PVT modules combine solar power and heat generation, boosting efficiency by up to 15%. They save space, are cost-effective, reliable, and suitable for various applications. Specifications include 1700W power, stainless steel core, and advanced certifications.
Photovoltaics (PV) convert solar energy into electricity and can be used to heat air. Using new PV/T systems, PV panels are mounted above thermal panels, generating 100% renewable electricity and heat from the same surface. This cogeneration technology is also applicable to solar PV/T roof applications. Photovoltaic (PV) Component: PV panels convert solar radiation into electrical current, which can be used on-site, stored, or fed back into the grid for economic incentives. However, most of the solar radiation striking the PV panels is lost as heat energy. Thermal (T) Component: The system also acts as a PV mounting system, extracting excess heat from the PV components, significantly increasing their power output. The heat generated by the PV and solar thermal panels is used to heat the building's fresh air supply. Existing HVAC intake fans draw this solar-heated fresh air through micropores in the panels, via insulated mechanical ducts, and into the HVAC unit.
Photovoltaic Thermal Module Parameters
Parameter
Specification
Total Power
1700W
Panel Core Material
Stainless Steel
Thermal Power
1150W
Heat Exchange Area
2.56m²
Glass Type
Ultra-clear low-iron textured tempered glass
Heat Exchange Medium
PVT special antifreeze
Glass Dimensions
227211283.2mm
Heat Exchange Diameter
4-point external thread
Product Dimensions
2279113435mm
Working Temperature
-40℃-85℃
Frame Material
Aluminum Alloy
Insulation Material
EPP insulation
Working Pressure
<0.2Mpa
Module Weight
45KG
Certifications
IEC61215, IEC61730, TUV, CE, ISO 9001:2015, ISO 14001:2015, ISO 45001:2018
PVT Module Features:
Photovoltaic/Thermal Integration: Uses solar PVT modules to provide hot water or heating while generating electricity, coupling PVT modules with a multi-energy system to meet both electrical and thermal needs.
Space-saving: Achieves both power generation and heating in limited space.
Comprehensive Product and Certification System: Stricter internal testing than industry standards.
Improved Photovoltaic Efficiency: Reduces the temperature of photovoltaic modules through a full-flow channel system on the back, increasing power generation efficiency by 8-15%.
PVT Product Testing: Two 100% EL tests, one insulation resistance test, two airtightness inspections.
Photovoltaic Thermal Integration Solution
Combining photovoltaic and thermal systems for high solar energy utilization.