Introduction
Our Solar PVT panel are designed to be used in a number of residential and commercial applications.Now is a great time to start minimizing your energy consumption, maximizing your savings, and providing your family with seamless backup power when you need it most. Our experts offer professional PVT integrated electricity hot water solar panel family solution.
For the home, a roof-top array can generate thermal energy to supply a family’s hot water needs. It can also supply all the energy needed to supply an under-floor radiant heating system. If you own a boiler, our Solar PVT panel can supply up to 70% your existing boiler consumption needs. With the addition of a thermal storage unit, the energy generated by an Solar PVT panel array can be utilized any time; day, night or on cloudy days when the amount of available sunlight is limited. Solar PVT panel can be the foundation for a truly environmentally friendly home. Integrating a low temperature differential engine will put your home one step closer to energy independence. The energy provided by a PV-Thermal system will generate carbon free electricity, displace carbon-based heating fuels such as oil and natural gas and reduce your household’s carbon footprint to a minimum.
System Features
Generate free electricity & hot water ,best of Both WorldsCan combine with a heat pumpGreen deal funding,Earn an income for all energy generatedCompletely maximise the potential energy on your roofMore efficient than standard Solar PV as the panel is kept cool by the circulating waterReduce carbon foot print
Characteristics & Performance
Use of only certified materials at highest quality standards.The process of cell and module production is fully automated with 100% quality control and product traceability.Excellent performances even during low solar radiationGuaranteed positive tolerance 0 to +3% of power for each module
Typical PV VS UNIEPU PVT
Typical PV modules have a solar conversion efficiency up to 15%. What happens to the rest of the sun’s energy that shines on the panels? Most of it is converted into heat energy, which normally is lost and provides no value to the system owner. As well, the heat build-up behind PV modules reduces the electrical output by 0.4-0.5% for every 1°C above its rated output temperature, which is 25°C (77°F). For every 1°C (1.8°F) above 25°C, the electrical output drops by 0.4 to 0.5 percent. A typical rooftop PV array may measure 55 to 75°C (131 to 167°F), which means its electrical output would fall by 12 to 25 per cent below the name plate rating. For example, a 10-kw array only generates 7.5 to 8.8 kW under these temperature conditions. Our PVT system lowers the photovoltaic temperature by 10 to 20°C (18 to 36°F), which increases the electrical output by five to 10 per cent, or an extra 0.5 to 1 kw for a 10-kw array.
