Optimization of Greenhouse Microclimate Parameters Considering the Impact of CO2 and Light

Q3 Environmental Science Tikrit Journal of Engineering Sciences Pub Date : 2023-01-01 DOI:10.21272/jes.2023.10(1).g2

Serhii Sokolov

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引用次数: 1

Abstract

The most critical parameters of the microclimate in greenhouses are air and soil temperature, air and soil moisture, plant illumination, and carbon dioxide (CO2) concentration in photosynthesis. New energy sources and resource-efficient management of microclimate parameters in greenhouses can be utilized to reduce greenhouse crop cultivation costs and increase profits. As the plant mass increase depends on photosynthesis, which involves the formation of glucose in the plant chloroplasts from water and carbon dioxide under the influence of light radiation, the saturation of greenhouses with carbon dioxide has become popular in recent decades. However, insufficient light slows down the process of glucose formation, while excessive light intensity negatively affects photosynthesis. Based on the experimentally proven Van Henten model of plant growth and using the MATLAB environment, a methodology was proposed, and the dependence between CO2 concentration and leaf lettuce illumination power required for maximum photosynthesis was determined. It is equal to 0.57 ppm/(W/m2). Such dependence should be considered when designing control systems to reduce resource and energy costs for greenhouse crop cultivation while ensuring maximum yield.

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考虑CO2和光照影响的温室小气候参数优化

温室小气候最关键的参数是空气和土壤温度、空气和土壤湿度、植物光照和光合作用中二氧化碳(CO2)浓度。利用新能源和温室小气候参数的资源高效管理，可以降低温室作物种植成本，提高利润。由于植物质量的增加取决于光合作用，光合作用涉及在光辐射的影响下，植物叶绿体中由水和二氧化碳形成葡萄糖，近几十年来，二氧化碳饱和温室已成为流行。然而，光照不足会减慢葡萄糖的形成过程，而过度的光照强度会对光合作用产生负面影响。基于实验证明的Van Henten植物生长模型，利用MATLAB环境，提出了一种方法，确定了CO2浓度与生菜叶片最大光合作用所需光照功率之间的依赖关系。等于0.57 ppm/(W/m2)。在设计控制系统时应考虑到这种依赖性，以减少温室作物种植的资源和能源成本，同时确保最大产量。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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