4.7 Article

Light environment simulation for a three-span plastic greenhouse based on greenhouse light environment simulation software

期刊

ENERGY
卷 271, 期 -, 页码 -

出版社

PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.energy.2023.126966

关键词

Plastic greenhouse; Light environment; Modle; Path tracing

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Research on light environment in greenhouses mainly focuses on solar greenhouses with simple structures, and the universality of illumination models is low to date. In order to study light environments in various types of greenhouses, a Greenhouse Light Environment Simulation software has been developed using ray tracing and Monte Carlo methods. The software analyzes the light path of the sampling point and has been verified and applied in a three-span plastic greenhouse. Results show that the mean relative errors are below 10% for each month and typical weather conditions, and the mean relative error of the simulated mean at any point in the greenhouse is less than 4%. Solar radiation intensity in the greenhouse is mainly affected by the solar incidence angle, while the solar radiation uniformity is mainly affected by the roof shape. The highest average solar radiation intensity in the greenhouse occurs in August (over 250 W/m2), while the lowest occurs in December (below 60 W/m2). When the greenhouse is oriented at 10 degrees east by south, the total solar radiation is 2% higher and the uniformity of daily solar radiation is 0.8% higher compared to when the greenhouse is oriented to the south.
Light environment research in greenhouses is mainly focused on solar greenhouses with simple structures; the universality of illumination models is low to date. To study the light environments in various of greenhouses, Greenhouse Light Environment Simulation software has been developed based on the ray tracing and Monte Carlo methods. The function of the software is to analyse the light path of the sampling point. The software has been verified and applied in a three-span plastic greenhouse. The results show that the mean relative errors of each month and typical weather conditions are less than 10%. The mean relative error of the simulated mean at any point in the greenhouse is less than 4%. The solar radiation intensity in the greenhouse is mainly affected by the solar incidence angle, and the solar radiation uniformity is mainly affected by the roof shape; the average solar radiation intensity in the greenhouse is the highest in August (over 250 W/m2), and the lowest in December, (below 60 W/m2). When the greenhouse is oriented at 10 degrees east by south, the total solar radiation is 2% higher and the uniformity of daily solar radiation is 0.8% higher than when the greenhouse is oriented to the south.

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