Photovoltaic and solar-thermal technologies in residential building codes, tackling building code requirements to overcome the impediments to applying new technologies
- eds.
This report describes the building code requirements and impediments to applying photovoltaic (PV) and solar-thermal technologies in residential buildings (one- or two-family dwellings). It reviews six modern model building codes that represent the codes to be adopted by most locations in the coming years: International Residential Code, First Draft (IRC), International Energy Conservation Code (IECC), International Mechanical Code (IMC), International Plumbing Code (IPC), International Fuel Gas Code (IFGC), and National Electrical Code (NEC). The IRC may become the basis for many of the building codes in the United States after it is released in 2000, and it references the other codes that will also likely become applicable at that time. These codes are reviewed as they apply to photovoltaic systems in buildings and building-integrated photovoltaic systems and to active-solar domestic hot-water and space-heating systems. The first discussion is on general code issues that impact the s e technologies-for example, solar access and sustainability. Then, secondly, the discussion investigates the relationship of the technologies to the codes, providing examples, while keeping two major issues in mind: How do the codes treat these technologies as building components? and Do the IECC and other codes allow reasonable credit for the energy impacts of the technologies? The codes can impact the implementation of the above technologies in several ways: (1) The technology is not mentioned in the codes. It may be an obstacle to implementing the technology, and the solution is to develop appropriate explicit sections or language in the codes. (2) The technology is discussed by the codes, but the language is confusing or ambiguous. The solution is to clarify the language. (3) The technology is discussed in the codes, but the discussion is spread over several sections or different codes. Practitioners may not easily find all of the relevant material that should be considered. The so lution is to put all relevant information in one section or to more clearly reference relevant sections. (4) The technology is prohibited by the code. Examples of this situation were not found. However, energy credit for some technologies cannot be achieved with the requirements of these codes. Finally, four types of future action are recommended to make the codes reviewed in this report more accommodating to renewable energy technologies: (1) Include suggested language additions and changes in the codes; (2) Create new code sections that place all of the requirements for a technology in one section of an appropriate code; (3) Apply existing standards, as appropriate, to innovative renewable energy and energy conservation technologies; and (4) Develop new standards, as necessary, to ease code compliance. A synergy may be possible in developing suitable code language changes for both photovoltaic and solar hot-water systems. The installation of rooftop photovoltaic panels and solar hot- water collectors involves many overlapping issues. Roof loading, weather tightness, mounting systems, roof penetrations, and similar concerns are identical for both technologies. If such work can be coordinated, organizations supporting both technologies could work together to implement the appropriate revisions and additions to the codes.
- Research Organization:
- National Renewable Energy Lab., Golden, CO (US) (US)
- Sponsoring Organization:
- US Department of Energy (US) (US)
- DOE Contract Number:
- AC36-99GO10337
- OSTI ID:
- 750931
- Report Number(s):
- NREL/TP-520-26579; TRN: AH200037%%427
- Resource Relation:
- Other Information: PBD: 4 Oct 1999; PBD: 4 Oct 1999
- Country of Publication:
- United States
- Language:
- English
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Related Subjects
14 SOLAR ENERGY
15 GEOTHERMAL ENERGY
BUILDING CODES
ENERGY CONSERVATION
FUEL GAS
GEOTHERMAL HOT-WATER SYSTEMS
RESIDENTIAL BUILDINGS
SOLAR ACCESS
SPACE HEATING
PHOTOVOLTAICS
SOLAR THERMAL
IMPEDIMENTS
BUILDING-INTEGRATED PHOTOVOLTAIC SYSTEMS
ACTIVE-SOLAR DOMESTIC HOT-WATER AND SPACE-HEATING SYSTEMS