The application of thermally conductive materials in the photovoltaic industry

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Photovoltaic industry admin 2023-11-20 17:38:28 413

Thermally conductive materials can improve the heat dissipation efficiency of photovoltaic cells, reduce the temperature of photovoltaic cells, and thus improve the working efficiency of photovoltaic cells.

Improve the thermal conductivity of photovoltaic modules: Thermally conductive materials can improve the heat transfer performance between different layers of photovoltaic modules, thereby effectively transferring heat to the cold addition system, reducing the temperature of photovoltaic modules, and increasing the output power of photovoltaic components. Reduce the temperature of the photovoltaic inverter, protect the inverter components from high temperatures, and reduce the potential safety hazards of the inverter due to temperature overload. Protect the structure and performance of photovoltaic cells: Thermally conductive materials can play a role in filling and protecting photovoltaic modules, protecting the properties of photovoltaic electricity from being affected by external temperature and pressure, while reducing stress caused by temperature changes and prolonging the service life of photovoltaic modules. Reduce the weight and volume of PV modules: Thermally conductive materials have good thermal conductivity and can reduce the volume of heat dissipation components in PV modules.

2-4W/m·K Thermal Conductive Gel: Thermal Conductive Gel is a soft silicone resin thermally conductive gap filling material with excellent self-adhesive properties, easy handling, reusable and other properties.

2-4W/m·K Thermal Pads: Compressible, soft and elastic, cushioning and shockproof for applications under low pressure.

1~3W/m·K Thermally Conductive Encapsulant: It has thermal stability, thermal shock resistance, and excellent electrical insulation.


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