Design and simulation of efficient solar thermal water heating system for textile industries in Pakistan

IF 0.6 Q3 ENGINEERING, MULTIDISCIPLINARY

Mehran University Research Journal of Engineering and Technology Pub Date : 2023-09-29 DOI:10.22581/muet1982.2304.2655

Hafiz Usama Hashmat, Mohammad Aamir Khan

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Abstract

Pakistan is facing a severe crisis of energy since 2004. The core causes behind this crisis of energy are the lack of usage of advanced tools in policy development and planning, poor governance and dependency on other sources of energy which are also limited. In this research the design of a solar thermal system to produce hot water at a specified temperature has been presented as solar energy is available in abundance. A flow rate of 80 tons per day of hot water has been assumed. This system may run for 16 hours a day and it will require 5 tons of water per hour at the input. Water at ambient temperature of 25℃ enters the system and hot water at 75℃ is produced by the system. This design is implemented on TRNSYS software which validates the temperature achievement of 75℃ at outlet. It is shown that the collector area of flat plate solar collectors is 600m2. This temperature configuration is an essential requirement for textile industry and it is achieved efficiently. It is a good replacement for the industry working with expensive energy sources like diesel, gas or furnace oil.

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巴基斯坦纺织工业高效太阳能热水系统的设计与仿真

自2004年以来，巴基斯坦面临着严重的能源危机。这场能源危机背后的核心原因是在政策制定和规划中缺乏先进工具的使用，治理不善以及对其他有限能源的依赖。在本研究中，由于太阳能资源丰富，提出了在特定温度下生产热水的太阳能热系统的设计。假设每天热水的流量为80吨。这个系统每天可以运行16个小时，每小时输入需要5吨水。环境温度为25℃的水进入系统，系统产生75℃的热水。本设计在TRNSYS软件上实现，验证了出口温度达到75℃。结果表明，平板太阳能集热器的集热器面积为600m2。这种温度配置是纺织工业的基本要求，并且可以有效地实现。这是一个很好的替代行业使用昂贵的能源，如柴油，天然气或炉油。

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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来源期刊

Mehran University Research Journal of Engineering and Technology ENGINEERING, MULTIDISCIPLINARY-

自引率

0.00%

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审稿时长

40 weeks