Photovoltaic windows can reduce energy consumption in greenhouses by 57%
Researchers from Australia’s Murdoch University and ClearVue Technologies have developed new solar windows that can reportedly reduce energy consumption and water usage in greenhouses. “The core concept for this project is to harvest food and energy simultaneously so that we can overcome the food, energy, and environment trilemma challenge,” corresponding author Professor Chengdao Li told pv magazine.
To test the proposed innovation, they designed and constructed a greenhouse with high-transparency PV windows placed on the roof and the walls. Throughout two growing seasons, they measured the yield of 18 different crops growing in that greenhouse, along with electricity production and water consumption.
“Solar greenhouses with rooftop-mounted high-transparency photovoltaic modules use a portion of the captured sunlight to generate electricity by the solar cells while allowing the remaining sunlight to pass through into the greenhouse for plant growth and food production,” the team explained. “However, at the present stage, there has been no practical implementation of a fully operational solar greenhouse to assess its actual energy consumption, power generation capabilities, and crop production potential.”
The research-scale greenhouse was built in Perth, Western Australia. It consisted of four rooms, each 8 m long and 6 m wide. Room 1 was glazed with conventional low-iron, ultra-clear glass, while rooms 2, 3, and 4 used solar glass.
Two types of polyvinyl butyral (PVB) designs were used, including PVB-1, a lower doping concentration for higher-clarity windows, and PVB-2, with a slightly higher luminescence. The solar glass in room 2 used two PVB-2 interlayers; in room 3, a combination of PVB-1 and PVB-2 was used, while room 4 used a single PVB-1 interlayer paired with an ordinary PVB interlayer.
“ClearVue Technologies developed a high-transparency PV glass product, designed through the innovative application of advanced glazing using fluorescent concentrator panels, spectrally selective thin-film coatings, and custom-designed silicon-based solar cell modules,” the academics added, noting that the windows have direct visible light transmission (VLT) of around 60% and total (direct plus diffused) VLT of around 70%, with a power conversion efficiency of about 3.3% and electric power output of 30–33 Wp/m2.
Image: Murdoch University, Cleaner Engineering and Technology, CC BY 4.0
A total of 153 clear solar windows were installed in the greenhouse. They were able to power the fans, air-conditioners, shades, and ventilation louvers. Surplus PV-generated energy was also exported to the electricity grid. At night, the greenhouse operation relied on electricity from the grid. Growing season 1 was from July to December 2021, and growing season 2 was from March to September 2022.
“The crops include horticultural crops commonly produced in greenhouse farming and broadacre crops. Strawberry, lettuce, tomato, dwarf bean, spinach, mustard, basil, snow pea, chili, and bell pepper were selected for this study due to their common use in commercial greenhouse farming,” the academics explained. “On the other hand, wheat, barley, canola, lupin, chickpea, ginger, sunflower, and sweet corn were included because they are either broadacre crops or economically significant. While these crops are not typically grown commercially in greenhouses, they are widely cultivated for research purposes, particularly in breeding programs.”
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