Passive solar
From Wikipedia, the free encyclopedia
- For the application of passive solar technologies in buildings, see passive solar building design.
Passive solar refers to means of using sunlight for energy without active mechanical systems (as contrasted to active solar). Such technologies convert sunlight into usable heat (water, air, thermal mass), cause air-movement for ventilating, or store heat for future use, without the assistance of other energy sources. A solarium on the equator-side of a building is one common example. Passive solar also is used to describe technology and design principles to reduce summer cooling requirements. [1] Passive cooling is a subset of passive solar technology.
Technologies that use a significant amount of conventional energy to power pumps or fans are classified as active solar technologies. Some passive systems use a small amount of conventional energy to control dampers, shutters, night insulation, and other devices that enhance solar energy collection, storage, use, and reduce undesirable heat transfer.
Passive solar technologies include direct and indirect solar gain for space heating, solar water heating systems based on the thermosiphon, use of thermal mass and phase-change materials for slowing indoor air temperature swings, solar cookers, the solar chimney for enhancing natural ventilation, and earth sheltering.
More widely, passive solar includes technologies such as the solar furnace and solar forge, but these typically require some external energy for aligning their concentrating mirrors or receivers, and historically have not proven to be practical or cost effective for wide-spread use. 'Low-grade' energy needs, such as space and water heating, have proven, over time, to be better applications for passive solar energy utilization.
[edit] Advantages and comparisons to active solar
Passive solar systems have little to no operating costs, often have low maintenance costs, and emit no greenhouse gases in operation. They do, however, need to be optimized to yield the best performance and economics. Energy conservation reduces the needed size of any renewable or conventional energy system, and greatly enhances the economics, so it must be performed first. Passive solar technologies often yield high solar savings fractions, especially for space heating; when combined with active solar technologies or photovoltaics, even higher conventional energy savings can be achieved.
[edit] See also
- Active solar
- Architecture
- Architectural engineering
- Passive solar building design
- Solar energy
- Renewable heat
- Sun path
- Sustainable architecture
[edit] External links
- Passive Solar Design
- Insulation calculator for passive design
- Canadian Solar Buildings Research Network
- www.greenbuilder.com Passive Solar Design
- www.eere.energy.gov US Department of Energy (DOE) Guidelines
- www.ornl.gov Oak Ridge National Laboratory (ORNL) Building Technology
- www.ZeroEnergyDesign.com 28 Years of Passive Solar Building Design
- Residential Green Building Checklist
- Commercial Green Building Checklist
- Passive Solar Design Guidelines
- www.PassiveSolarEnergy.info Passive Solar Energy Technology Overview