基于CFD的植物工厂冠层微环境管道通风效果模拟  被引量：9

作　　者：方慧[1,2] 伍纲 程瑞锋 仝宇欣[1,2] Fang Hui;Wu Gang;Cheng Ruifeng;Tong Yuxin(Institute of Environment and Sustainable Development in Agriculture,Chinese Academy of Agricultural Sciences,Beijing 100081,China;Key Laboratory of Energy Conservation and Waste Management of Agricultural Structures,Ministry of Agriculture and Rural Affairs,Beijing 100081,China)

机构地区：[1]中国农业科学院农业环境与可持续发展研究所,北京100081 [2]农业农村部设施农业节能与废弃物处理重点实验室,北京100081

出　　处：《农业工程学报》2021年第22期188-193,共6页Transactions of the Chinese Society of Agricultural Engineering

基　　金：国家重点研发计划战略性科技创新合作专项(2020YFE0203600)。

摘　　要：为增加植物工厂多层栽培模式中作物冠层内部气流扰动,该研究设计了一种冠层微环境管道通风装置,利用计算流体力学软件(Computational Fluid Dynamics,CFD)构建三维栽培模型。在模型中,将植物冠层区域考虑为多孔介质,多孔介质的黏滞阻力系数为25,惯性阻力系数为1.3;LED灯管设置为热源模型,热源模型散热量为297525 kW/m^(3)。利用模型模拟并实测入口速度为8 m/s时植物冠层表面和上部空间气流速度,发现空气流域的平均误差为16%,模拟值与实测值吻合较好。利用验证的模型模拟不同入口速度下植物冠层的气流分布,结果表明:进气速度设置为8 m/s,该速度下植物冠层内部适宜速度区域体积占比为67.58%,冠层表面适宜速度区域面积占比为55.23%,冠层内部气流平均速度为0.14 m/s。研究表明植物工厂冠层微环境管道通风模式能有效增加冠层气流扰动。Much more cultivation layers and high canopy density have posed great challenges to the even distribution of airflow in plant factories.It is highly required for the optimal design of airflow distribution systems,thereby improving the physiological orders and post-harvest quality for a high commercial value of the products.In this study,a ventilation system was designed with the three parallel lines of perforated air tubes,further to generate a constant airflow inside the plant canopy.The air tube was fabricated in a diameter of 20 mm with a length of 1500 mm using the layout and size of a cultivation shelf.Each air tube was equipped with two rows of jets.A three-dimensional computational fluid dynamics(CFD)model was developed to analyze the distribution of airflow in the plant’s canopy under different inlet velocities.Furthermore,the lettuce leaves were assumed as the porous medium with the drag coefficient of 0.02,resulting in a viscous resistance factor and the inertial resistance factor of 25 and 1.3,respectively.A LED lamp(Ø20 mm)was assumed as an aluminum substrate and a glass part.An energy term with a constant heat generation of 297525 W/m^(3) was also defined as the heat source lost by the volumetric convection from the LED lamp aluminum substrate part for the heat dissipation.The average error of simulated air velocity was 16%,compared with the measured.Three groups of air velocity(lower than 0.1 m/s,between 0.1 and 1.0 m/s,and higher than 1.0 m/s)were selected to calculate the proportion of the areas of the plant’s canopy surface and the volume proportion inside the plant’s canopy.The results showed that the percentage of air velocity at the lettuce canopy surface between 0.1 and 1 m/s increased from 33.33%to 68.57%,while,the percentage of volumes inside the plant’s canopy increased from 42.84%to 77.08%,respectively,when the air velocity increased from 6 to 9 m/s.By contrast,the percentage of volumes inside the plant’s canopy increased from 0.01%to 0.06%,with the air velocity higher than 1.0

关 键 词：通风 植物工厂 气流速度 多孔介质 CFD 

分 类 号：S625.4[农业科学—园艺学]