Modeling of parabolic collector (a new approach of concentration ratio calculation)

IF 1.1 Q3 Engineering Journal of Thermal Engineering Pub Date : 2022-10-31 DOI:10.18186/thermal.1197152

T. Jabbar, R. S. Batbooti, Bassam A. Mohammed

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Abstract

Modern engineering challenges require the world to use renewable and environmentally friendly energy. One of the most important forms of renewable energy is solar energy. The parabolic collector is a popular collector used to absorb solar energy. In this study, a new approach is used to calculate the radiation concentration ratio in a parabolic collector. The concentration ratio is calculated from the ratio of the reflection beam to the incident beam radiation, and it depends on two main variables: the collector width (W) and the focal length (P). The model is tested and compared to results from previously published work. The comparison showed that the model results can be relied upon for accuracy and are compatible with published results. The results indicate that increasing the width of the collector (W) leads to an increase in the concentration ratio (RC), while the contrary is true when the focal length (P) increased. The collector efficiency minimum values were 19.3%, 21.07 %, 22.35% and 23.33% at concentration ratios of 69, 80, 103 and 148 in line with the focus length values of 0.6m, 0.7m, 0.8m and 0.9m, respectively. The developed model is applied according to the conditions of Basra, Iraq (47.78o longitude and 30.5o latitude).

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抛物面集热器的建模(一种新的浓缩比计算方法)

现代工程的挑战要求世界使用可再生和环保的能源。太阳能是最重要的可再生能源形式之一。抛物面收集器是一种常用的用于吸收太阳能的收集器。在这项研究中，使用了一种新的方法来计算抛物面收集器中的辐射浓度比。浓度比是根据反射光束与入射光束辐射的比率计算的，它取决于两个主要变量：收集器宽度（W）和焦距（P）。对该模型进行了测试，并将其与之前发表的工作结果进行了比较。比较表明，模型结果的准确性是可靠的，并且与已发表的结果兼容。结果表明，集电极宽度（W）的增加导致浓度比（RC）的增加，而焦距（P）的增加则相反。在浓度比为69、80、103和148时，收集器效率的最小值分别为19.3%、21.07%、22.35%和23.33%，与焦距值0.6米、0.7米、0.8米和0.9米一致。根据伊拉克巴士拉（东经47.78°，北纬30.5°）的情况，应用了所开发的模型。

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

Journal of Thermal Engineering THERMODYNAMICS-

CiteScore

2.40

自引率

18.20%

发文量

审稿时长

4 weeks

期刊介绍： Journal of Thermal Enginering is aimed at giving a recognized platform to students, researchers, research scholars, teachers, authors and other professionals in the field of research in Thermal Engineering subjects, to publish their original and current research work to a wide, international audience. In order to achieve this goal, we will have applied for SCI-Expanded Index in 2021 after having an Impact Factor in 2020. The aim of the journal, published on behalf of Yildiz Technical University in Istanbul-Turkey, is to not only include actual, original and applied studies prepared on the sciences of heat transfer and thermodynamics, and contribute to the literature of engineering sciences on the national and international areas but also help the development of Mechanical Engineering. Engineers and academicians from disciplines of Power Plant Engineering, Energy Engineering, Building Services Engineering, HVAC Engineering, Solar Engineering, Wind Engineering, Nanoengineering, surface engineering, thin film technologies, and Computer Aided Engineering will be expected to benefit from this journal’s outputs.