CFD Assessment of Circular and Spiral Recipients in CSP Plants

SMART MOVES JOURNAL IJOSCIENCE Pub Date : 2022-01-28 DOI:10.24113/ijoscience.v8i1.463

Chandresh Kumar Lodha, Pankaj Badgaiyan

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Abstract

The primary goal of this research is to create a new billboard-style central spherical solar receiver with varying header and tube diameter, for which two spiral central receiver designs and a new circular central solar receiver with varying pipe radius and varying mass circulation are utilized. The exhaust temperature of the water was determined employing a computational fluid dynamics assessment employing ANSYS Fluent. Following the verification of the standards models, a novel central solar receiver project was made that accomplishes computational fluid dynamics assessment with almost the same boundary condition.The heat export fluid is water, and the spiral coil tube is copper. The mass circulation rate varies among 0.1 LPM, 0.2 LPM, and 0.3 LPM, with the inlet temperature of water being 299K at continuous solar irradiation. The findings demonstrate that at 0.1 LPM, the redesign of the central solar receiver produces a temperature of 383.9 K, which is 28.39 percent higher than the inlet temperature and 7.32 percent higher than the spiral central receiver. As a consequence, the circular central solar recipient to varying pipe radius is suggested and considered in upcoming usages

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CSP电厂中圆形和螺旋形接收器的CFD评估

本研究的主要目标是创造一种新型的广告牌式中央球形太阳能接收器，该接收器采用了两种螺旋形中央接收器设计和一种新型的圆形中央太阳能接收器，该中央接收器采用了不同的管道半径和不同的质量循环。采用ANSYS Fluent计算流体力学评估确定了水的排气温度。在对标准模型进行验证的基础上，提出了一种新的中央太阳能接收器方案，该方案在几乎相同的边界条件下完成了计算流体力学评估。热输出流体为水，螺旋盘管为铜。质量循环速率在0.1 LPM、0.2 LPM和0.3 LPM之间变化，连续太阳照射下进水温度为299K。结果表明，在0.1 LPM时，重新设计的中央太阳能接收器产生的温度为383.9 K，比进口温度高28.39%，比螺旋中央接收器高7.32%。因此，建议并考虑在即将到来的使用中使用圆形中央太阳能接收器，以改变管道半径

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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SMART MOVES JOURNAL IJOSCIENCE

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