Performance Evaluation of Solar Energy-driven Binary Rankine Cycle under Egyptian Climatic Conditions

Engineering Research Journal Pub Date : 2023-06-01 DOI:10.21608/erj.2023.302299

Mohamed A. M. Morsy, A. Mostafa, Mohamed A. A. Nawar, E. Elgendy

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Abstract

The importance of the Organic Rankine Cycle (ORC) comes from dealing with low-quality energy sources resulting from many thermodynamic processes. This type of low-level energy source permanently causes heat emissions, global warming, as well as climatic changes in which our world lives today. Re-exploitation of this type of energy contributes to the production of the required energy for various industrial purposes, as well as the production of electrical power. In this paper, the ORC is integrated with the Steam Rankine Cycle (SRC) as a bottoming cycle which can be called, the Binary Rankine Cycle (BRC) to generate 5MW net power. As there are two fluids used in the system, water in the topping cycle and organic fluid in the bottoming cycle. The BRC may utilize solar energy as a heating source. With the increasing need for efficient and low-cost energy solutions, it is essential to understand the thermal performance of a system built in different climates. The performance of the system is carried out and compared with different organic fluids R134a, R245fa, and R1234yf at different steam turbine inlet temperatures, pressures, and back pressures. The study reveals that the R245fa BRC has the best performance followed by the R134af BRC and then the R1234yf BRC. Also, the study aimed to determine the best solar collector area in Aswan

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埃及气候条件下太阳能驱动二元朗肯循环的性能评价

有机朗肯循环(ORC)的重要性来自于处理由许多热力学过程产生的低质量能源。这种低水平的能源会永久地导致热量排放、全球变暖，以及我们当今世界所处的气候变化。对这种能源的再开发有助于生产各种工业用途所需的能源，也有助于生产电力。本文将ORC与蒸汽朗肯循环(SRC)集成为一个底循环，可称为二元朗肯循环(BRC)，产生5MW净功率。由于系统中使用了两种流体，顶部循环中的水和底部循环中的有机流体。BRC可以利用太阳能作为热源。随着对高效、低成本能源解决方案的需求日益增长，了解不同气候条件下系统的热性能至关重要。在不同的汽轮机进口温度、压力和背压下，对R134a、R245fa和R1234yf三种不同的有机流体进行了系统性能比较。研究表明，R245fa BRC的性能最好，其次是R134af BRC，最后是R1234yf BRC。此外，该研究旨在确定阿斯旺最好的太阳能集热器区域

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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Engineering Research Journal

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