Energy harvesting: off-grid microwatt to megawatt 2017-2027
Juin 23, 2016 Dr Peter Harrop
The new IDTechEx report, Energy Harvesting: Off-grid Microwatt to Megawatt 2017-2027 tells a remarkable story of these twelve magnitudes of green electricity production. To be precise, Energy Harvesting (EH) is the production of off-grid electricity where it is needed using ambient energy. Energy harvesting is the clean part of what is popularly called "Off-grid Renewable Energy". Examples of EH sources: ultraviolet, visible light, infrared, movement - rotation or linear, friction, wind, wave, tide .......Dirty off-grid renewable energy is based on burning biofuels.
The characteristics of energy harvesting (clean off-grid renewable energy) are usually:
- Intermittent but lasts longer than a primary battery
- Virtually maintenance-free: fit and forget
- No pollution at point of creation of electricity and at point of use of this electricity which is usually nearby.
- Produces 0.1 microwatts to 1MW when functioning
- Renewable energy including from human or animal
- EH electricity usually needs to be stored and presented later at a different impedance, voltage and current.
- EH may do all of the job or part of the job such as powering a community or propelling a car.
The difference between low and high power energy harvesting is arbitrary. Indeed, often the same technologies are popular at all powers. However, the distinction is useful to highlight some differences as shown below.
Energy Harvesting: Off-grid Microwatt to Megawatt 2017-2027 embraces making electricity from humans, wind, sun, waves, tide, thermals and other ambient sources where it is needed and with no pollution. It even covers regenerative harvesting as with a propeller going backwards as an aircraft descends and, for land vehicles, regenerative braking of wheels and construction vehicle arms, regenerative suspension, thermoelectrics, turbine in the exhaust and more.
Top image: Wikipedia