加强印度不同气候带房屋的被动冷却和自然通风

2019 IEEE 2nd International Conference on Power and Energy Applications (ICPEA) Pub Date : 2019-04-01 DOI:10.1109/ICPEA.2019.8818531

Shubham Kashyap, Vivek Kumar Gaba, Anil Kumar Tiwari

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引用次数: 3

摘要

在这项工作中，提出了一种基于太阳能的安排。该系统的功能是在房间内创造自然通风，并冷却进入室外的新鲜空气。本研究的目的是透过以自然通风及冷却系统取代电气通风及冷却系统，以减少家庭用电量。拟议的系统包括两个子系统，即(i)太阳能烟囱(SC)产生通风，以及(ii)蒸发冷却腔(ECC)冷却进入的新鲜空气。建立了太阳能烟囱和蒸发冷却腔的数学模型。为了实现这些模型的求解，编写了MATLAB代码。ISHRAE气候数据已被用于在印度不同气候带下对拟议系统的性能评估。印度有6个气候带;太阳能烟囱已被发现在所有6个气候带全年使用一段时间。耦合排列适合于(i)亚热带热气候带、(ii)热带干湿气候带、(iii)热带半干旱气候带和(iv)沙漠气候带。研究结果表明，该系统在沙漠气候区一年可节省高达1308千瓦时的电力。

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Enhancing Passive Cooling and Natural Ventilation for Houses of Various Climatic Zones of India

In this work an arrangement based on solar energy has been proposed. The functions of the proposed system are to create natural ventilation in a room and to cool the entering outdoor fresh air. The purpose of this study is to reduce household electricity consumption by replacing the electrical ventilation and cooling system with the natural ventilation and cooling system. The proposed system comprises two subsystems, namely (i) Solar Chimney (SC) for creating ventilation, and (ii) Evaporative Cooling Cavity (ECC) for cooling the entering fresh air. The mathematical models for both the solar chimney and evaporative cooling cavity have been developed. For achieving the solution of these models a MATLAB code has been prepared. ISHRAE climate data have been used for the performance evaluation of the proposed system under different climatic zones of India. Indian has 6 climate zones; solar chimney has been found to use in all 6 climate zones for a period of the whole year. The coupled arrangement has been found suitable for (i) Hot subtropical, (ii) Tropical wet and dry, (iii) Tropical semi-arid, and (iv) Desert climate zone. The finding shows that the proposed system can save up to 1308 kWh of electricity in one year period in the Desert climate zone.

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来源期刊

2019 IEEE 2nd International Conference on Power and Energy Applications (ICPEA)

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