Scientists in Indonesia have developed a vacuum technique to lower the temperature of PV modules below the ambient air temperature. They applied it to a solar module in a casing that is resistant to negative pressure.
The passive cooling method involves a casing to apply negative pressure around the PV module. Negative pressure is pressure that is less than the existing atmospheric pressure and is a condition under which the air pressure is lower in one place in comparison to another.
“If the pressure of a room is lowered, it will cause the room temperature to decrease,” the scientists explained.
They applied this to a solar module a casing frame made of board material with a thickness of 18 mm. The casing is covered with 5 mm glass – resistant enough to withstand negative pressure. It uses a valve to allow air to be sucked from the casing by a vacuum pump and a pressure sensor to measure the pressure conditions in the PV casing chamber.
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The researchers used a temperature sensor to monitor the top and bottom surfaces of the PV module and a temperature logger to collect all data. They compared the performance of the cooled panel with that of a reference module without cooling at an ambient air temperature of around 35 C to 36 C.
They found that the cooled module had a current ranging from 0.89 A to 0.91 A, while the reference module was just 0.62 A. They found that the temperature at the top of the PV panel under vacuum pressure reached a temperature of between 29 C and 30 C, while that of the uncooled module was between 44 C and 45 C. ”
Suryanto said that adding this cooling technique to a PV system could result in an additional cost of $30/kW to $50/kW.
“Regarding plans for mass production we will seriously consider them in the near future, of course with the cooperation of interested industry parties,” he concluded. “A further investigation on the tech costs should be conducted in future work.”
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