The impact of mechanical ventilation on Sfax City's greenhouse microclimate

Q2 Mathematics CFD Letters Pub Date : 2024-04-05 DOI:10.37934/cfdl.16.8.150162

Hamza Chiboub, Hasna Abid, mariem lajnef, Slim Zouari, Giovanni Gugliuzza, Maroua Mejri, Emilia Arrabito, zied Driss

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Abstract

The greenhouse serves as an enclosed structure designed to create a conducive environment for agricultural productivity, irrespective of the challenges posed by seasonal variations. Recognizing the contemporary complexities in agricultural management, our research endeavors involve the development of a comprehensive numerical model and the establishment of an experimental setup to delve into the nuanced impact of mechanical ventilation. Specifically, the study investigates the influence of four different entrance velocity values on airflow dynamics within agricultural greenhouses. The results illuminate the direct correlation between inlet velocity and various crucial variables, including temperature distribution, velocity field distribution, DO irradiation distribution, and static pressure distribution. Notably, at Vint = 12 m.s-1, the maximum temperature remains below Tmax = 307 K, while at Vint = 3 m.s-1, it reaches Tmax = 327 K. This underscores the pivotal role of accurate modeling and control for the optimal management of agriculture in the central region of Tunisia, particularly in Sfax.

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机械通风对斯法克斯市温室小气候的影响

温室是一种封闭式结构，旨在为农业生产创造有利环境，而不受季节变化带来的挑战的影响。认识到当代农业管理的复杂性，我们的研究工作包括开发一个综合数值模型和建立一个实验装置，以深入研究机械通风的细微影响。具体来说，研究调查了四种不同的入口速度值对农业温室内气流动态的影响。结果表明，入口速度与各种关键变量（包括温度分布、速度场分布、溶解氧辐照分布和静压分布）之间存在直接关联。值得注意的是，当 Vint = 12 m.s-1 时，最高温度保持在 Tmax = 307 K 以下，而当 Vint = 3 m.s-1 时，最高温度达到 Tmax = 327 K。

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来源期刊

CFD Letters Chemical Engineering-Fluid Flow and Transfer Processes

CiteScore

3.40

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0.00%

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