Solar heating involves the direct conversion of light into heat (see picture). This heat is generated through the absorption of the sun’s rays into the solar panel. Heat transfer fluid is pumped around the solar panel and through a special solar cylinder. This is where the heat exchange occurs, and water in the cylinder is heated.
We design and install systems that can provide 50-70% of annual domestic hot water and close to 100% during the summer months. The same percentage is applied to the savings on your heating bill and then reduction of carbon emissions.
Solar Photovoltaic (PV) systems convert energy from the sun into electricity and can make a real contribution to our energy needs. Light particles from the sun, called photons, get absorbed into the silicone solar panel and collide with the electrons that are present in the silicone. These collisions cause the electrons to move around inside the silicone material and this is what creates electricity.
A PV system in optimum position would generate approximately 850 kilowatt hours (kWh) a year for every 1 kilowatt peak (kWp) installed. For information about how you can benefit from solar power see our information on the feed-in tariff