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Near-Infrared Reflective Greenhouse Covering: A Novel Strategy for Electricity-Free Cooling

Song Zhang, Zhang Chen, Chuanxiang Cao, Yanfeng Gao

2024ACS Agricultural Science & Technology11 citationsDOI

Abstract

Traditional cooling strategies for greenhouses commonly result in significant electricity consumption and a substantial release of carbon dioxide emissions. Considering the industrial fabrication process for the greenhouse covering film and the thermal management theory, we developed a composite greenhouse covering film that incorporates titanium dioxide into polyethylene to achieve near-infrared reflection. The film demonstrates an impressive near-infrared reflectance of 54.4% within the wavelength range of 780–2500 nm. A tunnel-type greenhouse demo comparative test results show that the composite film can effectively decrease the average temperature inside the greenhouse by 6.7 °C in comparison to the pure polyethylene film. The reduction implies a significant annual saving in cooling electricity at the national level of 2151912.3 MW h, along with an annual CO 2 emission reduction by 1250261.1 tons.

Topics & Concepts

GreenhouseElectricityMaterials scienceEnvironmental scienceInfraredPolyethyleneGreenhouse gasCarbon dioxideGreenhouse effectComposite numberEnvironmental engineeringOpticsComposite materialEngineeringElectrical engineeringChemistryGlobal warmingClimate changePhysicsEcologyBiologyHorticultureOrganic chemistryThermal Radiation and Cooling TechnologiesGreenhouse Technology and Climate ControlLight effects on plants
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