以孟加拉国为背景的卧式地水管换热器(EWPHE)参数优化和效率评估

Md Shahriar Hossain, Md Tashfique Enam Tutul, Tanvir Ahmed Rifat, Mamunul Karim
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引用次数: 0

摘要

本研究旨在通过在孟加拉国 Joypurhat 进行的模拟和实验工作,在一年中最寒冷的一月评估孟加拉国土水管热交换器(EWPHE)系统的效率。此外,该研究还试图确定选择 EWPHE 最佳安装参数的方法,以提高性能和效率。在 TRNSYS(v16.0)平台上建立了一个模拟模型,以确定设计参数的最佳值。通过改变水流速度、管道长度、管道建筑材料和地下管道直径等运行参数进行模拟。研究结果表明,管道埋设深度为 3.5 米,可达到最佳输出效果。对四种不同材料(即大理石管道、钢管、聚氯乙烯和高密度聚乙烯)进行比较的结果表明,这些材料的特性对系统的性能影响不大。此外,随着水流量的增加,EWPHE 的性能也在下降。根据模拟结果,可以得出结论,在拟议的 EWPHE 系统中,50 米长的管道足以将平均温度从 35 ℃ 降至 27 ℃。随后,在现场实验中,EWPHE 系统在整个一月份的平均功效为 55%,这是非常有前途的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Parametric Optimization and Efficiency Assessment of Horizontal Earth Water Pipe Heat Exchanger (EWPHE) in the Context of Bangladesh
This study aimed to evaluate the efficiency of the Earth Water Pipe Heat Exchanger (EWPHE) system in Bangladesh through simulation and experimental work carried out at Joypurhat in Bangladesh during the coldest period of the year, January. Additionally, the study sought to establish the method for selecting optimal installation parameters of EWPHE to increase performance and efficiency. A simulation model was made in the TRNSYS (v16.0) platform to determine the optimum values of design parameters. The simulation was run by altering its operating parameters, such as the rate of water flow, length of the pipe, built materials of the pipe, and the diameter of the underground pipeline. According to the findings, pipe burial can be done to a depth of 3.5 meters to achieve optimal output. The results of comparing four distinct materials, namely GI, Steel, PVC, and HDPE, show that these materials' characteristics do not significantly affect how well the systems perform. Additionally, as the water flow rate is increased, it is shown that the EWPHE performance is declining. According to the simulation results, it is concluded that a pipe with a length of 50 meters would be sufficient in the proposed EWPHE system to reach an average temperature decrease from 35 °C to 27 °C. Subsequently, in the field experiment, the EWPHE system had an average efficacy of 55% throughout January, which is quite promising. Journal of Engineering Science 14(2), 2023, 79-88
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