resource Technology

Bailey, Owen C.; Marnay, Chris

2005-01-01T23:59:59.000Z

38

Analysis of Hawaii Biomass Energy Resources for Distributed Energy Applications  

E-Print Network (OSTI)

Analysis of Hawaii Biomass Energy Resources for Distributed Energy Applications Prepared for State) concentrations on a unit energy basis for sugar cane varieties and biomass samples of Tables Table 1-A. Analyses of biomass materials found in the State of Hawaii

39

A Smart Energy System: Distributed Resource Management, Control and Optimization  

E-Print Network (OSTI)

A Smart Energy System: Distributed Resource Management, Control and Optimization Yong Ding, Student of distributed energy resource and consumption management, which proposes to design a networked and embedded and energy data can be acquired and processed in a distributed manner in real time. In order to improve

Beigl, Michael

40

Distributed Energy Resource Optimization Using a Software as Service (SaaS) Approach at the University of California, Davis Campus  

E-Print Network (OSTI)

Irrigation Management Information Systems Distributed EnergyResources Distributed Energy Resources Customer Adoptionprogram, the Distributed Energy Resources Customer Adoption

Michael, Stadler

2011-01-01T23:59:59.000Z

Note: This page contains sample records for the topic "distributed energy resource" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


41

Distributed Energy Resources Market Diffusion Model  

SciTech Connect

Distributed generation (DG) technologies, such as gas-fired reciprocating engines and microturbines, have been found to be economically beneficial in meeting commercial-sector electrical, heating, and cooling loads. Even though the electric-only efficiency of DG is lower than that offered by traditional central stations, combined heat and power (CHP) applications using recovered heat can make the overall system energy efficiency of distributed energy resources (DER) greater. From a policy perspective, however, it would be useful to have good estimates of penetration rates of DER under various economic and regulatory scenarios. In order to examine the extent to which DER systems may be adopted at a national level, we model the diffusion of DER in the US commercial building sector under different technical research and technology outreach scenarios. In this context, technology market diffusion is assumed to depend on the system's economic attractiveness and the developer's knowledge about the technology. The latter can be spread both by word-of-mouth and by public outreach programs. To account for regional differences in energy markets and climates, as well as the economic potential for different building types, optimal DER systems are found for several building types and regions. Technology diffusion is then predicted via two scenarios: a baseline scenario and a program scenario, in which more research improves DER performance and stronger technology outreach programs increase DER knowledge. The results depict a large and diverse market where both optimal installed capacity and profitability vary significantly across regions and building types. According to the technology diffusion model, the West region will take the lead in DER installations mainly due to high electricity prices, followed by a later adoption in the Northeast and Midwest regions. Since the DER market is in an early stage, both technology research and outreach programs have the potential to increase DER adoption, and thus, shift building energy consumption to a more efficient alternative.

Maribu, Karl Magnus; Firestone, Ryan; Marnay, Chris; Siddiqui,Afzal S.

2006-06-16T23:59:59.000Z

42

Distributed Energy Resources Market Diffusion Model  

SciTech Connect

Distributed generation (DG) technologies, such as gas-fired reciprocating engines and microturbines, have been found to be economically beneficial in meeting commercial-sector electrical, heating, and cooling loads. Even though the electric-only efficiency of DG is lower than that offered by traditional central stations, combined heat and power (CHP) applications using recovered heat can make the overall system energy efficiency of distributed energy resources (DER) greater. From a policy perspective, however, it would be useful to have good estimates of penetration rates of DER under various economic and regulatory scenarios. In order to examine the extent to which DER systems may be adopted at a national level, we model the diffusion of DER in the US commercial building sector under different technical research and technology outreach scenarios. In this context, technology market diffusion is assumed to depend on the system's economic attractiveness and the developer's knowledge about the technology. The latter can be spread both by word-of-mouth and by public outreach programs. To account for regional differences in energy markets and climates, as well as the economic potential for different building types, optimal DER systems are found for several building types and regions. Technology diffusion is then predicted via two scenarios: a baseline scenario and a program scenario, in which more research improves DER performance and stronger technology outreach programs increase DER knowledge. The results depict a large and diverse market where both optimal installed capacity and profitability vary significantly across regions and building types. According to the technology diffusion model, the West region will take the lead in DER installations mainly due to high electricity prices, followed by a later adoption in the Northeast and Midwest regions. Since the DER market is in an early stage, both technology research and outreach programs have the potential to increase DER adoption, and thus, shift building energy consumption to a more efficient alternative.

Maribu, Karl Magnus; Firestone, Ryan; Marnay, Chris; Siddiqui,Afzal S.

2006-06-16T23:59:59.000Z

43

Agent-Based Control Framework for Distributed Energy Resources Microgrids  

Science Conference Proceedings (OSTI)

Distributed energy resources (DERs) provide many benefits for the electricity users and utilities. However, the electricity distribution system traditionally was not designed to accommodate active power generation and storage at the distribution level. ...

Zhenhua Jiang

2006-12-01T23:59:59.000Z

44

Distributed Energy Resources Market Diffusion Model  

E-Print Network (OSTI)

of Electricity Delivery and Energy Reliability, Distributed Energy Program of the U.S. Department of Energy under regions are chosen to represent the diversity in U.S. climate and energy rates: Atlanta, Boston, Chicago, with the use of the building energy simulation program DOE-2, specific to various representative U.S. locations

45

Optimal Control of Distributed Energy Resources and Demand Response under Uncertainty  

E-Print Network (OSTI)

Optimal Control of Distributed Energy Resources and DemandRenewable Energy, former Distributed Energy Program of theOptimal Control of Distributed Energy Resources and Demand

Siddiqui, Afzal

2010-01-01T23:59:59.000Z

46

Distributed energy resources at naval base ventura county building 1512  

E-Print Network (OSTI)

the affects of energy prices and tariff structures on energythe default SCE tariff, total energy bills for Building 1512$0.1097. This tariff Distributed Energy Resources at Naval

Bailey, Owen C.; Marnay, Chris

2004-01-01T23:59:59.000Z

47

Quantitative Assessment of Distributed Energy Resource Benefits  

Science Conference Proceedings (OSTI)

Distributed energy resources (DER) offer many benefits, some of which are readily quantified. Other benefits, however, are less easily quantifiable because they may require site-specific information about the DER project or analysis of the electrical system to which the DER is connected. The purpose of this study is to provide analytical insight into several of the more difficult calculations, using the PJM power pool as an example. This power pool contains most of Pennsylvania, New Jersey, Maryland, and Delaware. The techniques used here could be applied elsewhere, and the insights from this work may encourage various stakeholders to more actively pursue DER markets or to reduce obstacles that prevent the full realization of its benefits. This report describes methodologies used to quantify each of the benefits listed in Table ES-1. These methodologies include bulk power pool analyses, regional and national marginal cost evaluations, as well as a more traditional cost-benefit approach for DER owners. The methodologies cannot however determine which stakeholder will receive the benefits; that must be determined by regulators and legislators, and can vary from one location to another.

Hadley, S.W.

2003-05-22T23:59:59.000Z

48

Assessment of (mu)grid distributed energy resource potential using DER-CAM and GIS  

E-Print Network (OSTI)

of Customer Adoption of Distributed Energy Resources. ”Assessment of µGrid Distributed Energy Potential Using DER-Assessment of µGrid Distributed Energy Resource Potential

Edwards, Jennifer L.; Marnay, Chris; Bartholomew, Emily; Ouaglal, Boubekeur; Siddiqui, Afzal S.; LaCommare, Kristina S.H.

2002-01-01T23:59:59.000Z

49

Simplified Application of the IEC 61850 for Distributed Energy Resources  

Science Conference Proceedings (OSTI)

The IEC 61850 standard originally was developed for the substation automation. During the last years it was adapted for the integration of distributed energy resources into communication networks. There are however specific requirements in this new field ... Keywords: distributed energy resources, communication, IEC 61850

Heinz Frank; Sidonia Mesentean; Friederich Kupzog

2009-07-01T23:59:59.000Z

50

Smart Grid Distributed Energy Resources (DER) Project Assessment  

Science Conference Proceedings (OSTI)

This report, Smart Grid Distributed Energy Resources (DER) Projects Assessment, develops a methodology and quantitative metrics to evaluate Smart Grid projects related to integrating distributed energy resources (DER) into the grid and market operations, including distributed generation, storage, demand response, and renewables. This project includes a Smart Grid project self-assessment spreadsheet that identifies characteristics important for Smart Grid projects to achieve integration of distributed res...

2009-04-28T23:59:59.000Z

51

Modeling of customer adoption of distributed energy resources  

E-Print Network (OSTI)

energy revenue neutrality International Fuel Cell market analysis and informationenergy market) price during hour h, type of day t, and month m ($/kWh) Distributed Energy Resource Technologies Information

2001-01-01T23:59:59.000Z

52

LBNL -50132 Assessment of Grid Distributed Energy Resource Potential  

E-Print Network (OSTI)

LBNL -50132 Assessment of µGrid Distributed Energy Resource Potential Using DER-CAM and GIS of Energy under Contract No. DE-AC03-76SF00098. #12;#12;Assessment of µGrid Distributed Energy Potential Road, MS 90-4000 Berkeley CA 94720-8061 *Renewable and Appropriate Energy Laboratory University

53

Distributed Energy Resources for Carbon Emissions Mitigation  

DOE Green Energy (OSTI)

The era of publicly mandated GHG emissions restrictions inthe United States has begun with recent legislation in California andseven northeastern states. Commercial and industrial buildings canimprove the carbon-efficiency of end-use energy consumption by installingtechnologies such as on-site cogeneration of electricity and useful heatin combined heat and power systems, thermally-activated cooling, solarelectric and thermal equipment, and energy storage -- collectively termeddistributed energy resources (DER). This research examines a collectionof buildings in California, the Northeast, and the southern United Statesto demonstrate the effects of regional characteristics such as the carbonintensity of central electricity grid, the climate-driven demand forspace heating and cooling, and the availability of solar insolation. Theresults illustrate that the magnitude of a realistic carbon tax ($100/tC)is too small to incent significant carbon-reducing effects oneconomically optimal DER adoption. In large part, this is because costreduction and carbon reduction objectives are roughly aligned, even inthe absence of a carbon tax.

Firestone, Ryan; Marnay, Chris

2007-05-01T23:59:59.000Z

54

Optimal Siting and Sizing of Distributed Energy Resources  

NLE Websites -- All DOE Office Websites (Extended Search)

Optimal Siting and Sizing of Distributed Energy Resources Optimal Siting and Sizing of Distributed Energy Resources Speaker(s): Johan Driesen Date: February 15, 2007 - 12:00pm Location: 90-3122 Seminar Host/Point of Contact: Chris Marnay Ongoing changes in the operation of distribution grids call for a new way to plan grid modifications. This presentation gives an overview of possible methods of long-term planning for the deployment of Distributed Energy Resources (distributed generation, storage and controllable loads) in a given grid. The placement and sizing of the units have to be considered, making this a complex optimization problem with discrete and continuous variables. In the optimization problem, multiple objectives are often conflicting, e.g. minimal grid losses, maximal use of the resources and voltage stability. An evolutionary algorithm (genetic algorithms) is used

55

Distributed energy resources at naval base ventura county building 1512  

E-Print Network (OSTI)

the prices of electricity and gas, that might make PV costprices increase by 10% Distributed Energy Resources at Naval Base Ventura Country Building 1512 over current Public Works levels, then PV

Bailey, Owen C.; Marnay, Chris

2004-01-01T23:59:59.000Z

56

Collaborative Broker for Distributed Energy Resources Joo Carlos Ferreira1  

E-Print Network (OSTI)

a system to support DER (Distributed Energy Resources) energy exchange, define local prices and coordinate and source (e.g., hydropower, wind power, photovoltaic, etc); (4) energy prices; and (5) weather information, weekly, monthly and annual energy expenses, price variation of electricity, charging periods, among

da Silva, Alberto Rodrigues

57

Enterprise Integration Functions for Distributed Energy Resources: Phase 1  

Science Conference Proceedings (OSTI)

Since 2012, the Electric Power Research Institute (EPRI) has facilitated a focus group of industry experts working to develop standard functions for enterprise integration of distributed energy resources (DER). The activity is aimed at advancing industry efforts to bring inverter-connected distributed energy storage and generation into use as a grid resource. This report presents the results of the first phase of developments by this work group, addressing DER management in aggregate groups, ...

2013-12-23T23:59:59.000Z

58

Gas-Fired Distributed Energy Resource Technology Characterizations  

DOE Green Energy (OSTI)

The U. S. Department of Energy (DOE) Office of Energy Efficiency and Renewable Energy (EERE) is directing substantial programs in the development and encouragement of new energy technologies. Among them are renewable energy and distributed energy resource technologies. As part of its ongoing effort to document the status and potential of these technologies, DOE EERE directed the National Renewable Energy Laboratory to lead an effort to develop and publish Distributed Energy Technology Characterizations (TCs) that would provide both the department and energy community with a consistent and objective set of cost and performance data in prospective electric-power generation applications in the United States. Toward that goal, DOE/EERE - joined by the Electric Power Research Institute (EPRI) - published the Renewable Energy Technology Characterizations in December 1997.As a follow-up, DOE EERE - joined by the Gas Research Institute - is now publishing this document, Gas-Fired Distributed Energy Resource Technology Characterizations.

Goldstein, L.; Hedman, B.; Knowles, D.; Freedman, S. I.; Woods, R.; Schweizer, T.

2003-11-01T23:59:59.000Z

59

Distributed Energy Resources for Carbon Emissions Mitigation  

E-Print Network (OSTI)

U.S. Commercial Distributed Generation Adoption”. LawrenceN. Zhou, 2007. “Distributed Generation with Heat Recovery

Firestone, Ryan; Marnay, Chris

2008-01-01T23:59:59.000Z

60

Optimal selection and sizing of distributed energy resources for distributed power systems  

Science Conference Proceedings (OSTI)

Optimal selection and sizing of distributed energy resources is an important research problem in the development of distributed power systems. This paper presents a methodology for optimal selection and sizing of distributed energy resources in integrated microgrids using the evolutionary strategy. Integrated microgrid is an innovative architecture in distributed power systems

Thillainathan Logenthiran; Dipti Srinivasan

2012-01-01T23:59:59.000Z

Note: This page contains sample records for the topic "distributed energy resource" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


61

An Australian Perspective On Distributed Energy Resources  

NLE Websites -- All DOE Office Websites (Extended Search)

resources into its restructured electricity industry, which consists of the National Electricity Market (a wholesale electricity market), retail electricity markets, network...

62

Distributed Energy Resources Market Diffusion Model  

E-Print Network (OSTI)

regional differences in energy markets and climates, as welldiverse climates and energy markets. These differences areanalyze the effect of other energy market policies in future

Maribu, Karl Magnus; Firestone, Ryan; Marnay, Chris; Siddiqui, Afzal S.

2006-01-01T23:59:59.000Z

63

Distributed Energy Resources for Carbon Emissions Mitigation  

E-Print Network (OSTI)

s end-use energy loads, energy tariff structures and fuelEnergy costs are calculated using a detailed representation of utility tariffTariffs, Berkeley Lab Report LBNL-55680. http://tariffs.lbl.gov EIA [Energy

Firestone, Ryan; Marnay, Chris

2008-01-01T23:59:59.000Z

64

Smart Distribution Applications for Distributed Energy Resources: Distribution Management System Use Cases  

Science Conference Proceedings (OSTI)

Technology advancements in solar photovoltaic and battery storage have driven sharp increases in their deployment by utilities, consumers, and third parties. Distributed energy resources (DERs), such as solar photovoltaic and battery storage, are often connected to the grid with a smart inverter at the distribution level, and distribution operational require¬ments are being greatly impacted by their presence. Smart inverters have advanced message processing and fast power control ...

2013-12-22T23:59:59.000Z

65

Effects of Distributed Energy Resources on Conservation Voltage Reduction (CVR)  

SciTech Connect

Conservation Voltage Reduction (CVR) is one of the cheapest technologies which can be intelligently leveraged to provide considerable energy savings. The addition of renewables in the form of distributed resources can affect the entire power system, but more importantly, affects the traditional substation control schemes at the distribution level. This paper looks at the effect on energy consumption, peak load reduction, and voltage profile changes due to the addition of distributed generation in a distribution feeder using combinations of volt var control. An IEEE 13-node system is used to simulate the various cases. Energy savings and peak load reduction for different simulation scenarios are compared.

Singh, Ruchi; Tuffner, Francis K.; Fuller, Jason C.; Schneider, Kevin P.

2011-10-10T23:59:59.000Z

66

Electricity, Resources, & Building Systems Integration Distributed Energy Publications  

E-Print Network (OSTI)

Consulting Services, LLC; Brett Oakleaf, Xcel Energy; Kenneth Wolf, Minnesota Public Utilities CommissionElectricity, Resources, & Building Systems Integration Center Distributed Energy Publications 2005 for a single phase high frequency AC microgrid, S. Chakraborty, M.D. Weiss and M.G. Simoes, IEEE Transaction

67

Cooperatives of distributed energy resources for efficient virtual power plants  

Science Conference Proceedings (OSTI)

The creation of Virtual Power Plants (VPPs) has been suggested in recent years as the means for achieving the cost-efficient integration of the many distributed energy resources (DERs) that are starting to emerge in the electricity network. In this work, ... Keywords: coalition formation, energy and emissions, incentives for cooperation, simulation

Georgios Chalkiadakis; Valentin Robu; Ramachandra Kota; Alex Rogers; Nicholas R. Jennings

2011-05-01T23:59:59.000Z

68

Optimal investment and scheduling of distributed energy resources with  

NLE Websites -- All DOE Office Websites (Extended Search)

investment and scheduling of distributed energy resources with investment and scheduling of distributed energy resources with uncertainty in electric vehicles driving schedules Title Optimal investment and scheduling of distributed energy resources with uncertainty in electric vehicles driving schedules Publication Type Journal Article LBNL Report Number LBNL-6471E Year of Publication 2013 Authors Cardoso, Gonçalo, Michael Stadler, Mohammad Bozchalui, Ratnesh Sharma, Chris Marnay, Ana Barbosa-Póvoa, and Paulo Ferrão Journal Energy Date Published 10/2013 Abstract The large scale penetration of electric vehicles (EVs) will introduce technical challenges to the distribution grid, but also carries the potential for vehicle-to-grid services. Namely, if available in large enough numbers, EVs can be used as a distributed energy resource (DER) and their presence can influence optimal DER investment and scheduling decisions in microgrids. In this work, a novel EV fleet aggregator model is introduced in a stochastic formulation of DER-CAM [1], an optimization tool used to address DER investment and scheduling problems. This is used to assess the impact of EV interconnections on optimal DER solutions considering uncertainty in EV driving schedules. Optimization results indicate that EVs can have a significant impact on DER investments, particularly if considering short payback periods. Furthermore, results suggest that uncertainty in driving schedules carries little significance to total energy costs, which is corroborated by results obtained using the stochastic formulation of the problem.

69

Resilient Networked Control of Distributed Energy Resources  

E-Print Network (OSTI)

://www.nik.no/ Open Source Software for the Smartgrid: Challenges for Software Safety and Evolution Tosin Daniel, Trondheim, Norway. Abstract The growing Smartgrid behind today's electricity supply introduces many domains (generation, transmission, distribution and consumption) and nodes of the Smartgrid network

Hadjicostis, Christoforos

70

Distributed Energy Resources for Carbon Emissions Mitigation  

E-Print Network (OSTI)

,to provide cooling. Solar technologies: Photovoltaics provide renewable electricity. Solar thermal collectors type in each location. City-specific weather,energy costs,and electric grid carbon-intensity values

71

Resilient Networked Control of Distributed Energy Resources  

E-Print Network (OSTI)

of the ICT-driven SmartGrid. In this paper we discuss a design and simulation environment which provides throughout the developed world are investing in modernization of their energy grids. The SmartGrid footprint on our environment. Designing such ICT-driven SmartGrids imposes major challenges concerning

Hadjicostis, Christoforos

72

2012 Grid Strategy: Distribution Management System (DMS) Advanced Applications for Distributed Energy Resources  

Science Conference Proceedings (OSTI)

This report provides an overview of the management systems and the advanced applications that utilities in the Electric Power Research Institute’s (EPRI’s) multi-year Smart Grid Demonstration Initiative are using or plan to use to manage the distribution system and to monitor and control distributed energy resources (DER). The management systems covered in this report are the distribution management system (DMS), the distributed energy resource management system (DERMS), and the demand ...

2012-10-10T23:59:59.000Z

73

Modeling of customer adoption of distributed energy resources  

E-Print Network (OSTI)

energy resources imbalance energy market (of CAISO) imbalance energy revenue neutrality International Fuel Cell market analysis and information

2001-01-01T23:59:59.000Z

74

Distributed Energy Resources Emissions Survey and Technology Characterization  

Science Conference Proceedings (OSTI)

This report characterizes emissions of gaseous and particulate pollutants from distributed energy resources (DER) technologies. Emissions profiles are provided for currently available equipment as well as for equipment expected to be commercially available by the year 2030. These profiles can be used to compare and evaluate DER technologies and can be used to develop emissions inventories for air quality modeling.

2004-11-03T23:59:59.000Z

75

Distributed energy resources at naval base ventura county building 1512  

E-Print Network (OSTI)

had not contracted with an energy service provider and wereaccess contract with an energy service provider, Strategicof Water Resources energy service provider Federal Energy

Bailey, Owen C.; Marnay, Chris

2004-01-01T23:59:59.000Z

76

The Influence of a CO2 Pricing Scheme on Distributed Energy Resources...  

NLE Websites -- All DOE Office Websites (Extended Search)

The Influence of a CO2 Pricing Scheme on Distributed Energy Resources in California's Commercial Buildings Title The Influence of a CO2 Pricing Scheme on Distributed Energy...

77

Architecture Reference Design for Distributed Energy Resource Integration  

Science Conference Proceedings (OSTI)

The integration of significant distributed energy resources (DER) highlights the complexities of the smart grid. A DER system encapsulates most of the operational issues of the larger grid but often with smaller timelines for action. In addition, as the level of DER grows in a system, opportunities for localized problems to escalate into larger system issues also increase. This effort develops guidelines for deploying technology and systems that meet emerging requirements for DER communication and contro...

2010-04-30T23:59:59.000Z

78

Creating Incentives for Electricity Providers to Integrate Distributed Energy Resources  

Science Conference Proceedings (OSTI)

Most distributed energy resources (DER) are customer owned in the United States, and, largely because of the lack of scaleable business models and/or regulatory drivers, utility interest in DER remains limited. This project created customer- as well as utility-owned business models and regulatory approaches to encourage DER integration, along with a set of economic calculators to test these models with various technologies.

2007-11-30T23:59:59.000Z

79

Large Distributed Energy Resource Options to Alleviate Transmission Constraints  

Science Conference Proceedings (OSTI)

Utility transmission systems require extensive investment for infrastructure upkeep. In addition, load growth requires upgrades to guard against overloading or loss of load. In some situations, an investment in a traditional transmission system upgrade may not be the most economic option. It may be possible to defer the need for an upgrade using distributed energy resources (DER), and in doing so, reduce the economic impact to the utility and its ratepayers. Additional considerations, such as impact on s...

2006-02-15T23:59:59.000Z

80

Smart Grid Reference Guide to Integration of Distributed Energy Resources  

Science Conference Proceedings (OSTI)

The smart grid is a vital and comprehensive core element of the modernization of Americas electric delivery system for the 21st century. The EPRI Smart Grid Demonstration Initiative (SGDI) is a seven-year collaborative research effort focused on designing, implementing, and assessing field demonstrations that address prevalent challenges with integrating distributed energy resources (DER) into grid and market operations. With projects first beginning in 2009, 21 collaborating and host utilities have been...

2011-08-30T23:59:59.000Z

Note: This page contains sample records for the topic "distributed energy resource" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


81

Distributed Energy Resources Integration in the Smart Grid Demonstration Project  

Science Conference Proceedings (OSTI)

In an effort to answer some of the basic system architecture questions posed by members, EPRI undertook a survey to find, among members that have smart grid demonstration projects, what the basic system architecture strategy was and basic concerns that may have architectural implications for their Distributed Energy Resource (DER) deployments. To that end, a longitudinal survey was designed to determine the basic demographics of the community, e.g. number of DER devices being deployed, the basic ...

2012-11-14T23:59:59.000Z

82

Integration of distributed energy resources. The CERTS Microgrid Concept  

DOE Green Energy (OSTI)

Evolutionary changes in the regulatory and operational climate of traditional electric utilities and the emergence of smaller generating systems such as microturbines have opened new opportunities for on-site power generation by electricity users. In this context, distributed energy resources (DER)--small power generators typically located at users' sites where the energy (both electric and thermal) they generate is used--have emerged as a promising option to meet growing customer needs for electric power with an emphasis on reliability and power quality. The portfolio of DER includes generators, energy storage, load control, and, for certain classes of systems, advanced power electronic interfaces between the generators and the bulk power provider. This white paper proposes that the significant potential of smaller DER to meet customers' and utilities' needs can be best captured by organizing these resources into MicroGrids.

Lasseter, Robert; Akhil, Abbas; Marnay, Chris; Stephens, John; Dagle, Jeff; Guttromsom, Ross; Meliopoulous, A. Sakis; Yinger, Robert; Eto, Joe

2002-04-01T23:59:59.000Z

83

Advanced Distributed Energy Resource Compliant Distribution Circuits for High Reliability  

Science Conference Proceedings (OSTI)

Electric power distribution systems and their designs have not advanced much over the past 50 years. Industry restructuring has caused many utilities to defer infrastructure investments, and implement business as usual and conservative distribution system expansion plans. Many drivers are now causing utilities to rethink how the infrastructure of the future should be built out and how best to incorporate new technology. Drivers include higher demand for reliability, the ability to better manage loads, in...

2005-12-14T23:59:59.000Z

84

Distributed energy resources customer adoption modeling with combined heat and power applications  

E-Print Network (OSTI)

CHP (PX and Tariff case) Distributed Energy Resources42 Figure 10. Energy Consumption Breakdown - 1999 (TariffFigure 10. Energy Consumption Breakdown - 1999 (Tariff Case)

Siddiqui, Afzal S.; Firestone, Ryan M.; Ghosh, Srijay; Stadler, Michael; Edwards, Jennifer L.; Marnay, Chris

2003-01-01T23:59:59.000Z

85

Modeling of customer adoption of distributed energy resources  

SciTech Connect

This report describes work completed for the California Energy Commission (CEC) on the continued development and application of the Distributed Energy Resources Customer Adoption Model (DER-CAM). This work was performed at Ernest Orlando Lawrence Berkeley National Laboratory (Berkeley Lab) between July 2000 and June 2001 under the Consortium for Electric Reliability Technology Solutions (CERTS) Distributed Energy Resources Integration (DERI) project. Our research on distributed energy resources (DER) builds on the concept of the microgrid ({mu}Grid), a semiautonomous grouping of electricity-generating sources and end-use sinks that are placed and operated for the benefit of its members. Although a {mu}Grid can operate independent of the macrogrid (the utility power network), the {mu}Grid is usually interconnected, purchasing energy and ancillary services from the macrogrid. Groups of customers can be aggregated into {mu}Grids by pooling their electrical and other loads, and the most cost-effective combination of generation resources for a particular {mu}Grid can be found. In this study, DER-CAM, an economic model of customer DER adoption implemented in the General Algebraic Modeling System (GAMS) optimization software is used, to find the cost-minimizing combination of on-site generation customers (individual businesses and a {mu}Grid) in a specified test year. DER-CAM's objective is to minimize the cost of supplying electricity to a specific customer by optimizing the installation of distributed generation and the self-generation of part or all of its electricity. Currently, the model only considers electrical loads, but combined heat and power (CHP) analysis capability is being developed under the second year of CEC funding. The key accomplishments of this year's work were the acquisition of increasingly accurate data on DER technologies, including the development of methods for forecasting cost reductions for these technologies, and the creation of a credible example California {mu}Grid for use in this study and in future work. The work performed during this year demonstrates the viability of DER-CAM and of our approach to analyzing adoption of DER.

Marnay, Chris; Chard, Joseph S.; Hamachi, Kristina S.; Lipman, Timothy; Moezzi, Mithra M.; Ouaglal, Boubekeur; Siddiqui, Afzal S.

2001-08-01T23:59:59.000Z

86

Modeling of customer adoption of distributed energy resources  

SciTech Connect

This report describes work completed for the California Energy Commission (CEC) on the continued development and application of the Distributed Energy Resources Customer Adoption Model (DER-CAM). This work was performed at Ernest Orlando Lawrence Berkeley National Laboratory (Berkeley Lab) between July 2000 and June 2001 under the Consortium for Electric Reliability Technology Solutions (CERTS) Distributed Energy Resources Integration (DERI) project. Our research on distributed energy resources (DER) builds on the concept of the microgrid ({mu}Grid), a semiautonomous grouping of electricity-generating sources and end-use sinks that are placed and operated for the benefit of its members. Although a {mu}Grid can operate independent of the macrogrid (the utility power network), the {mu}Grid is usually interconnected, purchasing energy and ancillary services from the macrogrid. Groups of customers can be aggregated into {mu}Grids by pooling their electrical and other loads, and the most cost-effective combination of generation resources for a particular {mu}Grid can be found. In this study, DER-CAM, an economic model of customer DER adoption implemented in the General Algebraic Modeling System (GAMS) optimization software is used, to find the cost-minimizing combination of on-site generation customers (individual businesses and a {mu}Grid) in a specified test year. DER-CAM's objective is to minimize the cost of supplying electricity to a specific customer by optimizing the installation of distributed generation and the self-generation of part or all of its electricity. Currently, the model only considers electrical loads, but combined heat and power (CHP) analysis capability is being developed under the second year of CEC funding. The key accomplishments of this year's work were the acquisition of increasingly accurate data on DER technologies, including the development of methods for forecasting cost reductions for these technologies, and the creation of a credible example California {mu}Grid for use in this study and in future work. The work performed during this year demonstrates the viability of DER-CAM and of our approach to analyzing adoption of DER.

Marnay, Chris; Chard, Joseph S.; Hamachi, Kristina S.; Lipman, Timothy; Moezzi, Mithra M.; Ouaglal, Boubekeur; Siddiqui, Afzal S.

2001-08-01T23:59:59.000Z

87

Optimal Control of Distributed Energy Resources using Model Predictive Control  

Science Conference Proceedings (OSTI)

In an isolated power system (rural microgrid), Distributed Energy Resources (DERs) such as renewable energy resources (wind, solar), energy storage and demand response can be used to complement fossil fueled generators. The uncertainty and variability due to high penetration of wind makes reliable system operations and controls challenging. In this paper, an optimal control strategy is proposed to coordinate energy storage and diesel generators to maximize wind penetration while maintaining system economics and normal operation. The problem is formulated as a multi-objective optimization problem with the goals of minimizing fuel costs and changes in power output of diesel generators, minimizing costs associated with low battery life of energy storage and maintaining system frequency at the nominal operating value. Two control modes are considered for controlling the energy storage to compensate either net load variability or wind variability. Model predictive control (MPC) is used to solve the aforementioned problem and the performance is compared to an open-loop look-ahead dispatch problem. Simulation studies using high and low wind profiles, as well as, different MPC prediction horizons demonstrate the efficacy of the closed-loop MPC in compensating for uncertainties in wind and demand.

Mayhorn, Ebony T.; Kalsi, Karanjit; Elizondo, Marcelo A.; Zhang, Wei; Lu, Shuai; Samaan, Nader A.; Butler-Purry, Karen

2012-07-22T23:59:59.000Z

88

Benefits Quantification and Strategic Implications of Distributed Energy Resources to Distribution Companies: 2004 Update  

Science Conference Proceedings (OSTI)

Distributed energy resources (DER) have the potential to become a major factor in the evolving competitive electric power industry. Utilities need a plan and rationale to address DER. DER has the potential to lower electric distribution company revenue and profits, but, on the plus side, DER has the promise to be a more cost-effective way of serving some distribution system needs. Ideally, distribution companies would be able to develop business strategies that integrate DER into their overall business s...

2004-12-21T23:59:59.000Z

89

Active Power and Nonactive Power Control of Distributed Energy Resources  

SciTech Connect

Distributed energy resources (DE) have been widely used in the power systems to supply active power, and most of the present DE resources are operated with limited or without nonactive power capability. This paper shows that with a slight modification in hardware configuration and a small boost in the power ratings, as well as proper implementation of control strategies, a DE system with a power electronics converter interface can provide active power and nonactive power simultaneously and independently. A DE can provide dynamic voltage regulation to the local bus because of its nonactive power capability. Furthermore, the proposed DE control method in this paper can effectively compensate the unbalance in the local voltage. The system requirements such as the inverter current rating and the dc voltage rating are discussed. The analysis of the system requirements to provide nonactive power shows that it is cost-effective to have DE provide voltage regulation.

Xu, Yan [ORNL; Li, Fangxing [ORNL; Rizy, D Tom [ORNL; Kueck, John D [ORNL

2008-01-01T23:59:59.000Z

90

Evaluation Framework and Tools for Distributed Energy Resources  

E-Print Network (OSTI)

Glossary Executive Summary Introduction Total Societal Impact Framework i iii v vii Effects of Distributed Energy

Gumerman, Etan Z.; Bharvirkar, Ranjit R.; LaCommare, Kristina Hamachi; Marnay, Chris

2003-01-01T23:59:59.000Z

91

Advanced Communication and Control Solutions of Distributed Energy Resources (DER)  

SciTech Connect

This report covers work performed in Phase II of a two phase project whose objective was to demonstrate the aggregation of multiple Distributed Energy Resources (DERs) and to offer them into the energy market. The Phase I work (DE-FC36-03CH11161) created an integrated, but distributed, system and procedures to monitor and control multiple DERs from numerous manufacturers connected to the electric distribution system. Procedures were created which protect the distribution network and personnel that may be working on the network. Using the web as the communication medium for control and monitoring of the DERs, the integration of information and security was accomplished through the use of industry standard protocols such as secure SSL,VPN and ICCP. The primary objective of Phase II was to develop the procedures for marketing the power of the Phase I aggregated DERs in the energy market, increase the number of DER units, and implement the marketing procedures (interface with ISOs) for the DER generated power. The team partnered with the Midwest Independent System Operator (MISO), the local ISO, to address the energy market and demonstrate the economic dispatch of DERs in response to market signals. The selection of standards-based communication technologies offers the ability of the system to be deployed and integrated with other utilities’ resources. With the use of a data historian technology to facilitate the aggregation, the developed algorithms and procedures can be verified, audited, and modified. The team has demonstrated monitoring and control of multiple DERs as outlined in phase I report including procedures to perform these operations in a secure and safe manner. In Phase II, additional DER units were added. We also expanded on our phase I work to enhance communication security and to develop the market model of having DERs, both customer and utility owned, participate in the energy market. We are proposing a two-part DER energy market model--a utility need business model and an independent energy aggregator-business model. The approach of developing two group models of DER energy participation in the market is unique. The Detroit Edison (DECo, Utility)-led team includes: DTE Energy Technologies (Dtech, DER provider), Electrical Distribution Design (EDD, Virginia Tech company supporting EPRI’s Distribution Engineering Workstation, DEW), Systems Integration Specialists Company (SISCO, economic scheduling and real-time protocol integrator), and OSIsoft (PI software system for managing real-time information). This team is focused on developing the application engineering, including software systems necessary for DER’s integration, control and sale into the market place. Phase II Highlights Installed and tested an ICCP link with SSL (security) between DECo, the utility, and DTE Energy Technologies (DTECH), the aggregator, making DER data available to the utility for both monitoring and control. Installed and tested PI process book with circuit & DER operational models for DECo SOC/ROC operator’s use for monitoring of both utility circuit and customer DER parameters. The PI Process Book models also included DER control for the DECo SOC/ROC operators, which was tested and demonstrated control. The DER Tagging and Operating Procedures were developed, which allowed that control to be done in a safe manner, were modified for required MOC/MISO notification procedures. The Distribution Engineering Workstation (DEW) was modified to include temperature normalized load research statistics, using a 30 hour day-ahead weather feed. This allowed day-ahead forecasting of the customer load profile and the entire circuit to determine overload and low voltage problems. This forecast at the point of common coupling was passed to DTech DR SOC for use in their economic dispatch algorithm. Standard Work Instructions were developed for DER notification, sale, and operation into the MISO market. A software mechanism consisting of a suite of new and revised functionality was developed that integrated with the local ISO such that offe

Asgeirsson, Haukur; Seguin, Richard; Sherding, Cameron; de Bruet, Andre, G.; Broadwater, Robert; Dilek, Murat

2007-01-10T23:59:59.000Z

92

High Technology and Biotechnology Customers and Distributed Energy Resources: Can Energy Parks and Other Distributed Energy Resource s Services Meet Their Needs?  

Science Conference Proceedings (OSTI)

How to attract customers in the growth sectors of the economy? That's a question nearly all utilities face. This report examines how two sectors -- high technology and biotechnology (HBT) -- view energy, specifically distributed energy resources (DER) and the concept of energy parks.

2004-01-30T23:59:59.000Z

93

Distributed Energy Resources for Carbon Emissions Ryan Firestone and Chris Marnay  

E-Print Network (OSTI)

LBNL-62871 Distributed Energy Resources for Carbon Emissions Mitigation Ryan Firestone and Chris by the Office of Electricity Delivery and Energy Reliability, Distribution System Integration Program of the U Laboratory is an equal opportunity employer. #12;1 Firestone 5128 Distributed Energy Resources for Carbon

94

Role for Distributed Energy Resources (DER) in the Digital Economy  

SciTech Connect

A large, and growing, part of the Nation's economy either serves or depends upon the information technology industry. These high-tech or "digital" enterprises are characterized by a dependence on electronic devices, need for completely reliable power supply, and intolerance to any power quality problems. In some cases these enterprises are densely populated with electronic loads and have very high energy usage per square foot. Serving these enterprises presents both electric power and equipment cooling challenges. Traditional electric utilities are often hard-pressed to deliver power that meets the stringent requirements of digital customers, and the economic and social consequences of a service quality or reliability problem can be large. New energy delivery and control options must be developed to effectively serve a digital economy. This report explores how distributed energy resources, partnerships between utility and customer to share the responsibility for service quality, innovative facility designs, higher energy efficiencies and waste-heat utilization can be coupled to meet the needs of a growing digital economy.

Key, Thomas S [Electric Power Research Institute (EPRI)

2007-11-01T23:59:59.000Z

95

Interaction of Multiple Distributed Energy Resources in Voltage Regulation  

Science Conference Proceedings (OSTI)

Distributed energy resources (DE) with power electronics (PE) interfaces with the right control are capable of providing reactive power related ancillary services; voltage regulation in particular has drawn much attention. In this paper the problem of how to coordinate control multiple DEs to regulate the local voltage in the distribution system is addressed. A control method for voltage regulation using the DE PE controller is presented and based on the proposed control scheme; the voltage regulation of a distribution system with one DE and two DEs are tested, respectively. The factors affecting the gain parameters of the PE controller are investigated. The simulation results show that the parameters of the controller determine its dynamic response for voltage regulation and the factors associated with the network characteristics, such as locations of DEs and the amount of load, affect the impact range of the controller. The research work presented in this paper can be potentially used for the control system design of Smart Grid or Utility of the Future.

Li, Huijuan [University of Tennessee, Knoxville (UTK); Li, Fangxing [ORNL; Xu, Yan [ORNL; Rizy, D Tom [ORNL; Kueck, John D [ORNL

2008-01-01T23:59:59.000Z

96

Integration of distributed energy resources. The CERTS Microgrid Concept  

E-Print Network (OSTI)

Energy Resources The CERTS MicroGrid Concept Prepared forTechnology Solutions (CERTS) MicroGrid concept assumes anflexibility allows the CERTS MicroGrid to present itself to

2002-01-01T23:59:59.000Z

97

A FUEL?CELL DISTRIBUTED ENERGY RESOURCE WITH INTEGRATED ENERGY STORAGE  

Science Conference Proceedings (OSTI)

This paper presents a fuel?cell distributed energy resource with integrated energy storage. A compatible power electronic interface to couple the fuel?cell with the grid and/or a local load is introduced. Details of the energy storage module

Hassan Nikkhajoei

2009-01-01T23:59:59.000Z

98

Technology Review and Assessment of Distributed Energy Resources  

Science Conference Proceedings (OSTI)

The investigators reviewed and assessed the current status of distributed generation (DG) in the U.S. as it applies to smaller-scale installations (residential, commercial, and light-industrial buildings—generally under 1,000 kW capacity), and benchmarked the prospects for significant market impacts over the next 5–7 years. This study serves as an update to EPRI's Assessment of Distributed Resource Technologies, completed in 1999 [EPRI 1999].

2005-01-23T23:59:59.000Z

99

Distributed Energy Resources at Federal Facilities. Federal Energy Management Program (FEMP) Technical Assistance Fact Sheet  

DOE Green Energy (OSTI)

This two-page overview describes how the use of distributed energy resources at Federal facilities is being supported by the U.S. Department of Energy's (DOE's) Federal Energy Management Program (FEMP). Distributed energy resources include both existing and emerging energy technologies: advanced industrial turbines and microturbines; combined heat and power (CHP) systems; fuel cells; geothermal systems; natural gas reciprocating engines; photovoltaics and other solar systems; wind turbines; small, modular biopower; energy storage systems; and hybrid systems. DOE FEMP is investigating ways to use these alternative energy systems in government facilities to meet greater demand, to increase the reliability of the power-generation system, and to reduce the greenhouse gases associated with burning fossil fuels.

Pitchford, P.

2001-07-16T23:59:59.000Z

100

Technologies for Distributed Energy Resources. Federal Energy Management Program (FEMP) Technical Assistance Fact Sheet  

DOE Green Energy (OSTI)

This four-page fact sheet describes distributed energy resources for Federal facilities, which are being supported by the U.S. Department of Energy's (DOE's) Federal Energy Management Program (FEMP). Distributed energy resources include both existing and emerging energy technologies: advanced industrial turbines and microturbines; combined heat and power (CHP) systems; fuel cells; geothermal systems; natural gas reciprocating engines; photovoltaics and other solar systems; wind turbines; small, modular biopower; energy storage systems; and hybrid systems. DOE FEMP is investigating ways to use these alternative energy systems in government facilities to meet greater demand, to increase the reliability of the power-generation system, and to reduce the greenhouse gases associated with burning fossil fuels.

Pitchford, P.; Brown, T.

2001-07-16T23:59:59.000Z

Note: This page contains sample records for the topic "distributed energy resource" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


101

The Effect of Distributed Energy Resource Competition with Central Generation  

Science Conference Proceedings (OSTI)

Distributed Energy Resource (DER) has been touted as a clean and efficient way to generate electricity at end-use sites, potentially allowing the exhaust heat to be put to good use as well. However, despite its environmental acceptability compared to many other types of generation, it has faced some disapproval because it may displace other, cleaner generation technologies. The end result could be more pollution than if the DER were not deployed. On the other hand, the DER may be competing against older power plants. If the DER is built then these other plants may be retired sooner, reducing their emissions. Or it may be that DER does not directly compete against either new or old plant capacity at the decision-maker level, and increased DER simply reduces the amount of time various plants operate. The key factor is what gets displaced if DER is added. For every kWh made by DER a kWh (or more with losses) of other production is not made. If enough DER is created, some power plants will get retired or not get built so not only their production but their capacity is displaced. Various characteristics of the power system in a region will influence how DER impacts the operation of the grid. The growth in demand in the region may influence whether new plants are postponed or old plants retired. The generation mix, including the fuel types, efficiencies, and emission characteristics of the plants in the region will factor into the overall competition. And public policies such as ease of new construction, emissions regulations, and fuel availability will also come into consideration.

Hadley, SW

2003-12-10T23:59:59.000Z

102

Validated modeling of distributed energy resources at distribution voltages : LDRD project 38672.  

SciTech Connect

A significant barrier to the deployment of distributed energy resources (DER) onto the power grid is uncertainty on the part of utility engineers regarding impacts of DER on their distribution systems. Because of the many possible combinations of DER and local power system characteristics, these impacts can most effectively be studied by computer simulation. The goal of this LDRD project was to develop and experimentally validate models of transient and steady state source behavior for incorporation into utility distribution analysis tools. Development of these models had not been prioritized either by the distributed-generation industry or by the inverter industry. A functioning model of a selected inverter-based DER was developed in collaboration with both the manufacturer and industrial power systems analysts. The model was written in the PSCAD simulation language, a variant of the ElectroMagnetic Transients Program (EMTP), a code that is widely used and accepted by utilities. A stakeholder team was formed and a methodology was established to address the problem. A list of detailed DER/utility interaction concerns was developed and prioritized. The list indicated that the scope of the problem significantly exceeded resources available for this LDRD project. As this work progresses under separate funding, the model will be refined and experimentally validated. It will then be incorporated in utility distribution analysis tools and used to study a variety of DER issues. The key next step will be design of the validation experiments.

Ralph, Mark E.; Ginn, Jerry W.

2004-03-01T23:59:59.000Z

103

Technology Review and Assessment of Distributed Energy Resources  

Science Conference Proceedings (OSTI)

The investigators reviewed, benchmarked and assessed the current status of emerging battery technologies for distributed energy storage (DES) as it applies to market applications addressing residential, commercial, and light-industrial buildings, and the prospects for significant market impacts with in the electric utility sector over the next 5-7 years.

2006-02-06T23:59:59.000Z

104

Case Study on Assessment of Achieving Increased Reliability with Distributed Energy Resources: Consolidated Edison  

Science Conference Proceedings (OSTI)

Consolidated Edison (Con Edison) and the Electric Power Research Institute (EPRI) undertook an investigation of whether distributed energy resources, including distributed generation, storage and demand response load reductions, could help achieve greater reliability for a network served by a specific substation in New York City. The project was a first-level screening to determine the feasibility, costs, and benefits of using distributed energy resources as an alternative to conventional ...

2012-10-31T23:59:59.000Z

105

Modeling of Inverter Control with Distribution Management System for Distributed Energy Resources  

Science Conference Proceedings (OSTI)

A distribution energy resource management system (DERMS) has been added as an external control to the OpenDSS software. This report discusses that control and provides case studies illustrating the feeder response. The visual interpretation of the feeder in the external control is similar to that of an operator’s control interface.The DERMS uses meters on a feeder to provide power flow data. This data is processed and used to update the control of the inverter-based generation. The ...

2013-12-20T23:59:59.000Z

106

Using Smart Energy Profile 2.0 for Residential Distributed Energy Resources Integration  

Science Conference Proceedings (OSTI)

The Smart Energy Profile (SEP) is a specification set forth by the ZigBee Alliance for application layer messaging in Home Area Network (HAN) environments. Many changes and additions have been made in the 2.0 version of this specification, including a range of capabilities intended to support distributed energy resources, such as small-scale solar photovoltaic and battery storage systems that may be integrated in the residential domain.This report is presents the results of a detailed ...

2012-12-08T23:59:59.000Z

107

Distributed energy resources at naval base ventura county building 1512  

E-Print Network (OSTI)

Adoption Model distributed generation building energycosts of the DG (distributed generation) equipment, alongcapability: DG (distributed generation, electricity only);

Bailey, Owen C.; Marnay, Chris

2004-01-01T23:59:59.000Z

108

Evaluation Framework and Tools for Distributed Energy Resources  

E-Print Network (OSTI)

Office of Energy Efficiency and Renewable Energy. 2000. "Secretary of Energy Efficiency and Renewable Energy, OfficeSecretary for Energy Efficiency and Renewable Energy U.S.

Gumerman, Etan Z.; Bharvirkar, Ranjit R.; LaCommare, Kristina Hamachi; Marnay, Chris

2003-01-01T23:59:59.000Z

109

Networked control of distributed energy resources: application to solid oxide fuel cells  

Science Conference Proceedings (OSTI)

This paper presents a model-based networked control approach for managing Distributed Energy Resources (DERs) over communication networks. As a model system, we consider a solid oxide fuel cell (SOFC) plant that communicates with the central controller ...

Yulei Sun; Sathyendra Ghantasala; Nael H. El-Farra

2009-06-01T23:59:59.000Z

110

Evaluation Framework and Tools for Distributed Energy Resources  

Science Conference Proceedings (OSTI)

The Energy Information Administration's (EIA) 2002 Annual Energy Outlook (AEO) forecast anticipates the need for 375 MW of new generating capacity (or about one new power plant) per week for the next 20 years, most of which is forecast to be fueled by natural gas. The Distributed Energy and Electric Reliability Program (DEER) of the Department of Energy (DOE), has set a national goal for DER to capture 20 percent of new electric generation capacity additions by 2020 (Office of Energy Efficiency and Renewable Energy 2000). Cumulatively, this amounts to about 40 GW of DER capacity additions from 2000-2020. Figure ES-1 below compares the EIA forecast and DEER's assumed goal for new DER by 2020 while applying the same definition of DER to both. This figure illustrates that the EIA forecast is consistent with the overall DEER DER goal. For the purposes of this study, Berkeley Lab needed a target level of small-scale DER penetration upon which to hinge consideration of benefits and costs. Because the AEO2002 forecasted only 3.1 GW of cumulative additions from small-scale DER in the residential and commercial sectors, another approach was needed to estimate the small-scale DER target. The focus here is on small-scale DER technologies under 500 kW. The technology size limit is somewhat arbitrary, but the key results of interest are marginal additional costs and benefits around an assumed level of penetration that existing programs might achieve. Berkeley Lab assumes that small-scale DER has the same growth potential as large scale DER in AEO2002, about 38 GW. This assumption makes the small-scale goal equivalent to 380,000 DER units of average size 100 kW. This report lays out a framework whereby the consequences of meeting this goal might be estimated and tallied up. The framework is built around a list of major benefits and a set of tools that might be applied to estimate them. This study lists some of the major effects of an emerging paradigm shift away from central station power and towards a more dispersed and heterogeneous power system. Seventeen societal effects of small-scale DER are briefly summarized. Each effect is rated as high, medium or low, on three different scales that will help determine the optimal social investment. The three scales are: the magnitude of the economic benefit; the likelihood that the benefit can be monetized in efficient markets, i.e. internalized; and how tractable it might be to quantify each benefit analytically. Some of the modeling tools that may be used to estimate these effects are described in the Appendix.

Gumerman, Etan Z.; Bharvirkar, Ranjit R.; LaCommare, Kristina Hamachi; Marnay , Chris

2003-02-01T23:59:59.000Z

111

Best Practices Guidebook for Integration of Distributed Energy Resources Into Utility System Planning  

Science Conference Proceedings (OSTI)

DTE Energy's real-world experience in applying Distributed Energy Resources (DER) has yielded a number of important lessons, explained in greater detail in this guidebook. The guidebook is designed to help distribution organizations 1) evaluate DER as a potential solution to distribution system capacity shortfalls and 2) implement cost-effective DER installations that enhance system reliability and improve customer service. Following are key points of the lessons learned: Real management support is essen...

2006-02-13T23:59:59.000Z

112

Distributed energy resources at naval base ventura county building 1512  

E-Print Network (OSTI)

site visit and their energy audit with Berkeley Lab. Stevethe initial site visit and energy audit, provided background

Bailey, Owen C.; Marnay, Chris

2004-01-01T23:59:59.000Z

113

VAR Support from Distributed Wind Energy Resources: Preprint  

DOE Green Energy (OSTI)

As the size and quantity of wind farms and other distributed generation facilities increase, especially in relation to local grids, the importance of a reactive power compensator or VAR support from these facilities becomes more significant. Poorly done, it can result in cycling or inadequate VAR support, and the local grid could experience excessive voltage regulation and, ultimately, instability. Improved wind turbine and distributed generation power control technologies are creating VAR support capabilities that can be used to enhance the voltage regulation and stability of local grids. Locating VAR support near the point of consumption, reducing step size, and making the control active all improve the performance of the grid. This paper presents and discusses alternatives for improving the integration of VAR support from distributed generation facilities such as wind farms. We also examine the relative effectiveness of distributed VAR support on the local grid and how it can b e integrated with the VAR support of the grid operator.

Romanowitz, H.; Muljadi, E.; Butterfield, C. P.; Yinger, R.

2004-07-01T23:59:59.000Z

114

Evaluation Framework and Tools for Distributed Energy Resources  

E-Print Network (OSTI)

data, and fuel prices. Baseload electric, cogeneration, anddata, and fuel prices. Baseload electric, cogeneration, andand the effect on the baseload fuels. X X Energy Information

Gumerman, Etan Z.; Bharvirkar, Ranjit R.; LaCommare, Kristina Hamachi; Marnay, Chris

2003-01-01T23:59:59.000Z

115

Distributed Energy Resource Optimization Using a Software as...  

NLE Websites -- All DOE Office Websites (Extended Search)

also conducted with the week-ahead DER- CAM to assess the CO 2 emissions reductions and energy cost savings from rescheduling electrical loads. Figure 1 shows an example result...

116

Economic Costs and Benefits of Distributed Energy Resources  

Science Conference Proceedings (OSTI)

The goal of this technical update is to provide an objective quantitative analysis of the current costs and benefits of DER, and thereby identify the factors that have the greatest impact on DER's cost-effectiveness. For the purposes of this analysis, DER as defined herein, are small generation units (1kW to 50MW), typically sited on the local T&D system and operated in parallel with the utility system. Energy storage technologies are not included in this technical update but may be considered in future ...

2004-12-27T23:59:59.000Z

117

Optimal Control of Distributed Energy Resources and Demand Response under Uncertainty  

E-Print Network (OSTI)

than relying on central-station electricity generation and purchase of natural gas for heating and DER under uncertain electricity and natural gas prices · Section 5 summarizes the findings Control of Distributed Energy Resources and Demand Response under Uncertainty 3 · FPt: wholesale natural

118

A Case Study on Integrated Distributed Energy Resources (IDER) Management; Device Installation and Commissioning: FirstEnergy Smart Grid Demonstration  

Science Conference Proceedings (OSTI)

The FirstEnergy Integrated Distributed Energy Resource (IDER) Management Project, deployed in the central region of the Jersey Central Power & Light (JCP&L) operating company, is designed to enhance distribution system operations, engineering and maintenance, and participation in regional power markets. The project is based on an infrastructure developed according to smart grid principles, and features an Integrated Control Platform (ICP) and two-way communication system for distribution ...

2013-12-17T23:59:59.000Z

119

2013 Grid Stategy: Operating the Grid with High Penetration of Distributed Energy Resources  

Science Conference Proceedings (OSTI)

Operating the distribution grid with an increasing amount of distributed energy resources (DER) is an area of focus for the electric utility industry and especially for the utilities within the Electric Power Research Institute’s (EPRI’s) multi-year Smart Grid Demonstration Initiative. This report provides a summary of the challenges and methods to overcome these challenges in planning for and operating the grid as the amount of DER increase and changes over time. In order to better ...

2013-12-23T23:59:59.000Z

120

Using Aggregated Distributed Energy Resources for Economic Dispatch to an Independent System Operator 2007 Update  

Science Conference Proceedings (OSTI)

Utility distribution companies and other organizations are interested in the potential of aggregating electricity generated by distributed energy resources (DER) and selling the power to the wholesale market during periods of peak system demand for a number of years. A few pilot projects have been undertaken, but this type of DER application remains uncommon. This project is one of several underway in EPRI's program to help identify and quantify the potential value and business case of DER. This report u...

2008-02-28T23:59:59.000Z

Note: This page contains sample records for the topic "distributed energy resource" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


121

Using Aggregated Distributed Energy Resources for Economic Dispatch to an Independent System Operator  

Science Conference Proceedings (OSTI)

Utility distribution companies and other organizations have been interested in the potential of aggregating electricity generated by distributed energy resources (DER) and selling the power to the wholesale market during periods of peak system demand for a number of years. A few pilot projects have been undertaken, but this type of DER application is uncommon. This project is one of several underway in EPRI's program to help identify and quantify the potential value and business case of DER. Also work in...

2007-03-30T23:59:59.000Z

122

Optimal Control of Distributed Energy Resources and Demand Response under Uncertainty  

E-Print Network (OSTI)

Energy Resources and Demand Response under Uncertainty AfzalEnergy Resources and Demand Response under Uncertainty ?DER in conjunction with demand response (DR): the expected

Siddiqui, Afzal

2010-01-01T23:59:59.000Z

123

DTE Energy Technologies With Detroit Edison Co. and Kinectrics Inc.: Distributed Resources Aggregation Modeling and Field Configuration Testing  

Science Conference Proceedings (OSTI)

Summarizes the work of DTE Energy Technologies, Detroit Edison, and Kinectrics, under contract to DOE's Distribution and Interconnection R&D, to develop distributed resources aggregation modeling and field configuration testing.

Not Available

2003-10-01T23:59:59.000Z

124

Advanced Communication and Control of Distributed Energy Resources at Detroit Edison  

DOE Green Energy (OSTI)

The project objective was to create the communication and control system, the process and the economic procedures that will allow owners (e.g., residential, commercial, industrial, manufacturing, etc.) of Distributed Energy Resources (DER) connected in parallel to the electric distribution to have their resources operated in a manner that protects the electric utility distribution network and personnel that may be working on the network. The Distribution Engineering Workstation (DEW) (a power flow and short circuit modeling tool) was modified to calculate the real-time characteristics of the distribution network based on the real-time electric distribution network information and provide DER operating suggestions to the Detroit Edison system operators so that regional electric stability is maintained. Part of the suggestion algorithm takes into account the operational availability of DER’s, which is known by the Energy Aggregator, DTE Energy Technologies. The availability information will be exchanged from DTE Energy Technologies to Detroit Edison. For the calculated suggestions to be used by the Detroit Edison operators, procedures were developed to allow an operator to operate a DER by requesting operation of the DER through DTE Energy Technologies. Prior to issuing control of a DER, the safety of the distribution network and personnel needs to be taken into account. This information will be exchanged from Detroit Edison to DTE Energy Technologies. Once it is safe to control the DER, DTE Energy Technologies will issue the control signal. The real-time monitoring of the DECo system will reflect the DER control. Multi-vendor DER technologies’ representing approximately 4 MW of capacity was monitored and controlled using a web-based communication path. The DER technologies included are a photovoltaic system, energy storage, fuel cells and natural gas/diesel internal combustion engine generators. This report documents Phase I result for the Detroit Edison (Utility) led team, which also includes: DTE Energy Technology (DER provider & Aggregator), Electrical Distribution Design (Virginia Tech company supporting DEW); Systems Integration Specialists Company (real-time protocol integrator); and OSIsoft (software system for managing real-time information). This work was performed in anticipation of being selected for Phase II of the Advanced Communication and Control of Distributed Energy Resources project.

Haukur Asgeirsson; Richard Seguin

2004-01-31T23:59:59.000Z

125

Model Predictive Control-based Optimal Coordination of Distributed Energy Resources  

SciTech Connect

Distributed energy resources, such as renewable energy resources (wind, solar), energy storage and demand response, can be used to complement conventional generators. The uncertainty and variability due to high penetration of wind makes reliable system operations and controls challenging, especially in isolated systems. In this paper, an optimal control strategy is proposed to coordinate energy storage and diesel generators to maximize wind penetration while maintaining system economics and normal operation performance. The goals of the optimization problem are to minimize fuel costs and maximize the utilization of wind while considering equipment life of generators and energy storage. Model predictive control (MPC) is used to solve a look-ahead dispatch optimization problem and the performance is compared to an open loop look-ahead dispatch problem. Simulation studies are performed to demonstrate the efficacy of the closed loop MPC in compensating for uncertainties and variability caused in the system.

Mayhorn, Ebony T.; Kalsi, Karanjit; Lian, Jianming; Elizondo, Marcelo A.

2013-01-07T23:59:59.000Z

126

Abstract--A scalable multi-agent paradigm is presented for control of distributed energy resources to achieve higher  

E-Print Network (OSTI)

1 Abstract-- A scalable multi-agent paradigm is presented for control of distributed energy these new distributed energy resources (DER) and providing new ancillary services that can improve or to reduce system operation costs. Power electronics have not only made grid connection of distributed energy

Tolbert, Leon M.

127

Distributed Energy Resources at Naval Base Ventura County Building 1512: A Sensitivity Analysis  

E-Print Network (OSTI)

of Water Resources energy service provider Federal EnergySCE) under a legacy energy service provider (ESP) contractcost of providing energy services to the site, through

Bailey, Owen C.; Marnay, Chris

2005-01-01T23:59:59.000Z

128

Distributed Resource Integration Framework  

Science Conference Proceedings (OSTI)

This report defines a framework for assessing current issues and considerations associated with the deployment and operation of distributed resources. The framework is a guide that can assist utility personnel, distributed resource owners, and other stakeholders in planning integration projects and in relating different integration projects to one another. The framework provides a structured organization of the various elements associated with distributed resource integration, including regulatory, busin...

2009-12-23T23:59:59.000Z

129

Tools, Methods, and Modeling for Dynamic Distribution Systems, Power Factor Guidelines: Power Control with Distributed Energy Resources  

Science Conference Proceedings (OSTI)

With the onset in the past few years of tax incentives, subsidies, and renewable portfolio standards for distributed energy resources (DER), utilities are experiencing increasing numbers of interconnection requests for both large, MW-class systems as well as small, residential-scale systems. As a result, utilities need methods for integrating DER without impacting system reliability or power quality for other customers, while also maintaining flexibility for future changes and minimizing ...

2013-12-19T23:59:59.000Z

130

A Smart Grid Reference Guide to Integration of Distributed Energy Resources: 2012 Version  

Science Conference Proceedings (OSTI)

The smart grid is a vital and comprehensive core element of the modernization of America’s electric delivery system for the 21st century. The EPRI Smart Grid Demonstration Initiative (SGDI) is a seven-year collaborative research effort focused on designing, implementing, and assessing field demonstrations that address prevalent challenges with integrating distributed energy resources (DER) into grid and market operations. With projects first beginning in 2009, 24 collaborating and host ...

2012-12-08T23:59:59.000Z

131

Distributed Energy Resources: Current Landscape and a Roadmap for the Future  

Science Conference Proceedings (OSTI)

This white paper is designed to help utilities, regulators, legislators, vendors, and other interested parties understand the current landscape of distributed energy resources (DER) in the United States by providing a benchmark status on technology, markets, applications, and business models that are active in this area. The white paper benchmarks various DER options and provides perspectives on trends, gaps, and critical factors for achieving pathways that will enable contributions to the future electri...

2004-12-16T23:59:59.000Z

132

Distributed energy resources customer adoption modeling with combined heat and power applications  

SciTech Connect

In this report, an economic model of customer adoption of distributed energy resources (DER) is developed. It covers progress on the DER project for the California Energy Commission (CEC) at Berkeley Lab during the period July 2001 through Dec 2002 in the Consortium for Electric Reliability Technology Solutions (CERTS) Distributed Energy Resources Integration (DERI) project. CERTS has developed a specific paradigm of distributed energy deployment, the CERTS Microgrid (as described in Lasseter et al. 2002). The primary goal of CERTS distributed generation research is to solve the technical problems required to make the CERTS Microgrid a viable technology, and Berkeley Lab's contribution is to direct the technical research proceeding at CERTS partner sites towards the most productive engineering problems. The work reported herein is somewhat more widely applicable, so it will be described within the context of a generic microgrid (mGrid). Current work focuses on the implementation of combined heat and power (CHP) capability. A mGrid as generically defined for this work is a semiautonomous grouping of generating sources and end-use electrical loads and heat sinks that share heat and power. Equipment is clustered and operated for the benefit of its owners. Although it can function independently of the traditional power system, or macrogrid, the mGrid is usually interconnected and exchanges energy and possibly ancillary services with the macrogrid. In contrast to the traditional centralized paradigm, the design, implementation, operation, and expansion of the mGrid is meant to optimize the overall energy system requirements of participating customers rather than the objectives and requirements of the macrogrid.

Siddiqui, Afzal S.; Firestone, Ryan M.; Ghosh, Srijay; Stadler, Michael; Edwards, Jennifer L.; Marnay, Chris

2003-07-01T23:59:59.000Z

133

Optimal Control of Distributed Energy Resources and Demand Response under Uncertainty  

E-Print Network (OSTI)

Hotel – Rio de Janeiro, Brazil Optimal Control of Distributed EnergyHotel – Rio de Janeiro, Brazil Optimal Control of Distributed EnergyHotel – Rio de Janeiro, Brazil Optimal Control of Distributed Energy

Siddiqui, Afzal

2010-01-01T23:59:59.000Z

134

Distributed Energy Resources at Naval Base Ventura County Building1512: A Sensitivity Analysis  

Science Conference Proceedings (OSTI)

This report is the second of a two-part study by BerkeleyLab of a DER (distributed energy resources) system at Navy Base VenturaCounty (NBVC). First, a preliminary assessment ofthe cost effectivenessof distributed energy resources at Naval Base Ventura County (NBVC)Building 1512 was conducted in response to the base s request for designassistance to the Federal Energy Management Program (Bailey and Marnay,2004). That report contains a detailed description of the site and theDER-CAM (Consumer Adoption Model) parameters used. This second reportcontains sensitivity analyses of key parameters in the DER system modelof Building 1512 at NBVC and additionally considers the potential forabsorption-powered refrigeration.The prior analysis found that under thecurrent tariffs, and given assumptions about the performance andstructure of building energy loads and available generating technologycharacteristics, installing a 600 kW DER system with absorption coolingand recovery heat capabilities could deliver cost savings of about 14percent, worth $55,000 per year. However, under current conditions, thisstudy also suggested that significant savings could be obtained ifBuilding 1512 changed from its current direct access contract to a SCETOU-8 (Southern California Edison time of use tariff number 8) ratewithout installing a DER system. Evaluated on this tariff, the potentialsavings from installation of a DER system would be about 4 percent of thetotal bill, or $16,000 per year.

Bailey, Owen C.; Marnay, Chris

2005-06-05T23:59:59.000Z

135

Distributed Energy Resource Optimization Using a Software as Service (SaaS)  

NLE Websites -- All DOE Office Websites (Extended Search)

Distributed Energy Resource Optimization Using a Software as Service (SaaS) Distributed Energy Resource Optimization Using a Software as Service (SaaS) Approach at the University of California, Davis Campus Title Distributed Energy Resource Optimization Using a Software as Service (SaaS) Approach at the University of California, Davis Campus Publication Type Report Year of Publication 2011 Authors Stadler, Michael, Chris Marnay, Jonathan Donadee, Judy Lai, Olivier MĂ©gel, Prajesh Bhattacharya, and Afzal S. Siddiqui Pagination 51 Date Published 02/2011 Publisher LBNL City Berkeley Keywords building optimization, distributed energy resources (der), electricity markets and policy group, energy analysis and environmental impacts department Abstract Together with OSIsoft LLC as its private sector partner and matching sponsor, the Lawrence Berkeley National Laboratory (Berkeley Lab) won an FY09 Technology Commercialization Fund (TCF) grant from the U.S. Department of Energy. The goal of the project is to commercialize Berkeley Lab's optimizing program, the Distributed Energy Resources Customer Adoption Model (DER-CAM) using a software as a service (SaaS) model with OSIsoft as its first non-scientific user. OSIsoft could in turn provide optimization capability to its software clients. In this way, energy efficiency and/or carbon minimizing strategies could be made readily available to commercial and industrial facilities. Specialized versions of DER-CAM dedicated to solving OSIsoft's customer problems have been set up on a server at Berkeley Lab. The objective of DER-CAM is to minimize the cost of technology adoption and operation or carbon emissions, or combinations thereof. DER-CAM determines which technologies should be installed and operated based on specific site load, price information, and performance data for available equipment options. An established user of OSIsoft's PI software suite, the University of California, Davis (UCD), was selected as a demonstration site for this project. UCD's participation in the project is driven by its motivation to reduce its carbon emissions. The campus currently buys electricity economically through the Western Area Power Administration (WAPA). The campus does not therefore face compelling cost incentives to improve the efficiency of its operations, but is nonetheless motivated to lower the carbon footprint of its buildings. Berkeley Lab attempted to demonstrate a scenario wherein UCD is forced to purchase electricity on a standard time-of-use tariff from Pacific Gas and Electric (PG&E), which is a concern to Facilities staff. Additionally, DER-CAM has been set up to consider the variability of carbon emissions throughout the day and seasons. Two distinct analyses of value to UCD are possible using this approach. First, optimal investment choices for buildings under the two alternative objectives can be derived. Second, a week-ahead building operations forecaster has been written that executes DER-CAM to find an optimal operating schedule for buildings given their expected building energy services requirements, electricity prices, and local weather. As part of its matching contribution, OSIsoft provided a full implementation of PI and a server to install it on at Berkeley Lab. Using the PItoPI protocol, this gives Berkeley Lab researchers direct access to UCD's PI data base. However, this arrangement is in itself inadequate for performing optimizations. Additional data not included in UCD's PI database would be needed and the campus was not able to provide this information. This report details the process, results, and lessons learned of this commercialization project.

136

Control Strategies for Distributed Energy Resources to Maximize the Use of Wind Power in Rural Microgrids  

Science Conference Proceedings (OSTI)

The focus of this paper is to design control strategies for distributed energy resources (DERs) to maximize the use of wind power in a rural microgrid. In such a system, it may be economical to harness wind power to reduce the consumption of fossil fuels for electricity production. In this work, we develop control strategies for DERs, including diesel generators, energy storage and demand response, to achieve high penetration of wind energy in a rural microgrid. Combinations of centralized (direct control) and decentralized (autonomous response) control strategies are investigated. Detailed dynamic models for a rural microgrid are built to conduct simulations. The system response to large disturbances and frequency regulation are tested. It is shown that optimal control coordination of DERs can be achieved to maintain system frequency while maximizing wind power usage and reducing the wear and tear on fossil fueled generators.

Lu, Shuai; Elizondo, Marcelo A.; Samaan, Nader A.; Kalsi, Karanjit; Mayhorn, Ebony T.; Diao, Ruisheng; Jin, Chunlian; Zhang, Yu

2011-10-10T23:59:59.000Z

137

Distributed energy resources in practice: A case study analysis and validation of LBNL's customer adoption model  

E-Print Network (OSTI)

Incentive Program , : 28 New York State Funding for EnergyState of Hawaii Energy, Resources, and Technology Web site, there are no incentivesEnergy Regulatory Committee (FERC) regulations individual states determine incentives

Bailey, Owen; Creighton, Charles; Firestone, Ryan; Marnay, Chris; Stadler, Michael

2003-01-01T23:59:59.000Z

138

Integrating Distributed Energy Resources into Emerging Electricity Markets: Scoping Study: Report of the E2I Distributed Energy Reso urces Public/Private Partnership  

Science Conference Proceedings (OSTI)

Distributed energy resources (DER) have the potential to significantly transform the relationship of utilities and customers by introducing a much richer set of tools for providing not only power, but also reliability, security, flexibility, and power quality in energy systems. However, deployment of DER has lagged far behind expectations. One of the most significant barriers is the manner in which the electricity industry has been built and historically operated -- to suit customer needs under a heavily...

2004-08-10T23:59:59.000Z

139

Case Studies and Methodologies for Using Distributed Energy Resources for Transmission and Distribution Support Applications  

Science Conference Proceedings (OSTI)

Utility transmission and distribution (T&D) systems require extensive investment for infrastructure upkeep. For some utilities, these investments may require a budget of $50 million or more annually. As much of the nation's T&D system was constructed decades ago, extensive maintenance is necessary simply to continue to operate these systems as designed. In addition, load growth over time is causing many parts of these systems to approach overloading conditions, which typically require upgrades to accommo...

2005-12-20T23:59:59.000Z

140

Connecting Distributed Energy Resources to the Grid: Their Benefits to the DER Owner etc.  

SciTech Connect

The vision of the Distributed Energy Research Program (DER) program of the U.S. Department of Energy (DOE) is that the United States will have the cleanest and most efficient and reliable energy system in the world by maximizing the use of affordable distributed energy resources. Electricity consumers will be able to choose from a diverse number of efficient, cost-effective, and environmentally friendly distributed energy options and easily connect them into the nation's energy infrastructure while providing benefits to their owners and other stakeholders. The long-term goal of this vision is that DER will achieve a 20% share of new electric capacity additions in the United States by 2010, thereby helping to make the nation's electric power generation and delivery system more efficient, reliable, secure, clean, economical, and diverse in terms of fuel use (oil, natural gas, solar, hydroelectric, etc.) and prime mover resource (solar, wind, gas turbines, etc.). Near- and mid-term goals are to develop new technologies for implementing and operating DER and address barriers associated with DER usage and then to reduce costs and emissions and improve the efficiency and reliability of DER. Numerous strategies for meeting these goals have been developed into a research, development, and demonstration (RD&D) program that supports generation and delivery systems architecture, including modeling and simulation tools. The benefits associated with DER installations are often significant and numerous. They almost always provide tangible economic benefits, such as energy savings or transmission and distribution upgrade deferrals, as well as intangible benefits, such as power quality improvements that lengthen maintenance or repair intervals for power equipment. Also, the benefits routinely are dispersed among end users, utilities, and the public. For instance, an end user may use the DER to reduce their peak demand and save money due to lower demand charges. Reduced end user peak demand, in turn, may lower a distribution system peak load such that upgrades are deferred or avoided. This could benefit other consumers by providing them with higher reliability and power quality as well as avoiding their cost share of a distribution system upgrade. In this example, the costs of the DER may be born by the end user, but that user reaps only a share of the benefits. This report, the first product of a study to quantify the value of DER, documents initial project efforts to develop an assessment methodology. The focus of currently available site-specific DER assessment techniques are typically limited to two parties, the owner/user and the local utility. Rarely are the impacts on other stakeholders, including interconnected distribution utilities, transmission system operators, generating system operators, other local utility customers, local and regional industry and business, various levels of government, and the environment considered. The goal of this assessment is to quantify benefits and cost savings that accrue broadly across a region, recognizing that DER installations may have local, regional, or national benefits.

Poore, WP

2003-07-09T23:59:59.000Z

Note: This page contains sample records for the topic "distributed energy resource" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


141

Optimal Control of Distributed Energy Resources and Demand Response under Uncertainty  

Science Conference Proceedings (OSTI)

We take the perspective of a microgrid that has installed distribution energy resources (DER) in the form of distributed generation with combined heat and power applications. Given uncertain electricity and fuel prices, the microgrid minimizes its expected annual energy bill for various capacity sizes. In almost all cases, there is an economic and environmental advantage to using DER in conjunction with demand response (DR): the expected annualized energy bill is reduced by 9percent while CO2 emissions decline by 25percent. Furthermore, the microgrid's risk is diminished as DER may be deployed depending on prevailing market conditions and local demand. In order to test a policy measure that would place a weight on CO2 emissions, we use a multi-criteria objective function that minimizes a weighted average of expected costs and emissions. We find that greater emphasis on CO2 emissions has a beneficial environmental impact only if DR is available and enough reserve generation capacity exists. Finally, greater uncertainty results in higher expected costs and risk exposure, the effects of which may be mitigated by selecting a larger capacity.

Siddiqui, Afzal; Stadler, Michael; Marnay, Chris; Lai, Judy

2010-06-01T23:59:59.000Z

142

Assessment of Distributed Resource Technologies  

Science Conference Proceedings (OSTI)

This report assesses the current status and prospects for future improvements of distributed resource (DR) technologies: microturbines, PEM fuel cells, solid oxide fuel cells, molten carbonate fuel cells, phosphoric acid fuel cells, reciprocating engines, combustion turbines, stirling engines, and energy storage devices. It also assesses the communications, interconnection, and control systems used by these devices.

1999-12-14T23:59:59.000Z

143

Simulating Price Responsive Distributed Resources  

SciTech Connect

Distributed energy resources (DER) include distributed generation, storage, and responsive demand. The integration of DER into the power system control framework is part of the evolutinary advances that allow these resources to actively particpate in the energy balance equation. Price can provide a powerful signal for independent decision-making in distributed control strategies. To study the impact of price responsive DER on the electric power system requires generation and load models that can capture the dynamic coupling between the energy market and the physical operation of the power system in appropriate time frames. This paper presents modeling approaches for simulating electricity market price responsive DER, and introduces a statistical mechanics approach to modeling the aggregated response of a transformed electric system of pervasive, transacting DER.

Lu, Ning; Chassin, David P.; Widergren, Steven E.

2004-10-15T23:59:59.000Z

144

Impact of Distributed Energy Resources on the Reliability of Critical Telecommunications Facilities: Preprint  

DOE Green Energy (OSTI)

This paper documents a probabilistic risk assessment of existing and alternative power supply systems at a large telecommunications office. The analysis characterizes the increase in the reliability of power supply through the use of two alternative power configurations. Failures in the power systems supporting major telecommunications service nodes are a main contributor to significant telecommunications outages. A logical approach to improving the robustness of telecommunication facilities is to increase the depth and breadth of technologies available to restore power during power outages. Distributed energy resources such as fuel cells and gas turbines could provide additional on-site electric power sources to provide backup power, if batteries and diesel generators fail. The analysis is based on a hierarchical Bayesian approach and focuses on the failure probability associated with each of three possible facility configurations, along with assessment of the uncertainty or confidence level in the probability of failure. A risk-based characterization of final best configuration is presented.

Robinson, D. G.; Arent, D. J.; Johnson, L.

2006-06-01T23:59:59.000Z

145

Distributed Energy Resources at Naval Base Ventura County Building 1512: A Sensitivity Analysis  

E-Print Network (OSTI)

DA) tariff DER Install Tariffs Energy and Demand Gas pricesCapital cost O&M cost Tariff Energy charge ($/kWh) DemandTariff .53 iv Distributed Energy

Bailey, Owen C.; Marnay, Chris

2005-01-01T23:59:59.000Z

146

Status of the IEEE P1547 Draft Interconnection Standard and Distributed Energy Resources R&D: Preprint  

DOE Green Energy (OSTI)

The Department of Energy (DOE) Distributed Power Program (DPP) is conducting work to complete, validate in the field, and support the development of a national interconnection standard for distributed energy resources (DER), and to address the institutional and regulatory barriers slowing the commercial adoption of DER systems. This work includes support for the IEEE standards, including P1547 Standard for Interconnecting Distributed Resources with Electric Power Systems, P1589 Standard for Conformance Test Procedures for Equipment Interconnecting Distributed Resources with Electric Power Systems, and the P1608 Application Guide. Work is also in progress on system integration research and development (R&D) on the interface and control of DER with local energy systems. Additional efforts are supporting high-reliability power for industry, evaluating innovative concepts for DER applications, and exploring plug-and-play interface and control technologies for intelligent autonomous interconnection systems. This paper summarizes (1) the current status of the IEEE interconnection standards and application guides in support of DER, and (2) the R&D in progress at the National Renewable Energy Laboratory (NREL) for interconnection and system integration and application of distributed energy resources.

Thomas, H. P.; Basso, T. S.; Kroposki, B.

2002-05-01T23:59:59.000Z

147

Using Distributed Energy Resources to Supply Reactive Power for Dynamic Voltage Regulation  

Science Conference Proceedings (OSTI)

Abstract Distributed energy (DE) resources are power sources located near load centers and equipped with power electronics converters to interface with the grid, therefore it is feasible for DE to provide reactive power (along with active power) locally for dynamic voltage regulation. In this paper, a synchronous condenser and a DE source with an inverter interface are implemented in parallel in a distribution system to regulate the local voltage. Developed voltage control schemes for the inverter and the synchronous condenser are presented. Experimental results show that both the inverter and the synchronous condenser can regulate the local voltage instantaneously although the dynamic response of the inverter is much faster than the synchronous condenser. In a system with multiple DEs performing local voltage regulation, the interaction of multiple DE at different locations under different load levels may have an impact to the control parameter setting for each individual DE control system. Future research is needed to find out the interaction of DEs to identify the optimal control parameter settings with the consideration of many factors such as system configuration, load variation, and so on

Xu, Yan [ORNL; Li, Fangxing [ORNL; Li, Huijuan [University of Tennessee, Knoxville (UTK); Rizy, D Tom [ORNL; Kueck, John D [ORNL

2008-01-01T23:59:59.000Z

148

Experiment and Simulation of Dynamic Voltage Regulation in Multiple Distributed Energy Resources Systems  

Science Conference Proceedings (OSTI)

Distributed energy (DE) resources are power sources located near load centers and equipped with power electronics converters to interface with the grid, therefore it is feasible for DE to provide reactive power (along with active power) locally for dynamic voltage regulation. In this paper, a synchronous condenser and a microturbine with an inverter interface are implemented in parallel in a distribution system to regulate the local voltage. Developed voltage control schemes for the inverter and the synchronous condenser are presented. Experimental results show that both the inverter and the synchronous condenser can regulate the local voltage instantaneously although the dynamic response of the inverter is much faster than the synchronous condenser. In a system with multiple DEs performing local voltage regulation, the interaction between the DEs is studied. The simulation results show the relationship between the voltages in the system and the reactive power required for the voltage regulation. Also, integrated voltage regulation (multiple DEs performing voltage regulation) can increase the voltage regulation capability of DEs and reduce the capital and operating costs.

Xu, Yan [ORNL; Li, Fangxing [ORNL; Kueck, John D [ORNL; Rizy, D Tom [ORNL

2007-01-01T23:59:59.000Z

149

Impact of Distributed Energy Resources on the Reliability of a Critical Telecommunications Facility  

DOE Green Energy (OSTI)

Telecommunications has been identified by the Department of Homeland Security as a critical infrastructure to the United States. Failures in the power systems supporting major telecommunications service nodes are a main contributor to major telecommunications outages, as documented by analyses of Federal Communications Commission (FCC) outage reports by the National Reliability Steering Committee (under auspices of the Alliance for Telecommunications Industry Solutions). There are two major issues that are having increasing impact on the sensitivity of the power distribution to telecommunication facilities: deregulation of the power industry, and changing weather patterns. A logical approach to improve the robustness of telecommunication facilities would be to increase the depth and breadth of technologies available to restore power in the face of power outages. Distributed energy resources such as fuel cells and gas turbines could provide one more onsite electric power source to provide backup power, if batteries and diesel generators fail. But does the diversity in power sources actually increase the reliability of offered power to the office equipment, or does the complexity of installing and managing the extended power system induce more potential faults and higher failure rates? This report analyzes a system involving a telecommunications facility consisting of two switch-bays and a satellite reception system.

Robinson, D.; Atcitty, C.; Zuffranieri, J.; Arent, D.

2006-03-01T23:59:59.000Z

150

Energy Basics: Geothermal Resources  

NLE Websites -- All DOE Office Websites (Extended Search)

Energy Basics Renewable Energy Printable Version Share this resource Biomass Geothermal Direct Use Electricity Production Geothermal Resources Hydrogen Hydropower Ocean...

151

Energy Basics: Hydropower Resources  

Office of Energy Efficiency and Renewable Energy (EERE) Indexed Site

Energy Basics Renewable Energy Printable Version Share this resource Biomass Geothermal Hydrogen Hydropower Large-Scale Hydropower Microhydropower Hydropower Resources...

152

Distributed Energy Resources On-Site Optimization for Commercial Buildings with Electric and Thermal Storage Technologies  

E-Print Network (OSTI)

Systems, forthcoming 2008. Microgrid Symposium. Held atand carbon emissions, a microgrid’s distributed energyIn this paper, a microgrid is defined as a cluster of

Stadler, Michael

2008-01-01T23:59:59.000Z

153

Distributed Energy Resources On-Site Optimization for Commercial Buildings with Electric and Thermal Storage Technologies  

SciTech Connect

The addition of storage technologies such as flow batteries, conventional batteries, and heat storage can improve the economic as well as environmental attractiveness of on-site generation (e.g., PV, fuel cells, reciprocating engines or microturbines operating with or without CHP) and contribute to enhanced demand response. In order to examine the impact of storage technologies on demand response and carbon emissions, a microgrid's distributed energy resources (DER) adoption problem is formulated as a mixed-integer linear program that has the minimization of annual energy costs as its objective function. By implementing this approach in the General Algebraic Modeling System (GAMS), the problem is solved for a given test year at representative customer sites, such as schools and nursing homes, to obtain not only the level of technology investment, but also the optimal hourly operating schedules. This paper focuses on analysis of storage technologies in DER optimization on a building level, with example applications for commercial buildings. Preliminary analysis indicates that storage technologies respond effectively to time-varying electricity prices, i.e., by charging batteries during periods of low electricity prices and discharging them during peak hours. The results also indicate that storage technologies significantly alter the residual load profile, which can contribute to lower carbon emissions depending on the test site, its load profile, and its adopted DER technologies.

Lacommare, Kristina S H; Stadler, Michael; Aki, Hirohisa; Firestone, Ryan; Lai, Judy; Marnay, Chris; Siddiqui, Afzal

2008-05-15T23:59:59.000Z

154

Distributed Energy Resources On-Site Optimization for Commercial Buildings with Electric and Thermal Storage Technologies  

SciTech Connect

The addition of storage technologies such as flow batteries, conventional batteries, and heat storage can improve the economic as well as environmental attractiveness of on-site generation (e.g., PV, fuel cells, reciprocating engines or microturbines operating with or without CHP) and contribute to enhanced demand response. In order to examine the impact of storage technologies on demand response and carbon emissions, a microgrid's distributed energy resources (DER) adoption problem is formulated as a mixed-integer linear program that has the minimization of annual energy costs as its objective function. By implementing this approach in the General Algebraic Modeling System (GAMS), the problem is solved for a given test year at representative customer sites, such as schools and nursing homes, to obtain not only the level of technology investment, but also the optimal hourly operating schedules. This paper focuses on analysis of storage technologies in DER optimization on a building level, with example applications for commercial buildings. Preliminary analysis indicates that storage technologies respond effectively to time-varying electricity prices, i.e., by charging batteries during periods of low electricity prices and discharging them during peak hours. The results also indicate that storage technologies significantly alter the residual load profile, which can contribute to lower carbon emissions depending on the test site, its load profile, and its adopted DER technologies.

Lacommare, Kristina S H; Stadler, Michael; Aki, Hirohisa; Firestone, Ryan; Lai, Judy; Marnay, Chris; Siddiqui, Afzal

2008-05-15T23:59:59.000Z

155

Instantaneous Active and Nonactive Power Control of Distributed Energy Resources with Current Limiter  

SciTech Connect

Abstract -- Distributed energy resources (DER) with a power electronics inverter interface can provide both active power and nonactive power simultaneously and independently. A decoupled control algorithm of active power and nonactive power is developed based on the instantaneous active power and nonactive power theory. A current limiter is combined to the control algorithm, and it ensures that the inverter is not overloaded. During the normal system operation, the active power has higher priority over the nonactive power so that the energy from a DER can be fully transferred to the grid. Within the inverter s capability, nonactive power is provided to the grid as required. With this control algorithm, the inverter s capabilities are taken full advantage at all times, both in terms of functionality as well as making use of its full KVA rating. Through the algorithm, the inverter s active power and nonactive power are controlled directly, simultaneously, and independently. Several experimental results fully demonstrate the validity and effectiveness of this new control algorithm. As evidenced by the fast dynamic response that results, a DER system with the control algorithm can provide full services to the grid in both steady state and during transient events.

Xu, Yan [ORNL; Li, Huijuan [ORNL; Rizy, D Tom [ORNL; Li, Fangxing [ORNL; Kueck, John D [ORNL

2010-01-01T23:59:59.000Z

156

Utilization of Energy Efficiency and Demand Response as Resources for Transmission and Distribution Planning  

Science Conference Proceedings (OSTI)

EPRI began its Energy Efficiency Initiative in early 2007. Initiative research, which covers numerous topics associated with energy efficiency and demand management, is categorized into three areas: analytics, infrastructure, and devices. The project described in this report details the Initiative’s analytics element, which deals with methods and tools for analyzing aspects of the use of energy efficiency as supply resource, including measurement and verification, inclusion in generation planning, emissi...

2008-02-05T23:59:59.000Z

157

Impact of distributed energy resources on the reliability of a critical telecommunications facility.  

DOE Green Energy (OSTI)

This report documents a probabilistic risk assessment of an existing power supply system at a large telecommunications office. The focus is on characterizing the increase in the reliability of power supply through the use of two alternative power configurations. Telecommunications has been identified by the Department of Homeland Security as a critical infrastructure to the United States. Failures in the power systems supporting major telecommunications service nodes are a main contributor to major telecommunications outages. A logical approach to improve the robustness of telecommunication facilities would be to increase the depth and breadth of technologies available to restore power in the face of power outages. Distributed energy resources such as fuel cells and gas turbines could provide one more onsite electric power source to provide backup power, if batteries and diesel generators fail. The analysis is based on a hierarchical Bayesian approach and focuses on the failure probability associated with each of three possible facility configurations, along with assessment of the uncertainty or confidence level in the probability of failure. A risk-based characterization of final best configuration is presented.

Robinson, David; Zuffranieri, Jason V.; Atcitty, Christopher B.; Arent, Douglas (National Renewable Energy Laboratory, Golden, CO)

2006-03-01T23:59:59.000Z

158

Distributed energy resources in practice: A case study analysis and validation of LBNL's customer adoption model  

SciTech Connect

This report describes a Berkeley Lab effort to model the economics and operation of small-scale (<500 kW) on-site electricity generators based on real-world installations at several example customer sites. This work builds upon the previous development of the Distributed Energy Resource Customer Adoption Model (DER-CAM), a tool designed to find the optimal combination of installed equipment, and idealized operating schedule, that would minimize the site's energy bills, given performance and cost data on available DER technologies, utility tariffs, and site electrical and thermal loads over a historic test period, usually a recent year. This study offered the first opportunity to apply DER-CAM in a real-world setting and evaluate its modeling results. DER-CAM has three possible applications: first, it can be used to guide choices of equipment at specific sites, or provide general solutions for example sites and propose good choices for sites with similar circumstances; second, it can additionally provide the basis for the operations of installed on-site generation; and third, it can be used to assess the market potential of technologies by anticipating which kinds of customers might find various technologies attractive. A list of approximately 90 DER candidate sites was compiled and each site's DER characteristics and their willingness to volunteer information was assessed, producing detailed information on about 15 sites of which five sites were analyzed in depth. The five sites were not intended to provide a random sample, rather they were chosen to provide some diversity of business activity, geography, and technology. More importantly, they were chosen in the hope of finding examples of true business decisions made based on somewhat sophisticated analyses, and pilot or demonstration projects were avoided. Information on the benefits and pitfalls of implementing a DER system was also presented from an additional ten sites including agriculture, education, health care, airport, and manufacturing facilities.

Bailey, Owen; Creighton, Charles; Firestone, Ryan; Marnay, Chris; Stadler, Michael

2003-02-01T23:59:59.000Z

159

Energy Basics: Wind Energy Resources  

Office of Energy Efficiency and Renewable Energy (EERE) Indexed Site

Energy Basics Renewable Energy Printable Version Share this resource Biomass Geothermal Hydrogen Hydropower Ocean Solar Wind Wind Turbines Wind Resources Wind Energy...

160

Assessment of (mu)grid distributed energy resource potential using DER-CAM and GIS  

E-Print Network (OSTI)

6 p ($/kW) Regulated tariff for energy purchases during hourtariff customer charge for gas ($) Distributed Energyenergy- purchase scenarios: the SDG&E time-of-use (TOU) tariff

Edwards, Jennifer L.; Marnay, Chris; Bartholomew, Emily; Ouaglal, Boubekeur; Siddiqui, Afzal S.; LaCommare, Kristina S.H.

2002-01-01T23:59:59.000Z

Note: This page contains sample records for the topic "distributed energy resource" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


161

Energy Efficiency Resource Standards | Department of Energy  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Energy Efficiency Resource Standards Energy Efficiency Resource Standards Energy Efficiency Resource Standards < Back Eligibility Investor-Owned Utility Municipal Utility Rural Electric Cooperative Savings Category Other Program Info State Delaware Program Type Energy Efficiency Resource Standard Provider Delaware Department of Natural Resources and Environmental Control In July 2009 the Delaware legislature enacted legislation creating energy savings targets for Delaware's investor-owned, municipal, and cooperative electric utilities, as well the state's natural gas distribution companies. These targets are hereafter referred to collectively as the Delaware Energy Efficiency Resource Standard or EERS. The law requires affected electric utilities to establish programs which save the equivalent

162

The Influence of a CO2 Pricing Scheme on Distributed Energy Resources in  

E-Print Network (OSTI)

pricing scheme or a feed-in tariff (FiT), and show their contributions to the California Air Resources Program, under Work for Others Contract No. 500-07-043, 500-99-013 and by the U.S. Department of Energy tariffs of major utilities, and expected performance data of available technologies in 2020, we find

163

Advanced Communication and Control for Distributed Energy Resource Integration: Phase 2 Scientific Report  

Science Conference Proceedings (OSTI)

The objective of this research project is to demonstrate sensing, communication, information and control technologies to achieve a seamless integration of multivendor distributed energy resource (DER) units at aggregation levels that meet individual user requirements for facility operations (residential, commercial, industrial, manufacturing, etc.) and further serve as resource options for electric and natural gas utilities. The fully demonstrated DER aggregation system with embodiment of communication and control technologies will lead to real-time, interactive, customer-managed service networks to achieve greater customer value. Work on this Advanced Communication and Control Project (ACCP) consists of a two-phase approach for an integrated demonstration of communication and control technologies to achieve a seamless integration of DER units to reach progressive levels of aggregated power output. Phase I involved design and proof-of-design, and Phase II involves real-world demonstration of the Phase I design architecture. The scope of work for Phase II of this ACCP involves demonstrating the Phase I design architecture in large scale real-world settings while integrating with the operations of one or more electricity supplier feeder lines. The communication and control architectures for integrated demonstration shall encompass combinations of software and hardware components, including: sensors, data acquisition and communication systems, remote monitoring systems, metering (interval revenue, real-time), local and wide area networks, Web-based systems, smart controls, energy management/information systems with control and automation of building energy loads, and demand-response management with integration of real-time market pricing. For Phase II, BPL Global shall demonstrate the Phase I design for integrating and controlling the operation of more than 10 DER units, dispersed at various locations in one or more Independent System Operator (ISO) Control Areas, at an aggregated scale of more than 1 MW, to provide grid support. Actual performance data with respect to each specified function above is to be collected during the Phase II field demonstration. At a minimum, the Phase II demonstration shall span one year of field operations. The demonstration performance will need to be validated by the target customer(s) for acceptance and subsequent implementation. An ISO must be involved in demonstration planning and execution. As part of the Phase II work, BPL Global shall develop a roadmap to commercialization that identifies and quantifies the potential markets for the integrated, aggregated DER systems and for the communication and control technologies demonstrated in Phase I. In addition, the roadmap must identify strategies and actions, as well as the regional and national markets where the aggregated DER systems with communication and control solutions will be introduced, along with a timeline projected for introduction into each identified market. In Phase I of this project, we developed a proof-of-concept ACCP system and architecture and began to test its functionality at real-world sites. These sites had just over 10 MW of DERs and allowed us to identify what needed to be done to commercialize this concept. As a result, we started Phase II by looking at our existing platform and identified its strengths and weaknesses as well as how it would need to evolve for commercialization. During this process, we worked with different stakeholders in the market including: Independent System Operators, DER owners and operators, and electric utility companies to fully understand the issues from all of the different perspectives. Once we had an understanding of the commercialized ACCP system, we began to document and prepare detailed designs of the different system components. The components of the system with the most significant design improvements were: the on-site remote terminal unit, the communication technology between the remote site and the data center, and the scalability and reliability of the data center application.

BPL Global

2008-09-30T23:59:59.000Z

164

Energy Basics: Ocean Resources  

Office of Energy Efficiency and Renewable Energy (EERE) Indexed Site

Energy Basics Renewable Energy Printable Version Share this resource Biomass Geothermal Hydrogen Hydropower Ocean Ocean Thermal Energy Conversion Tidal Energy Wave Energy...

165

Energy Basics: Solar Energy Resources  

Office of Energy Efficiency and Renewable Energy (EERE) Indexed Site

Energy Basics Renewable Energy Printable Version Share this resource Biomass Geothermal Hydrogen Hydropower Ocean Solar Photovoltaics Concentrating Solar Power Solar...

166

Energy Efficiency Resource Standard | Department of Energy  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Efficiency Resource Standard Efficiency Resource Standard Energy Efficiency Resource Standard < Back Eligibility Investor-Owned Utility Utility Program Info State Rhode Island Program Type Energy Efficiency Resource Standard Provider Rhode Island Public Utilities Commission Rhode Island enacted legislation in 2006 requiring the state Public Utilities Commission (PUC) to establish standards for system reliability, energy efficiency and conservation procurement, including standards for energy supply diversification, distributed generation, demand response, and "prudent and reliable" energy efficiency and energy conservation measures. These standards and guidelines, which were adopted by the PUC in 2008, must be reviewed at least once every three years. Each electric and natural gas

167

Energy Basics: Ocean Resources  

Office of Energy Efficiency and Renewable Energy (EERE) Indexed Site

Resources Although the potential for ocean energy technologies is believed to be very large, no comprehensive studies have been conducted to date to determine an accurate resource...

168

Resources | Department of Energy  

NLE Websites -- All DOE Office Websites (Extended Search)

Roundtables START Program Technical Assistance Tribal Energy Program Tribal Summit The Office of Indian Energy provides the following resources to assist Tribes with energy...

169

Distributed Energy Resources On-Site Optimization for Commercial Buildings with Electric and Thermal Storage Technologies  

E-Print Network (OSTI)

and N. Zhou, “Distributed Generation with Heat Recovery andattractiveness of distributed generation with storage. Thecosts for distributed generation (DG) investments. The

Stadler, Michael

2008-01-01T23:59:59.000Z

170

Optimal Control of Distributed Energy Resources and Demand Response under Uncertainty  

E-Print Network (OSTI)

N Zhou (2007), “Distributed Generation with Heat Recoveryin the form of distributed generation with combined heat andcapacity. Keywords: Distributed generation, demand response,

Siddiqui, Afzal

2010-01-01T23:59:59.000Z

171

Distributed Energy Resources at Naval Base Ventura County Building 1512: A Sensitivity Analysis  

E-Print Network (OSTI)

Adoption Model distributed generation building energyand fuel costs of the distributed generation (DG) equipment,refers to “clean distributed generation technologies,” such

Bailey, Owen C.; Marnay, Chris

2005-01-01T23:59:59.000Z

172

Energy Resource Library  

Energy.gov (U.S. Department of Energy (DOE))

The Office of Indian Energy resource library provides links to helpful resources for Tribes on energy project development and financing in Indian Country. The library includes links to more than 85...

173

The Influence of a CO2 Pricing Scheme on Distributed Energy Resources in California's Commercial Buildings  

E-Print Network (OSTI)

N. et al. , (2007), “Microgrids, An Overview of Ongoingof Commercial-Building Microgrids,” IEEE Transactions onenergy resources, GHG control, microgrids, policies The work

Stadler, Michael

2010-01-01T23:59:59.000Z

174

NREL: Energy Storage - Resources  

NLE Websites -- All DOE Office Websites (Extended Search)

Resources The National Renewable Energy Laboratory's (NREL) Energy Storage team and partners work within a variety of programs that have created test manuals to establish standard...

175

Distributed energy resources in practice: A case study analysis and validation of LBNL's customer adoption model  

E-Print Network (OSTI)

project costs and/or energy tariff reductions. Determiningor variable loads? Energy Prices/Tariffs 1. Which utilitydone by CDH Energy and the LIPA tariff structure. These

Bailey, Owen; Creighton, Charles; Firestone, Ryan; Marnay, Chris; Stadler, Michael

2003-01-01T23:59:59.000Z

176

Optimal Control of Distributed Energy Resources and Demand Response under Uncertainty  

E-Print Network (OSTI)

Solution Procedure for SDP Energy Prices We use electricityLondon for assistance with energy price modeling. Siddiquiof DER under uncertain energy prices with demand response

Siddiqui, Afzal

2010-01-01T23:59:59.000Z

177

Optimal Control of Distributed Energy Resources and Demand Response under Uncertainty  

E-Print Network (OSTI)

and Storage,” Journal of Energy Engineering 133(3): 181–Power Adoption,” Journal of Energy Engineering [6] Siddiqui,

Siddiqui, Afzal

2010-01-01T23:59:59.000Z

178

Distributed Energy Calculator | Open Energy Information  

Open Energy Info (EERE)

Distributed Energy Calculator Distributed Energy Calculator Jump to: navigation, search Tool Summary LAUNCH TOOL Name: Distributed Energy Calculator Agency/Company /Organization: Apps for Energy Challenge Participant Sector: Energy Resource Type: Application prototype User Interface: Website Website: distributedenergycalculator.com/ OpenEI Keyword(s): Challenge Generated, Green Button Apps Language: English References: Apps for Energy[1] The Distributed Energy Calculator allows you to explore the potential energy savings for your community using Solar, Small Wind or Microturbines. The Distributed Energy Calculator allows you to explore the potential energy savings for your community using Solar, Small Wind or Microturbines. You can upload Green Button Data to compare your utility energy costs to

179

Distributed Resources Week 1997: EPRI's Third Annual Distributed Resources Conference  

Science Conference Proceedings (OSTI)

Distributed Resources (DR) Week held its third annual meeting in 1997. By including nonmembers for the first time, DR Week 1997-Business Solutions for a Competitive Environment set out to build a broader constituency of DR supporters and facilitate strategic alliances and partnerships with other organizations.

1998-03-23T23:59:59.000Z

180

Strategic Overview of Distributed Resources  

Science Conference Proceedings (OSTI)

Nearly every sector of the electric power industry is paying more attention to distributed resources (DR). The utility industry is exploring DR's impact on and application to the transmission and distribution system and as an alternative or supplement to central plant generation. Other stakeholders are examining opportunities in product sales and use of DR in residential, commercial, institutional, and industrial market segments. To more fully understand DR's current status, this report reviews the DR ma...

2000-04-11T23:59:59.000Z

Note: This page contains sample records for the topic "distributed energy resource" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


181

Distributed Energy Resources and Control: A power system point of view  

E-Print Network (OSTI)

intelligent control systems that can manage both the electrical and financial operation of the grid and new. In a distributed controller, data may be processed and e.g. reduced locally, supervised or remote that are solved locally, using local data. Then, information is shared between local distributed control centers

182

The Influence of a CO2 Pricing Scheme on Distributed Energy Resources in California's Commercial Buildings  

E-Print Network (OSTI)

energy loads, 10 detailed electricity and natural gas tariffs,energy) and 2.83 (demand charge); • electric peak load 200 kW – 499 kW: tarifftariff has a fixed charge plus time-of-use (TOU) pricing for both energy and

Stadler, Michael

2010-01-01T23:59:59.000Z

183

Distributed Energy Resource Optimization Using a Software as Service (SaaS) Approach at the  

E-Print Network (OSTI)

Load Electricity input to Flow Battery Figure 16: The Forecasted Energy Needs and DG Operating Schedule Electricity Only load Figure 18 Forecast Energy Demand and Energy Demand Rescheduled to Minimize Cost under PG electrical loads. Figure 1 shows an example result of the investment and planning optimization running in Web

184

A Local Market Model for Urban Residential Microgrids with Distributed Energy Resources  

Science Conference Proceedings (OSTI)

Widespread adoption of onsite distributed generation providing households with their electricity supply could make them very significant actors in terms of their aggregated impact on the wider electric power system. This paper proposes an approach which ...

Aquil Jalia; Nicholas Honeth; Claes Sandels; Lars Nordstrom

2012-01-01T23:59:59.000Z

185

Distributed Energy Resources at Naval Base Ventura County Building 1512: A Sensitivity Analysis  

E-Print Network (OSTI)

a lithium bromide absorption chiller that produces a liquidthermal energy for an absorption chiller to supply liquidthe refrigerated area. ) The absorption chiller assists the

Bailey, Owen C.; Marnay, Chris

2005-01-01T23:59:59.000Z

186

The Influence of a CO2 Pricing Scheme on Distributed Energy Resources in California's Commercial Buildings  

E-Print Network (OSTI)

Firestone 2004, EPRI-DOE Handbook 2003, Mechanical Cost Datahttp://der.lbl.gov) EPRI-DOE Handbook of Energy Storage for

Stadler, Michael

2010-01-01T23:59:59.000Z

187

The Influence of a CO2 Pricing Scheme on Distributed Energy Resources...  

NLE Websites -- All DOE Office Websites (Extended Search)

The Ernest Orlando Lawrence Berkeley National Laboratory (LBNL) is working with the California Energy Commission (CEC) to determine the potential role of commercial-sector...

188

Energy Basics: Geothermal Resources  

Office of Energy Efficiency and Renewable Energy (EERE) Indexed Site

EERE: Energy Basics Geothermal Resources Although geothermal heat pumps can be used almost anywhere, most direct-use and electrical production facilities in the United States are...

189

Distributed Energy Resources at Naval Base Ventura County Building 1512: A Sensitivity Analysis  

E-Print Network (OSTI)

power generation could shift the building’s energy source from almost all electricity, as it is now, to mostly natural gaspower generation would shift the building’s energy source from almost all electricity (as it is now) to mostly natural gas

Bailey, Owen C.; Marnay, Chris

2005-01-01T23:59:59.000Z

190

Optimal Control of Distributed Energy Resources and Demand Response under Uncertainty  

E-Print Network (OSTI)

and Demand Response under Uncertainty • F P t : wholesale natural gasdemand response and DER under uncertain electricity and natural gasand Demand Response under Uncertainty Energy Price Models We assume that the logarithms of the deseasonalized electricity and natural gas

Siddiqui, Afzal

2010-01-01T23:59:59.000Z

191

Energy Basics: Wind Energy Resources  

Office of Energy Efficiency and Renewable Energy (EERE) Indexed Site

Resources Wind energy can be produced anywhere in the world where the wind blows with a strong and consistent force. Windier locations produce more energy, which lowers the cost of...

192

Letter Report on Testing of Distributed Energy Resource, Microgrid, and End-Use  

E-Print Network (OSTI)

Prius Hybrid vehicles from the Hawaii State Motor Pool become available. These vehicles were converted at no-cost to this project and included in the Hymotion Prius Conversion PHEV Demonstration program run.energy.gov/vehiclesandfuels/avta/pdfs/phev/hymotion_prius_wrapup_inl-ext-11- 23746.pdf. In addition, due

193

Air Quality Impacts of Distributed Energy Resources Implemented in the Northeastern United States  

E-Print Network (OSTI)

Marc Carreras-Sospedra and Donald Dabdub Department of Mechanical and Aerospace Engineering, The Henry Samueli School of Engineering, University of California­Irvine, Irvine, CA Jacob Brouwer Advanced Power and Energy Program, National Fuel Cell Research Center, The Henry Samueli School of Engineering, University

Dabdub, Donald

194

Solar Energy Resources | Department of Energy  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Solar Energy Resources Solar Energy Resources August 21, 2013 - 11:40am Addthis Solar radiation, often called the solar resource, is a general term for the electromagnetic...

195

Minnesota Energy Resources (Gas) - Residential Energy Efficiency...  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Agencies You are here Home Savings Minnesota Energy Resources (Gas) - Residential Energy Efficiency Rebate Program Minnesota Energy Resources (Gas) - Residential Energy...

196

Tribal Energy Program: Geothermal Energy Resources  

Office of Energy Efficiency and Renewable Energy (EERE) Indexed Site

Printable Version Share this resource Send a link to Tribal Energy Program: Geothermal Energy Resources to someone by E-mail Share Tribal Energy Program: Geothermal Energy...

197

Federal Energy Management Program: Market Studies for Distributed...  

NLE Websites -- All DOE Office Websites (Extended Search)

Energy Resources and Combined Heat and Power to someone by E-mail Share Federal Energy Management Program: Market Studies for Distributed Energy Resources and Combined...

198

Energy Resource Potential  

NLE Websites -- All DOE Office Websites (Extended Search)

Resource Potential Resource Potential of Methane Hydrate Energy Resource Potential An introduction to the science and energy potential of a unique resource Disclaimer Reference herein to any specific commercial product, process, or service by trade name, trademark, manufacturer, or otherwise does not necessarily constitute or imply its endorsement, recommendation, or favoring by the United States Government or any agency thereof. Neither the United States Government nor any agency thereof, nor any of their employees, makes any warranty, express or implied, or assumes any legal liability or responsibility for the accuracy, completeness, or usefulness of any information, apparatus, product, or process disclosed, or represents that its use would not infringe privately owned rights.

199

Wind Energy Resource Atlas of Oaxaca  

DOE Green Energy (OSTI)

The Oaxaca Wind Resource Atlas, produced by the National Renewable Energy Laboratory's (NREL's) wind resource group, is the result of an extensive mapping study for the Mexican State of Oaxaca. This atlas identifies the wind characteristics and distribution of the wind resource in Oaxaca. The detailed wind resource maps and other information contained in the atlas facilitate the identification of prospective areas for use of wind energy technologies, both for utility-scale power generation and off-grid wind energy applications.

Elliott, D.; Schwartz, M.; Scott, G.; Haymes, S.; Heimiller, D.; George, R.

2003-08-01T23:59:59.000Z

200

Dynamic Distributed Resource Allocation: A Distributed Constraint Satisfaction Approach  

Science Conference Proceedings (OSTI)

In distributed resource allocation a set of agents must assign their resources to a set of tasks. This problem arises in many real-world domains such as distributed sensor networks, disaster rescue, hospital scheduling and others. Despite the variety ...

Pragnesh Jay Modi; Hyuckchul Jung; Milind Tambe; Wei-Min Shen; Shriniwas Kulkarni

2001-08-01T23:59:59.000Z

Note: This page contains sample records for the topic "distributed energy resource" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


201

Hospitality resources | ENERGY STAR  

NLE Websites -- All DOE Office Websites (Extended Search)

manufacturing resources K-12 school resources Multifamily housing resources Restaurant resources Retail resources Senior care resources Small business resources State and...

202

Healthcare resources | ENERGY STAR  

NLE Websites -- All DOE Office Websites (Extended Search)

manufacturing resources K-12 school resources Multifamily housing resources Restaurant resources Retail resources Senior care resources Small business resources State and...

203

Congregation resources | ENERGY STAR  

NLE Websites -- All DOE Office Websites (Extended Search)

manufacturing resources K-12 school resources Multifamily housing resources Restaurant resources Retail resources Senior care resources Small business resources State and...

204

Federal Energy Management Program: Renewable Energy Resource...  

NLE Websites -- All DOE Office Websites (Extended Search)

Renewable Energy Resource Maps and Screening Tools to someone by E-mail Share Federal Energy Management Program: Renewable Energy Resource Maps and Screening Tools on Facebook...

205

Solar Energy Resources  

Energy.gov (U.S. Department of Energy (DOE))

Solar radiation, often called the solar resource, is a general term for the electromagnetic radiation emitted by the sun. Solar radiation can be captured and turned into useful forms of energy,...

206

Properly Understanding the Impacts of Distributed Resources on Distribution Systems  

Science Conference Proceedings (OSTI)

The subject paper discusses important impacts of distributed resources on distribution networks and feeders. These include capacity, line losses, voltage regulation, and central system support (such as volt/var via central generators and substation) as the number, placement and penetration levels of distributed resources are varied. Typically, the impacts of distributed resources on the distribution system are studied by using steady-state rather than dynamic analysis tools. However, the response time and transient impacts of both system equipment (such as substation/feeder capacitors) and distributed resources needs to be taken into account and only dynamic analysis will provide the full impact results. ORNL is wrapping up a study of distributed resources interconnected to a large distribution system considering the above variables. A report of the study and its results will be condensed into a paper for this panel session. The impact of distributed resources will vary as the penetration level reaches the capacity of the distribution feeder/system. The question is how high of a penetration of distributed resource can be accommodated on the distribution feeder/system without any major changes to system operation, design and protection. The impacts most surely will vary depending upon load composition, distribution and level. Also, it is expected that various placement of distributed resources will impact the distribution system differently.

Rizy, D Tom [ORNL; Li, Fangxing [ORNL; Li, Huijuan [University of Tennessee, Knoxville (UTK); Adhikari, Sarina [ORNL; Kueck, John D [ORNL

2010-01-01T23:59:59.000Z

207

Optimal energy management of a micro-grid with renewable energy resources and demand response  

Science Conference Proceedings (OSTI)

With the introduction of smart energy grids and extensive penetration of renewable energy resources in distribution networks

2013-01-01T23:59:59.000Z

208

A Framework for Developing Collaborative DER Programs: Working Tools for Stakeholders: Report of the E2I Distributed Energy Resource s Public/Private Partnership  

Science Conference Proceedings (OSTI)

The electricity system of the future will have greater reliability, security, and customer flexibility thanks, in part, to distributed energy resources (DER) integrated throughout the system. DER in the form of innovative technologies for power generation, storage, and demand response will be located near the point of use to meet specific customer needs and support the electricity delivery system. While the vision of the future electricity infrastructure is broadly shared, the pathway to the future is no...

2004-08-19T23:59:59.000Z

209

Distributed Resources and Intelligent Agents - CECM  

E-Print Network (OSTI)

Distributed Resources and Intelligent Agents. Scientific collaboration ... This can also be expected of all of the third-generation web languages. The rest of this ...

210

Distributed Energy Resource Optimization Using a Software as Service (SaaS) Approach at the University of California, Davis Campus  

Science Conference Proceedings (OSTI)

Together with OSIsoft LLC as its private sector partner and matching sponsor, the Lawrence Berkeley National Laboratory (Berkeley Lab) won an FY09 Technology Commercialization Fund (TCF) grant from the U.S. Department of Energy. The goal of the project is to commercialize Berkeley Lab's optimizing program, the Distributed Energy Resources Customer Adoption Model (DER-CAM) using a software as a service (SaaS) model with OSIsoft as its first non-scientific user. OSIsoft could in turn provide optimization capability to its software clients. In this way, energy efficiency and/or carbon minimizing strategies could be made readily available to commercial and industrial facilities. Specialized versions of DER-CAM dedicated to solving OSIsoft's customer problems have been set up on a server at Berkeley Lab. The objective of DER-CAM is to minimize the cost of technology adoption and operation or carbon emissions, or combinations thereof. DER-CAM determines which technologies should be installed and operated based on specific site load, price information, and performance data for available equipment options. An established user of OSIsoft's PI software suite, the University of California, Davis (UCD), was selected as a demonstration site for this project. UCD's participation in the project is driven by its motivation to reduce its carbon emissions. The campus currently buys electricity economically through the Western Area Power Administration (WAPA). The campus does not therefore face compelling cost incentives to improve the efficiency of its operations, but is nonetheless motivated to lower the carbon footprint of its buildings. Berkeley Lab attempted to demonstrate a scenario wherein UCD is forced to purchase electricity on a standard time-of-use tariff from Pacific Gas and Electric (PG&E), which is a concern to Facilities staff. Additionally, DER-CAM has been set up to consider the variability of carbon emissions throughout the day and seasons. Two distinct analyses of value to UCD are possible using this approach. First, optimal investment choices for buildings under the two alternative objectives can be derived. Second, a week-ahead building operations forecaster has been written that executes DER-CAM to find an optimal operating schedule for buildings given their expected building energy services requirements, electricity prices, and local weather. As part of its matching contribution, OSIsoft provided a full implementation of PI and a server to install it on at Berkeley Lab. Using the PItoPI protocol, this gives Berkeley Lab researchers direct access to UCD's PI data base. However, this arrangement is in itself inadequate for performing optimizations. Additional data not included in UCD's PI database would be needed and the campus was not able to provide this information. This report details the process, results, and lessons learned of this commercialization project.

Michael, Stadler; Marnay, Chris; Donadee, Jon; Lai, Judy; M& #233; gel, Olivier; Bhattacharya, Prajesh; Siddiqui, Afzal

2011-02-06T23:59:59.000Z

211

Distributed Energy | Department of Energy  

NLE Websites -- All DOE Office Websites (Extended Search)

Distributed Distributed Energy Distributed Energy Distributed energy consists of a range of smaller-scale and modular devices designed to provide electricity, and sometimes also thermal energy, in locations close to consumers. They include fossil and renewable energy technologies (e.g., photovoltaic arrays, wind turbines, microturbines, reciprocating engines, fuel cells, combustion turbines, and steam turbines); energy storage devices (e.g., batteries and flywheels); and combined heat and power systems. Distributed energy offers solutions to many of the nation's most pressing energy and electric power problems, including blackouts and brownouts, energy security concerns, power quality issues, tighter emissions standards, transmission bottlenecks, and the desire for greater control over energy costs.

212

Distributed Wind | Open Energy Information  

Open Energy Info (EERE)

Distributed Wind Distributed Wind Jump to: navigation, search Distributed wind energy systems provide clean, renewable power for on-site use and help relieve pressure on the power grid while providing jobs and contributing to energy security for homes, farms, schools, factories, private and public facilities, distribution utilities, and remote locations.[1] Resources Clean Energy States Alliance. (2010). State-Based Financing Tools to Support Distributed and Community Wind Projects. Accessed September 27, 2013. This guide reviews the financing role that states, and specifically state clean energy funds, have played and can play in supporting community and distributed wind projects. Clean Energy States Alliance. (May 2010). Supporting Onsite Distributed Wind Generation Projects. Accessed September 27, 2013.

213

Additional Resources | Department of Energy  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Additional Resources Additional Resources Additional Resources October 16, 2013 - 4:36pm Addthis The following resources are focused on Federal new construction and major renovation projects, sustainable construction, and the role of renewable energy technologies in such facilities. These resources are organized by: Resource Guides Renewable Energy Planning Planning Construction Operations and Maintenance Commissioning Sample Plans and Documents Resource Guides Whole Building Design Guide (WBDG) WBDG: New Construction and Major Renovation Guiding Principles (WBDG) Leadership in Energy and Environmental Design (LEED) New Construction and Major Renovation Reference Guide Greening Federal Facilities: An Energy, Environmental, and Economic Resource Guide for Federal Facility Managers and Designers

214

UNEP Energy Resource Kit | Open Energy Information  

Open Energy Info (EERE)

Summary Name: UNEP Energy Resource Kit AgencyCompany Organization: United Nations Environment Programme Sector: Energy Focus Area: Energy Efficiency, Renewable Energy Topics:...

215

Distributed Energy Systems Integration Group (Fact Sheet)  

Science Conference Proceedings (OSTI)

Factsheet developed to describe the activites of the Distributed Energy Systems Integration Group within NREL's Electricity, Resources, and Buildings Systems Integration center.

Not Available

2009-10-01T23:59:59.000Z

216

Energy Basics: Biomass Resources  

Office of Energy Efficiency and Renewable Energy (EERE) Indexed Site

Share this resource Biomass Biofuels Biopower Bio-Based Products Biomass Resources Geothermal Hydrogen Hydropower Ocean Solar Wind Biomass Resources Biomass resources include any...

217

Wind Energy Resource Atlas of Armenia  

DOE Green Energy (OSTI)

This wind energy resource atlas identifies the wind characteristics and distribution of the wind resource in the country of Armenia. The detailed wind resource maps and other information contained in the atlas facilitate the identification of prospective areas for use of wind energy technologies for utility-scale power generation and off-grid wind energy applications. The maps portray the wind resource with high-resolution (1-km2) grids of wind power density at 50-m above ground. The wind maps were created at the National Renewable Energy Laboratory (NREL) using a computerized wind mapping system that uses Geographic Information System (GIS) software.

Elliott, D.; Schwartz, M.; Scott, G.; Haymes, S.; Heimiller, D.; George, R.

2003-07-01T23:59:59.000Z

218

Hill-climbing SMT processor resource distribution  

Science Conference Proceedings (OSTI)

The key to high performance in Simultaneous MultiThreaded (SMT) processors lies in optimizing the distribution of shared resources to active threads. Existing resource distribution techniques optimize performance only indirectly. They infer potential ... Keywords: Hill-climbing algorithm, SMT processor, limit study

Seungryul Choi; Donald Yeung

2009-02-01T23:59:59.000Z

219

The potential for distributed generation in Japanese prototype buildings: A DER-CAM analysis of policy, tariff design, building energy use, and technology development (English Version)  

E-Print Network (OSTI)

1 2. Distributed Energy Resources Customer AdoptionPublic Utilities Commission DER Distributed Energy ResourcesDER-CAM Distributed Energy Resources Customer Adoption Model

Zhou, Nan; Marnay, Chris; Firestone, Ryan; Gao, Weijun; Nishida, Masaru

2004-01-01T23:59:59.000Z

220

Resources | Department of Energy  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Resources Resources Resources About one in every four federal employees is a military Veteran. At the Department of Energy, 19 percent of our workforce is made up of veterans. Veterans, their spouses, and dependent children are eligible for a variety of benefits provided by the Federal government. Some of these benefits are connected with service disabilities; others depend on amount of time served and in what capacity. Regardless, any Veteran seeking employment with a Federal agency should be aware of the many employment and work-life assistance programs that are available. Employment Information What is Veterans Preference Eligibility? Read more about employment eligibility for Veterans by visiting the Veterans Preference Eligibility page at FedsHireVets.gov. What are Special Hiring Authorities? To learn about the hiring authorities

Note: This page contains sample records for the topic "distributed energy resource" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


221

Multi-Building Microgrids for a Distributed Energy Future in Portugal  

E-Print Network (OSTI)

Gas-Fired Distributed Energy Resource Characterizations”,Energy Reliability, Distributed Energy Program of the U.S.Microgrids for a Distributed Energy Future in Portugal

Mendes, Goncalo

2013-01-01T23:59:59.000Z

222

Distributed Energy Resource Optimization Using a Software as Service (SaaS) Approach at the University of California, Davis Campus  

E-Print Network (OSTI)

Adoption Model Distributed Generation General Algebraicconduct a series of distributed generation (DG) investmenta series of trial distributed generation (DG) investment

Michael, Stadler

2011-01-01T23:59:59.000Z

223

Wind Energy Resource Basics | Department of Energy  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Energy Resource Basics Wind Energy Resource Basics July 30, 2013 - 3:11pm Addthis Wind energy can be produced anywhere in the world where the wind blows with a strong and...

224

Federal Energy Management Program: Renewable Energy Resources...  

NLE Websites -- All DOE Office Websites (Extended Search)

and Technologies to someone by E-mail Share Federal Energy Management Program: Renewable Energy Resources and Technologies on Facebook Tweet about Federal Energy Management...

225

Drilling for energy resources  

DOE Green Energy (OSTI)

Drilling is integral to the exploration, development, and production of most energy resources. Oil and natural gas, which are dependent on drilling technology, together account for about 77% of the energy sources consumed in the US. Thus, the limitations of current drilling technology also restrict the rate at which new energy supplies can be found, extracted, and brought to the marketplace. The purpose of the study reported was to examine current drilling technology, suggest areas where additional research and development (R and D) might significantly increase drilling rates and capabilities, and suggest a strategy for improving drilling technology. An overview is provided of the US drilling industry. The drilling equipment and techniques now used for finding and recovering oil, natural gas, coal, shale oil, nuclear fuels, and geothermal energy are described. Although by no means exhaustive, these descriptions provide the background necessary to adequately understand the problems inherent in attempts to increase instantaneous and overall drilling rates.

Not Available

1976-01-01T23:59:59.000Z

226

Distributed Energy System Validation, Commissioning and  

E-Print Network (OSTI)

Distributed Energy System Validation, Commissioning and Qualification Test Report Prepared Agreement No. DE-FC26-06NT42847 Hawai`i Distributed Energy Resource Technologies for Energy Security Subtask for the U.S. Department of Energy Office of Electricity Delivery and Energy Reliability Under Cooperative

227

Optimum model-E-GAMS for Distributed Energy System by Using GAMS Method  

E-Print Network (OSTI)

Marnay?LBNL ?????? ? ? Distributed Energy Resources Customermodel-E-GAMS for distributed energy system by using GAMS

Yang, Yongwen; Gao, Weijun; Ruan, Yingjun; Zhou, Nan; Xuan, Ji; Marnay, Chris

2005-01-01T23:59:59.000Z

228

A Worldwide Assessment of Distributed Resources Markets  

Science Conference Proceedings (OSTI)

Significant opportunities exist for distributed resources (DR) in international markets. Since the potential market size varies considerably from country to country and each country presents specific challenges for DR, it is necessary to examine DR's potential for each country separately.

1999-12-10T23:59:59.000Z

229

NREL: Electric Infrastructure Systems Research - Distributed Energy  

NLE Websites -- All DOE Office Websites (Extended Search)

Distributed Energy Resources Test Facility Distributed Energy Resources Test Facility NREL's Distributed Energy Resources Test Facility (DERTF) is a working laboratory for interconnection and systems integration testing. This state-of-the-art facility includes generation, storage, and interconnection technologies as well as electric power system equipment capable of simulating a real-world electric system. Photo of the Distributed Energy Resources Test Facility and an adjacent solar photovoltaic array. The Distributed Energy Resources Test Facility is located at the National Wind Technology Center near Boulder, Colorado. Take a virtual tour of the DERTF. Researchers at the facility can vary equipment configurations and introduce common electrical disturbances such as sags, swells, and harmonic issues on

230

Regional Profiles for Distributed Resource Integration  

Science Conference Proceedings (OSTI)

This report characterizes regional drivers and challenges for distributed resource integration. Information gathered includes research and demonstration activities being conducted to integrate distributed resources into grid and market systems. The report summarizes lessons learned from literature review, workshops, and surveys conducted by EPRI in 2009 and 2010. The information gathered through these various channels is applied in this report towards identifying regional trends, demonstration needs, and...

2010-12-31T23:59:59.000Z

231

Interconnection Testing of Distributed Resources: Preprint  

DOE Green Energy (OSTI)

With the publication of IEEE 1547-2003(TM) Standard for Interconnecting Distributed Resources With Electric Power Systems, the electric power industry has a need to develop tests and procedures to verify that interconnection equipment meets 1547 technical requirements. A new standard, IEEE P1547.1(TM), is being written to give detailed tests and procedures for confirming that equipment meets the interconnection requirements. The National Renewable Energy Laboratory has been validating test procedures being developed as part of IEEE P1547.1. As work progresses on the validation of those procedures, information and test reports are passed on to the working group of IEEE P1547.1 for future revisions.

Kroposki, B.; Basso, T.; DeBlasio, R.

2004-02-01T23:59:59.000Z

232

Building Distributed Energy Performance Optimization for China a Regional Analysis of Building Energy Costs and CO2 Emissions  

E-Print Network (OSTI)

426–435. LBNL. (2012). Distributed Energy Resources CustomerATIONAL L ABORATORY Building Distributed Energy Performanceemployer. Building Distributed Energy Performance

Feng, Wei

2013-01-01T23:59:59.000Z

233

Barron Electric Cooperative - Residential Energy Resource Conservation...  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Residential Energy Resource Conservation Loan Program Barron Electric Cooperative - Residential Energy Resource Conservation Loan Program Eligibility Residential Savings For Home...

234

Minnesota Valley Electric Cooperative -Residential Energy Resource...  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Residential Energy Resource Conservation Loan Program Minnesota Valley Electric Cooperative -Residential Energy Resource Conservation Loan Program Eligibility Residential Savings...

235

EPRI Pre-Conference Workshop: Active Distribution System Management for Integration of Distributed Resources Research, Development a nd Demonstration Needs  

Science Conference Proceedings (OSTI)

This report documents the proceedings of the EPRI Pre-Conference Workshop: Active Distribution System Management for Integration of Distributed ResourcesResearch, Development and Demonstration Needs, held December 9, 2008. This workshop presented over 20 projects related to active distribution management for distributed energy resource (DER) integration.

2009-04-27T23:59:59.000Z

236

Resource Energy Systems LLC | Open Energy Information  

Open Energy Info (EERE)

Energy Systems LLC Energy Systems LLC Jump to: navigation, search Name Resource Energy Systems, LLC Place Rochelle Park, New Jersey Zip 7662 Sector Services, Solar Product Resource Energy Systems (RES) provides property owners with turn-key solar energy services. RES completes all phases of solar design, installation, and completion. References Resource Energy Systems, LLC[1] LinkedIn Connections CrunchBase Profile No CrunchBase profile. Create one now! This article is a stub. You can help OpenEI by expanding it. Resource Energy Systems, LLC is a company located in Rochelle Park, New Jersey . References ↑ "Resource Energy Systems, LLC" Retrieved from "http://en.openei.org/w/index.php?title=Resource_Energy_Systems_LLC&oldid=350391" Categories: Clean Energy Organizations

237

Renewable Energy Resources Inc | Open Energy Information  

Open Energy Info (EERE)

Renewable Energy Resources, Inc. Renewable Energy Resources, Inc. Place Las Vegas, Nevada Sector Hydro, Renewable Energy, Solar, Wind energy Product Renewable Energy is a privately-held consultancy with proprietary technology in the solar, wind and hydro fields. References Renewable Energy Resources, Inc.[1] LinkedIn Connections CrunchBase Profile No CrunchBase profile. Create one now! This article is a stub. You can help OpenEI by expanding it. Renewable Energy Resources, Inc. is a company located in Las Vegas, Nevada . References ↑ "Renewable Energy Resources, Inc." rated format, with renewable energy as its base, insuring a successful project throughout construction and commissioning. |Number of employees= |Coordinates= |References=Renewable Energy Resources, Inc.[1] }}

238

Distributed Energy Resource Optimization Using a Software as Service (SaaS) Approach at the University of California, Davis Campus  

E-Print Network (OSTI)

and Renewable Energy (EERE) at the U.S. Department of Energyand Renewable Energy (EERE) at the U.S. Department of Energy

Michael, Stadler

2011-01-01T23:59:59.000Z

239

AMO Energy Resource Center  

NLE Websites -- All DOE Office Websites (Extended Search)

Home | Programs & Offices | Consumer Information Home | Programs & Offices | Consumer Information Sign In Dashboard Home Add to Bookmark Turn on more accessible mode Skip to main content Turn off more accessible mode HOME | Help (new window) AMO Energy Resources Center HOME Tools AMO Home Tools to Manage your Energy Use DOE eGuide for ISO 50001 DOE eGuide Lite Industrial Facilities Scorecard Plant Energy Profiler (PEP) Project Opportunities Tracker EnPI V3.0 Webinars Past Webinar Titles (*Requires Login) Software Tool Updates the contents of this div will be replaced Steam System Modeler Tool: The new Steam System Modeler allows you to create up to a 3-pressure-header basic model of your current steam system. The tool includes a series of adjustable characteristics simulating technical or input changes, thereby demonstrating how each component impacts the others and what changes may best promote overall efficiency and stability of the system. The tool can be found under the "Steam" category.

240

Developer Resources | Department of Energy  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Developer Resources Developer Resources Developer Resources Apps for Energy The Energy Department is challenging developers to use the Green Button data access program to bring residential and commercial utility data to life with fun and creative apps. Read more Learn about Green Button Apps for Energy submissions must use Green Button data. To learn more, start here. Read more NREL Resources NREL offers a number resources for Green Button app developers. Find out more! Read more Vehicle Data Resources Sample Vehicle Data (Apps for Vehicles) OpenXC Translation Output Format Vehicle Data API OpenEI Developer FAQ OpenXC Platform Guide OpenEI Hackathon Resources EPA OBD Page Society of Automotive Engineers OBD Page Other Agencies Energy.Data.gov Geo.Data.Gov Census Data Census: TIGER Geographic Data

Note: This page contains sample records for the topic "distributed energy resource" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


241

Legal, regulatory & institutional issues facing distributed resources development  

SciTech Connect

This report describes legal, regulatory, and institutional considerations likely to shape the development and deployment of distributed resources. It is based on research co-sponsored by the National Renewable Energy Laboratory (NREL) and four investor-owned utilities (Central & South West Services, Cinergy Corp., Florida Power Corporation, and San Diego Gas & Electric Company). The research was performed between August 1995 and March 1996 by a team of four consulting firms experienced in energy and utility law, regulation, and economics. It is the survey phase of a project known as the Distributed Resources Institutional Analysis Project.

NONE

1996-10-01T23:59:59.000Z

242

IDEA: integrated distributed energy awareness for wireless sensor networks  

Science Conference Proceedings (OSTI)

Energy in sensor networks is a distributed, non-transferable resource. Over time, differences in energy availability are likely to arise. Protocols like routing trees may concentrate energy usage at certain nodes. Differences in energy harvesting arising ... Keywords: optimization, resource distribution, resource management, wireless sensor networks

Geoffrey Werner Challen; Jason Waterman; Matt Welsh

2010-06-01T23:59:59.000Z

243

Online Resources | Department of Energy  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Online Resources Online Resources Online Resources ... Legislative Documents - US Code - Public and Private Laws - Congressional Bills - Congressional Record - Congressional Hearings - Appropriations Legislation Regulatory Documents - Code of Federal Regulations - Federal Register - Safety and Employee Protection Authorities Compilation of Laws - Communications Law - Consumer Protectxion Law - Environmental Law Volume 1 - Environmental Law Volume 2 - Food, Drug, And Related Law - Health Law - Nuclear Energy And Radioactive Waste - Selected Energy-Related Legislation: Electricity - Selected Energy-Related Legislation: Organization And Miscellaneous - Selected Energy-Related Legislation: Oil, Gas, And Nonnuclear Fuels Presidential Documents - Executive Orders Judicial Resources

244

Ocean Resources | Department of Energy  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

resource-assessment projects for advanced water power. Addthis Related Articles Glossary of Energy Related Terms Pamela Sydelko is the Deputy Associate Laboratory Director...

245

NREL: Energy Analysis: Resource Assessment  

NLE Websites -- All DOE Office Websites (Extended Search)

Resource Assessment Resource Assessment NREL has developed maps and tools to conduct renewable energy resource assessments at the state, national and international level. Around the world, interest is growing in renewable energy as a strategy to mitigate greenhouse gas emissions and increase energy security. The starting point for new renewable energy projects is a characterization of the renewable resources available across a region, a resource assessment. NREL uses geospatial data sets to identify regions that are appropriate for renewable development and those that should be excluded such as water bodies, urban areas, cropland, forests, very steep terrain, and protected areas. Once resource data are available for a region, NREL can estimate the theoretical potential, or upper limit, for renewable energy in an area.

246

Geothermal Energy Resources (Louisiana)  

Energy.gov (U.S. Department of Energy (DOE))

Louisiana developed policies regarding geothermal stating that the state should pursue the rapid and orderly development of geothermal resources.

247

Additional Resources | Department of Energy  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Services » Energy Assurance » Emergency Preparedness » Community Services » Energy Assurance » Emergency Preparedness » Community Guidelines » Additional Resources Additional Resources Additional Resources Energy Assurance Planning The Local Government Energy Assurance Planning (LEAP) program, developed by the Public Technology Institute and the U.S. Department of Energy, offers resources to help local governments of all sizes in developing energy assurance plans for their communities. U.S. Department of Energy, State and Local Energy Assurance Planning The National Association of State Energy Officials (NASEO) The National Association of Regulatory Utility Commissioners The National Response Framework Public Emergency Management Organizations U.S. Federal Emergency Management Agency (FEMA) FEMA disaster assistance State governor's office

248

Distributed Energy Resource Optimization Using a Software as Service (SaaS) Approach at the University of California, Davis Campus  

E-Print Network (OSTI)

and Operation of Microgrids in Commercial Buildings,” IEEE2009, Special Issue on Microgrids and Energy Management,

Michael, Stadler

2011-01-01T23:59:59.000Z

249

Historical Resources | Department of Energy  

NLE Websites -- All DOE Office Websites (Extended Search)

Resources Resources Historical Resources Historical Resources The Department of Energy maintains and makes accessible to the general public a wide variety of historical resources. These include published and online histories of the Department and its predecessor agencies and records, exhibits, museums, and tours available online and at various locations both within and outside the Department. The Department's Office of History and Heritage Resources (OHHR) serves as the institutional memory for the Department. Overviews of the Department produced by OHHR include the online only A Brief History of the Department of Energy and the more in-depth Department of Energy Timeline as well as the published Department of Energy, 1977-1994: A Summary History. The Department is the lineal descendent of several predecessor agencies,

250

Wind Energy Resource Atlas of Sri Lanka and the Maldives  

DOE Green Energy (OSTI)

The Wind Energy Resource Atlas of Sri Lanka and the Maldives, produced by the National Renewable Energy Laboratory's (NREL's) wind resource group identifies the wind characteristics and distribution of the wind resource in Sri Lanka and the Maldives. The detailed wind resource maps and other information contained in the atlas facilitate the identification of prospective areas for use of wind energy technologies, both for utility-scale power generation and off-grid wind energy applications.

Elliott, D.; Schwartz, M.; Scott, G.; Haymes, S.; Heimiller, D.; George, R.

2003-08-01T23:59:59.000Z

251

Strategic Intelligence Update: Energy Storage & Distributed Generation  

Science Conference Proceedings (OSTI)

Energy Storage and distributed generation technologies add value to a wide range of applications within the electric utility enterprise. Both energy storage and distributed generation systems can help utilities shift and manage peak loads within the distribution system, improve reliability, and potentially help defer infrastructure upgrades. Bulk energy storage has the ability to improve the value of intermittent renewable resources and to provide multiple benefit streams through energy arbitrage and by ...

2012-05-24T23:59:59.000Z

252

Strategic Intelligence Update: Energy Storage & Distributed Generation  

Science Conference Proceedings (OSTI)

Energy Storage and distributed generation technologies add value to a wide range of applications within the electric utility enterprise. Both energy storage and distributed generation systems can help utilities shift and manage peak loads within the distribution system, improve reliability, and potentially help defer infrastructure upgrades. Bulk energy storage has the ability to improve the value of intermittent renewable resources and to provide multiple benefit streams through energy arbitrage and by ...

2012-03-20T23:59:59.000Z

253

Strategic Intelligence Update: Energy Storage & Distributed Generation  

Science Conference Proceedings (OSTI)

Energy Storage and distributed generation technologies add value to a wide range of applications within the electric utility enterprise. Both energy storage and distributed generation systems can help utilities shift and manage peak loads within the distribution system, improve reliability, and potentially help defer infrastructure upgrades. Bulk energy storage has the ability to improve the value of intermittent renewable resources and to provide multiple benefit streams through energy arbitrage and by ...

2012-07-31T23:59:59.000Z

254

Abstract--The issue of controlled and reliable integration of distributed energy resources into microgrids and large power  

E-Print Network (OSTI)

into microgrids and large power grids has recently gained considerable attention. The microgrid concept, which capabilities. In order to provide uninterruptible power supply to the loads, microgrids are expected to operate. The problem of optimal management of the resources in a microgrid is being widely investigated and recent

Cañizares, Claudio A.

255

Wind Energy Resource Atlas of Southeast China  

DOE Green Energy (OSTI)

This wind energy resource atlas identifies the wind characteristics and distribution of the wind resource in two regions of southeast China. The first region is the coastal area stretching from northern Fujian south to eastern Guangdong and extending approximately 100 km inland. The second region is centered on the Poyang Lake area in northern Jiangxi. This region also includes parts of two other provinces-Anhui and Hubei-and extends from near Anqing in Anhui south to near Nanchang in Jiangxi. The detailed wind resource maps and other information contained in the atlas facilitate the identification of prospective areas for use of wind energy technologies, both for utility-scale power generation and off-grid wind energy applications. We created the high-resolution (1-km2) maps in 1998 using a computerized wind resource mapping system developed at the National Renewable Energy Laboratory (NREL). The mapping system uses software known as a Geographical Information System (GIS).

Elliott, D.; Schwartz, M.; Scott, G.; Haymes, S.; Heimiller, D.; George, R.

2002-11-01T23:59:59.000Z

256

System Support for Distributed Energy Management in Modular Operating Systems.  

E-Print Network (OSTI)

??This thesis proposes a novel approach for managing energy in modular operating systems. Our approach enables energy awareness if the resource-management subsystem is distributed among… (more)

Stöß, Jan

2010-01-01T23:59:59.000Z

257

Energy Efficiency Resource Standard | Open Energy Information  

Open Energy Info (EERE)

Energy Efficiency Resource Standard Energy Efficiency Resource Standard Jump to: navigation, search Energy efficiency resource standards (EERS) are state policies that require utilities to meet specific targets for energy savings according to a set schedule. EERS policies establish separate reduction targets for electricity sales, peak electric demand and/or natural gas consumption. In most cases, utilities must achieve energy savings by developing demand-side management (DSM) programs, which typically provide financial incentives to customers to install energy-efficient equipment. An EERS policy is sometimes coupled with a state's renewables portfolio standard (RPS). In these cases, energy efficiency is typically included as a lower-tier resource. [1] Energy Efficiency Resource Standard Incentives

258

Distributed Energy Resource Optimization Using a Software as Service (SaaS) Approach at the University of California, Davis Campus  

E-Print Network (OSTI)

to Battery Figure 17: The Forecasted Energy Needs and Costkg/yr) Reduction in Cost From Base ($/yr) Battery CapacityFlow Battery Energy Installed (kWh) PV Installed (kW) Cost

Michael, Stadler

2011-01-01T23:59:59.000Z

259

Assessing Energy Resources Webinar Presentation Slides  

Energy.gov (U.S. Department of Energy (DOE))

Download presentation slides from the DOE Office of Indian Energy webinar on assessing energy resources.

260

Distributed Energy Resource Optimization Using a Software as Service (SaaS) Approach at the University of California, Davis Campus  

E-Print Network (OSTI)

tariffs) University of California, Davis United States Department of EnergyEnergy Demand Rescheduled to Minimize Cost under PG&E E-19 TariffEnergy Installed (kWh) PV Installed (kW) Cost Minimizing PG&E E-19 Tariff

Michael, Stadler

2011-01-01T23:59:59.000Z

Note: This page contains sample records for the topic "distributed energy resource" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


261

Restaurant resources | ENERGY STAR  

NLE Websites -- All DOE Office Websites (Extended Search)

Restaurant resources Secondary menu About us Press room Contact Us Portfolio Manager Login Facility owners and managers Existing buildings Commercial new construction Industrial...

262

Unconventional Energy Resources: 2011 Review  

Science Conference Proceedings (OSTI)

This report contains nine unconventional energy resource commodity summaries prepared by committees of the Energy Minerals Division (EMD) of the American Association of Petroleum Geologists. Unconventional energy resources, as used in this report, are those energy resources that do not occur in discrete oil or gas reservoirs held in structural or stratigraphic traps in sedimentary basins. These resources include coal, coalbed methane, gas hydrates, tight gas sands, gas shale and shale oil, geothermal resources, oil sands, oil shale, and uranium resources. Current U.S. and global research and development activities are summarized for each unconventional energy commodity in the topical sections of this report. Coal and uranium are expected to supply a significant portion of the world's energy mix in coming years. Coalbed methane continues to supply about 9% of the U.S. gas production and exploration is expanding in other countries. Recently, natural gas produced from shale and low-permeability (tight) sandstone has made a significant contribution to the energy supply of the United States and is an increasing target for exploration around the world. In addition, oil from shale and heavy oil from sandstone are a new exploration focus in many areas (including the Green River area of Wyoming and northern Alberta). In recent years, research in the areas of geothermal energy sources and gas hydrates has continued to advance. Reviews of the current research and the stages of development of these unconventional energy resources are described in the various sections of this report.

Collaboration: American Association of Petroleum Geologists

2011-12-15T23:59:59.000Z

263

Sunnyside, Utah: Energy Resources | Open Energy Information  

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264

Mantua, Utah: Energy Resources | Open Energy Information  

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265

Huntington, Utah: Energy Resources | Open Energy Information  

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266

Grantsville, Utah: Energy Resources | Open Energy Information  

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267

Fairview, Utah: Energy Resources | Open Energy Information  

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268

Kaysville, Utah: Energy Resources | Open Energy Information  

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269

Harrisville, Utah: Energy Resources | Open Energy Information  

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270

Clinton, Utah: Energy Resources | Open Energy Information  

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271

Sterling, Utah: Energy Resources | Open Energy Information  

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272

Hatch, Utah: Energy Resources | Open Energy Information  

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273

Riverdale, Utah: Energy Resources | Open Energy Information  

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274

Willard, Utah: Energy Resources | Open Energy Information  

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275

Trenton, Utah: Energy Resources | Open Energy Information  

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276

Orderville, Utah: Energy Resources | Open Energy Information  

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277

Monticello, Utah: Energy Resources | Open Energy Information  

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278

Nibley, Utah: Energy Resources | Open Energy Information  

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279

Ballard, Utah: Energy Resources | Open Energy Information  

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280

Eureka, Utah: Energy Resources | Open Energy Information  

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Note: This page contains sample records for the topic "distributed energy resource" from the National Library of EnergyBeta (NLEBeta).
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they are not comprehensive nor are they the most current set.
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281

Orangeville, Utah: Energy Resources | Open Energy Information  

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282

Morgan, Utah: Energy Resources | Open Energy Information  

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283

Howell, Utah: Energy Resources | Open Energy Information  

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284

Ephraim, Utah: Energy Resources | Open Energy Information  

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285

Hurricane, Utah: Energy Resources | Open Energy Information  

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286

Monroe, Utah: Energy Resources | Open Energy Information  

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287

Paradise, Utah: Energy Resources | Open Energy Information  

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288

Farmington, Utah: Energy Resources | Open Energy Information  

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289

Lewiston, Utah: Energy Resources | Open Energy Information  

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290

Woodruff, Utah: Energy Resources | Open Energy Information  

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291

Glendale, Utah: Energy Resources | Open Energy Information  

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292

Providence, Utah: Energy Resources | Open Energy Information  

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293

Centerville, Utah: Energy Resources | Open Energy Information  

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294

Marysvale, Utah: Energy Resources | Open Energy Information  

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295

Smithfield, Utah: Energy Resources | Open Energy Information  

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296

Paragonah, Utah: Energy Resources | Open Energy Information  

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297

Amalga, Utah: Energy Resources | Open Energy Information  

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298

Cannonville, Utah: Energy Resources | Open Energy Information  

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299

Moroni, Utah: Energy Resources | Open Energy Information  

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300

Gunnison, Utah: Energy Resources | Open Energy Information  

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Note: This page contains sample records for the topic "distributed energy resource" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
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301

Newcastle, Utah: Energy Resources | Open Energy Information  

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302

Hyrum, Utah: Energy Resources | Open Energy Information  

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303

Clearfield, Utah: Energy Resources | Open Energy Information  

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304

Centerfield, Utah: Energy Resources | Open Energy Information  

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305

Ogden, Utah: Energy Resources | Open Energy Information  

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306

Tropic, Utah: Energy Resources | Open Energy Information  

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307

Manti, Utah: Energy Resources | Open Energy Information  

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308

Lyman, Utah: Energy Resources | Open Energy Information  

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309

Escalante, Utah: Energy Resources | Open Energy Information  

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310

Plymouth, Utah: Energy Resources | Open Energy Information  

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311

Perry, Utah: Energy Resources | Open Energy Information  

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312

Kingston, Utah: Energy Resources | Open Energy Information  

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313

Corinne, Utah: Energy Resources | Open Energy Information  

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314

Bicknell, Utah: Energy Resources | Open Energy Information  

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315

Syracuse, Utah: Energy Resources | Open Energy Information  

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316

Duchesne, Utah: Energy Resources | Open Energy Information  

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317

Price, Utah: Energy Resources | Open Energy Information  

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318

Moab, Utah: Energy Resources | Open Energy Information  

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319

Ferron, Utah: Energy Resources | Open Energy Information  

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320

Beaver, Utah: Energy Resources | Open Energy Information  

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Note: This page contains sample records for the topic "distributed energy resource" from the National Library of EnergyBeta (NLEBeta).
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321

Levan, Utah: Energy Resources | Open Energy Information  

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322

Altamont, Utah: Energy Resources | Open Energy Information  

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323

Layton, Utah: Energy Resources | Open Energy Information  

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324

Cornish, Utah: Energy Resources | Open Energy Information  

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325

Torrey, Utah: Energy Resources | Open Energy Information  

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326

Antimony, Utah: Energy Resources | Open Energy Information  

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327

Bountiful, Utah: Energy Resources | Open Energy Information  

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328

Panguitch, Utah: Energy Resources | Open Energy Information  

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329

Elwood, Utah: Energy Resources | Open Energy Information  

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330

Richmond, Utah: Energy Resources | Open Energy Information  

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331

Scofield, Utah: Energy Resources | Open Energy Information  

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332

Newton, Utah: Energy Resources | Open Energy Information  

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333

Huntsville, Utah: Energy Resources | Open Energy Information  

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334

Kanab, Utah: Energy Resources | Open Energy Information  

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335

Sunset, Utah: Energy Resources | Open Energy Information  

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336

Myton, Utah: Energy Resources | Open Energy Information  

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337

Emery, Utah: Energy Resources | Open Energy Information  

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338

Wellsville, Utah: Energy Resources | Open Energy Information  

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339

Hooper, Utah: Energy Resources | Open Energy Information  

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340

Mayfield, Utah: Energy Resources | Open Energy Information  

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341

Parowan, Utah: Energy Resources | Open Energy Information  

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342

Alton, Utah: Energy Resources | Open Energy Information  

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343

Millville, Utah: Energy Resources | Open Energy Information  

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344

Honeyville, Utah: Energy Resources | Open Energy Information  

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345

Nephi, Utah: Energy Resources | Open Energy Information  

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346

Tremonton, Utah: Energy Resources | Open Energy Information  

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347

Henrieville, Utah: Energy Resources | Open Energy Information  

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348

Loa, Utah: Energy Resources | Open Energy Information  

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349

Roosevelt, Utah: Energy Resources | Open Energy Information  

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350

Elmo, Utah: Energy Resources | Open Energy Information  

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351

Mendon, Utah: Energy Resources | Open Energy Information  

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352

Bluffdale, Utah: Energy Resources | Open Energy Information  

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353

Cleveland, Utah: Energy Resources | Open Energy Information  

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354

Portage, Utah: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

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355

Helper, Utah: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

| Sign Up Search Page Edit with form History Facebook icon Twitter icon Helper, Utah: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

356

Wellington, Utah: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

| Sign Up Search Page Edit with form History Facebook icon Twitter icon Wellington, Utah: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

357

Clarkston, Utah: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

| Sign Up Search Page Edit with form History Facebook icon Twitter icon Clarkston, Utah: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

358

Uintah, Utah: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

| Sign Up Search Page Edit with form History Facebook icon Twitter icon Uintah, Utah: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

359

Blanding, Utah: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

| Sign Up Search Page Edit with form History Facebook icon Twitter icon Blanding, Utah: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

360

Naples, Utah: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

| Sign Up Search Page Edit with form History Facebook icon Twitter icon Naples, Utah: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

Note: This page contains sample records for the topic "distributed energy resource" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


361

Circleville, Utah: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

| Sign Up Search Page Edit with form History Facebook icon Twitter icon Circleville, Utah: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

362

Clawson, Utah: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

| Sign Up Search Page Edit with form History Facebook icon Twitter icon Clawson, Utah: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

363

Tabiona, Utah: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

| Sign Up Search Page Edit with form History Facebook icon Twitter icon Tabiona, Utah: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

364

Logan, Utah: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Login | Sign Up Search Page Edit with form History Facebook icon Twitter icon Logan, Utah: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

365

Mona, Utah: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Login | Sign Up Search Page Edit with form History Facebook icon Twitter icon Mona, Utah: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

366

Wales, Utah: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Login | Sign Up Search Page Edit with form History Facebook icon Twitter icon Wales, Utah: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

367

Minersville, Utah: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

| Sign Up Search Page Edit with form History Facebook icon Twitter icon Minersville, Utah: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

368

Fielding, Utah: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

| Sign Up Search Page Edit with form History Facebook icon Twitter icon Fielding, Utah: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

369

Kanarraville, Utah: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Sign Up Search Page Edit with form History Facebook icon Twitter icon Kanarraville, Utah: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

370

Enoch, Utah: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Login | Sign Up Search Page Edit with form History Facebook icon Twitter icon Enoch, Utah: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

371

Junction, Utah: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

| Sign Up Search Page Edit with form History Facebook icon Twitter icon Junction, Utah: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

372

Snowville, Utah: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

| Sign Up Search Page Edit with form History Facebook icon Twitter icon Snowville, Utah: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

373

Deweyville, Utah: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

| Sign Up Search Page Edit with form History Facebook icon Twitter icon Deweyville, Utah: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

374

Roy, Utah: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Login | Sign Up Search Page Edit with form History Facebook icon Twitter icon Roy, Utah: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

375

Randolph, Utah: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

| Sign Up Search Page Edit with form History Facebook icon Twitter icon Randolph, Utah: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

376

Garland, Utah: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

| Sign Up Search Page Edit with form History Facebook icon Twitter icon Garland, Utah: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

377

Vernal, Utah: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

| Sign Up Search Page Edit with form History Facebook icon Twitter icon Vernal, Utah: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

378

Fayette, Utah: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

| Sign Up Search Page Edit with form History Facebook icon Twitter icon Fayette, Utah: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

379

Laketown, Utah: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

| Sign Up Search Page Edit with form History Facebook icon Twitter icon Laketown, Utah: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

380

Boulder, Utah: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

| Sign Up Search Page Edit with form History Facebook icon Twitter icon Boulder, Utah: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

Note: This page contains sample records for the topic "distributed energy resource" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


381

Wind Energy Resources | Department of Energy  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

determine whether the wind resource in a particular area is adequate for wind power. Addthis Related Articles Glossary of Energy Related Terms Hydropower Technologies Wind Turbines...

382

Posen, Illinois: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Posen, Illinois: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 38.2583836, -89.3356392 Loading map... "minzoom":false,"mappingservice":"googl...

383

Hometown, Illinois: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Hometown, Illinois: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 41.7344774, -87.731441 Loading map... "minzoom":false,"mappingservice":"goo...

384

Markham, Illinois: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Markham, Illinois: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 39.7458798, -90.3279008 Loading map... "minzoom":false,"mappingservice":"goo...

385

Stickney, Illinois: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Stickney, Illinois: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 41.821421, -87.7828339 Loading map... "minzoom":false,"mappingservice":"goo...

386

Braidwood, Illinois: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Braidwood, Illinois: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 41.2650318, -88.2122823 Loading map... "minzoom":false,"mappingservice":"g...

387

Flossmoor, Illinois: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Flossmoor, Illinois: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 41.5428123, -87.6847684 Loading map... "minzoom":false,"mappingservice":"g...

388

Dolton, Illinois: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Dolton, Illinois: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 41.6389236, -87.607268 Loading map... "minzoom":false,"mappingservice":"googl...

389

Alsip, Illinois: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Alsip, Illinois: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 41.6689223, -87.7386619 Loading map... "minzoom":false,"mappingservice":"googl...

390

Midlothian, Illinois: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Midlothian, Illinois: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 41.6253116, -87.7175491 Loading map... "minzoom":false,"mappingservice":"...

391

Crestwood, Illinois: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Crestwood, Illinois: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 41.6611444, -87.7525511 Loading map... "minzoom":false,"mappingservice":"g...

392

Homewood, Illinois: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Homewood, Illinois: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 41.5572567, -87.6656014 Loading map... "minzoom":false,"mappingservice":"go...

393

Beecher, Illinois: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Beecher, Illinois: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 41.34059, -87.6214286 Loading map... "minzoom":false,"mappingservice":"googl...

394

Robbins, Illinois: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Robbins, Illinois: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 41.6439227, -87.7036602 Loading map... "minzoom":false,"mappingservice":"goo...

395

Dixmoor, Illinois: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Dixmoor, Illinois: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 41.6317009, -87.6608807 Loading map... "minzoom":false,"mappingservice":"goo...

396

Countryside, Illinois: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Countryside, Illinois: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 41.77655, -87.876561 Loading map... "minzoom":false,"mappingservice":"go...

397

Windsor, Wisconsin: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Wisconsin: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 43.2183254, -89.3415057 Loading map... "minzoom":false,"mappingservice":"googlemaps3...

398

Dorchester, Wisconsin: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Dorchester, Wisconsin: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 45.0030238, -90.3356912 Loading map... "minzoom":false,"mappingservice":...

399

Cary, Wisconsin: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Cary, Wisconsin: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 44.4556769, -90.2432307 Loading map... "minzoom":false,"mappingservice":"googl...

400

Nepeuskun, Wisconsin: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Nepeuskun, Wisconsin: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates 43.9565437, -88.8070886 Loading map... "minzoom":false,"mappingservice":"...

Note: This page contains sample records for the topic "distributed energy resource" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


401

Giddings, Texas: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

| Sign Up Search Page Edit with form History Facebook icon Twitter icon Giddings, Texas: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

402

Ovilla, Texas: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

| Sign Up Search Page Edit with form History Facebook icon Twitter icon Ovilla, Texas: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

403

Converse, Texas: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

| Sign Up Search Page Edit with form History Facebook icon Twitter icon Converse, Texas: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

404

Eileen, Wisconsin: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Login | Sign Up Search Page Edit with form History Facebook icon Twitter icon Eileen, Wisconsin: Energy Resources Jump to: navigation, search Equivalent URI DBpedia...

405

Bright, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Edit with form History Share this page on Facebook icon Twitter icon Bright, Indiana: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

406

Brookville, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Edit with form History Share this page on Facebook icon Twitter icon Brookville, Indiana: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

407

Burlington, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Edit with form History Share this page on Facebook icon Twitter icon Burlington, Indiana: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

408

Dunkirk, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Edit with form History Share this page on Facebook icon Twitter icon Dunkirk, Indiana: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

409

Cannelburg, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Edit with form History Share this page on Facebook icon Twitter icon Cannelburg, Indiana: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

410

Frankfort, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Edit with form History Share this page on Facebook icon Twitter icon Frankfort, Indiana: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

411

Bruceville, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Edit with form History Share this page on Facebook icon Twitter icon Bruceville, Indiana: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

412

Bargersville, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

with form History Share this page on Facebook icon Twitter icon Bargersville, Indiana: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

413

Cayuga, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Edit with form History Share this page on Facebook icon Twitter icon Cayuga, Indiana: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

414

Ambia, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Page Edit with form History Share this page on Facebook icon Twitter icon Ambia, Indiana: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

415

Argos, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Page Edit with form History Share this page on Facebook icon Twitter icon Argos, Indiana: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

416

Boswell, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Edit with form History Share this page on Facebook icon Twitter icon Boswell, Indiana: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

417

Columbus, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Edit with form History Share this page on Facebook icon Twitter icon Columbus, Indiana: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

418

Camden, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Edit with form History Share this page on Facebook icon Twitter icon Camden, Indiana: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

419

Michigantown, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

with form History Share this page on Facebook icon Twitter icon Michigantown, Indiana: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

420

Montpelier, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Edit with form History Share this page on Facebook icon Twitter icon Montpelier, Indiana: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

Note: This page contains sample records for the topic "distributed energy resource" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


421

Clifford, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Edit with form History Share this page on Facebook icon Twitter icon Clifford, Indiana: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

422

Bristol, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Edit with form History Share this page on Facebook icon Twitter icon Bristol, Indiana: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

423

Brownstown, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Edit with form History Share this page on Facebook icon Twitter icon Brownstown, Indiana: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

424

Borden, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Edit with form History Share this page on Facebook icon Twitter icon Borden, Indiana: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

425

Winchester, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Edit with form History Share this page on Facebook icon Twitter icon Winchester, Indiana: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

426

Angola, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Edit with form History Share this page on Facebook icon Twitter icon Angola, Indiana: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

427

Alfordsville, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

with form History Share this page on Facebook icon Twitter icon Alfordsville, Indiana: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

428

Bloomfield, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Edit with form History Share this page on Facebook icon Twitter icon Bloomfield, Indiana: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

429

Avilla, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Edit with form History Share this page on Facebook icon Twitter icon Avilla, Indiana: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

430

Brookston, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Edit with form History Share this page on Facebook icon Twitter icon Brookston, Indiana: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

431

Cannelton, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Edit with form History Share this page on Facebook icon Twitter icon Cannelton, Indiana: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

432

Amo, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Page Edit with form History Share this page on Facebook icon Twitter icon Amo, Indiana: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

433

Bloomington, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

with form History Share this page on Facebook icon Twitter icon Bloomington, Indiana: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

434

Brazil, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Edit with form History Share this page on Facebook icon Twitter icon Brazil, Indiana: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

435

Carbon, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Edit with form History Share this page on Facebook icon Twitter icon Carbon, Indiana: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

436

Bremen, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Edit with form History Share this page on Facebook icon Twitter icon Bremen, Indiana: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

437

Amboy, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Page Edit with form History Share this page on Facebook icon Twitter icon Amboy, Indiana: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

438

Brooklyn, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Edit with form History Share this page on Facebook icon Twitter icon Brooklyn, Indiana: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

439

Burnettsville, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

with form History Share this page on Facebook icon Twitter icon Burnettsville, Indiana: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

440

Walton, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Edit with form History Share this page on Facebook icon Twitter icon Walton, Indiana: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

Note: This page contains sample records for the topic "distributed energy resource" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


441

Boonville, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Edit with form History Share this page on Facebook icon Twitter icon Boonville, Indiana: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

442

Chalmers, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Edit with form History Share this page on Facebook icon Twitter icon Chalmers, Indiana: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

443

Altona, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Edit with form History Share this page on Facebook icon Twitter icon Altona, Indiana: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

444

Batesville, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Edit with form History Share this page on Facebook icon Twitter icon Batesville, Indiana: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

445

Kirklin, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Edit with form History Share this page on Facebook icon Twitter icon Kirklin, Indiana: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

446

Indianapolis, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

with form History Share this page on Facebook icon Twitter icon Indianapolis, Indiana: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

447

Chandler, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Edit with form History Share this page on Facebook icon Twitter icon Chandler, Indiana: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

448

Bedford, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Edit with form History Share this page on Facebook icon Twitter icon Bedford, Indiana: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

449

Brook, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Page Edit with form History Share this page on Facebook icon Twitter icon Brook, Indiana: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

450

Carthage, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Edit with form History Share this page on Facebook icon Twitter icon Carthage, Indiana: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

451

Attica, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Edit with form History Share this page on Facebook icon Twitter icon Attica, Indiana: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

452

Butler, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Edit with form History Share this page on Facebook icon Twitter icon Butler, Indiana: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

453

Bicknell, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Edit with form History Share this page on Facebook icon Twitter icon Bicknell, Indiana: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

454

Carlisle, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Edit with form History Share this page on Facebook icon Twitter icon Carlisle, Indiana: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

455

Brooksburg, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Edit with form History Share this page on Facebook icon Twitter icon Brooksburg, Indiana: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

456

Rossville, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Edit with form History Share this page on Facebook icon Twitter icon Rossville, Indiana: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

457

Cadiz, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Page Edit with form History Share this page on Facebook icon Twitter icon Cadiz, Indiana: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

458

Marion, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Edit with form History Share this page on Facebook icon Twitter icon Marion, Indiana: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

459

Bluffton, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Edit with form History Share this page on Facebook icon Twitter icon Bluffton, Indiana: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

460

Blountsville, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

with form History Share this page on Facebook icon Twitter icon Blountsville, Indiana: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

Note: This page contains sample records for the topic "distributed energy resource" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


461

Bethany, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Edit with form History Share this page on Facebook icon Twitter icon Bethany, Indiana: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

462

Galveston, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Edit with form History Share this page on Facebook icon Twitter icon Galveston, Indiana: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

463

Centerville, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

with form History Share this page on Facebook icon Twitter icon Centerville, Indiana: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

464

Brownsburg, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

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465

Boston, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Edit with form History Share this page on Facebook icon Twitter icon Boston, Indiana: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

466

Nashville, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Edit with form History Share this page on Facebook icon Twitter icon Nashville, Indiana: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

467

Bourbon, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Edit with form History Share this page on Facebook icon Twitter icon Bourbon, Indiana: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

468

Arcadia, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Edit with form History Share this page on Facebook icon Twitter icon Arcadia, Indiana: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

469

Alexandria, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Edit with form History Share this page on Facebook icon Twitter icon Alexandria, Indiana: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

470

Logansport, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

Edit with form History Share this page on Facebook icon Twitter icon Logansport, Indiana: Energy Resources Jump to: navigation, search Equivalent URI DBpedia Coordinates...

471

Bloomingdale, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

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472

Bryant, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

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473

Bainbridge, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

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474

Charlestown, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

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475

Avon, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

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476

Campbellsburg, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

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477

Birdseye, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

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478

Andrews, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

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479

Mulberry, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

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480

Alton, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

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Note: This page contains sample records for the topic "distributed energy resource" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


481

Atlanta, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

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482

Buffalo, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

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483

Aurora, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

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484

Burket, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

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485

Albion, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

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486

Anderson, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

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487

Ashley, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

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488

Onward, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

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489

Austin, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

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490

Colfax, Indiana: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

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491

Federal Energy Management Program: Renewable Energy Resources...  

NLE Websites -- All DOE Office Websites (Extended Search)

photovoltaic system on the Metcalfe Federal Building. This section explores renewable energy technologies and resources with a special focus on Federal application opportunities....

492

Green, Kansas: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

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493

Green, Oregon: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

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494

Fairview, Ohio: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

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495

Ashtabula, Ohio: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

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496

Ashland, Ohio: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

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497

Loudonville, Ohio: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

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498

Ohio, Illinois: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

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499

Delphos, Ohio: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

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500

Andover, Ohio: Energy Resources | Open Energy Information  

Open Energy Info (EERE)

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