Design and Analysis of Ventilation System for Closed Poultry House in Tropical Climate Conditions

Journal of World's Poultry Research Pub Date : 2023-09-25 DOI:10.36380/jwpr.2023.35

Kapil A. Saner, Sanjay P. Shekhawat

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Abstract

The climate significantly impacts the temperature in different parts of the world. A moderate environment makes it simple to construct a chicken farm. Nevertheless, raising the birds in tropical places where typical temperatures can exceed 40-45°C is difficult because they can only survive at temperatures between 30°C and 35°C. As a result, the current study aimed to design a chicken house with a ventilation and cooling system to prevent excessive heat. The effectiveness of ventilation systems in maintaining liveable and constant conditions at the chicken house was assessed using computational fluid dynamics modeling to mimic internal and external airflows. In this study, a water evaporator-based cooling system and an exhaust fan-based ventilation system were built within a poultry house. ANSYS CFD was utilized to create the design and examine the flow of the model. The findings of each model were generated individually, and these results were compared to those of the other models to determine which model could decrease the temperature within the chicken coop. The proposed model's maximum temperature was around 30-32°C. A poultry house can be constructed using this idea to maintain chickens at a suitable temperature range of 30-32°C.

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热带气候条件下闭式鸡舍通风系统设计与分析

气候显著影响着世界各地的温度。适度的环境使养鸡场的建设变得简单。然而，在典型温度超过40-45°C的热带地区饲养鸟类是困难的，因为它们只能在30 - 35°C之间生存。因此，目前的研究旨在设计一个带有通风和冷却系统的鸡舍，以防止过热。利用计算流体动力学模型模拟内部和外部气流，评估了通风系统在维持鸡舍宜居和恒定条件方面的有效性。在本研究中，在鸡舍内建立了一个以蒸发器为基础的冷却系统和一个以排气扇为基础的通风系统。利用ANSYS CFD进行了模型的设计和流程校核。每个模型的结果分别产生，并将这些结果与其他模型的结果进行比较，以确定哪种模型可以降低鸡舍内的温度。该模型的最高温度约为30-32°C。用这种方法可以建造鸡舍，使鸡保持在30-32°C的合适温度范围内。

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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Journal of World's Poultry Research

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