Energetic and exergetic analysis of a double-pass tubular absorber for application in solar towers

Journal of Solar Energy Engineering Pub Date : 2024-08-09 DOI:10.1115/1.4066201

Hossein Ebadi, Antonio Cammi, L. Savoldi

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Abstract

The present research integrates the concept of double-pass (DP) flows with high-temperature solar receivers to introduce an innovative design aimed at minimizing heat losses and optimizing performance. The new DP system was developed using a tubular absorber derived from billboard solar tower technology and operated with air as the heat transfer medium. CFD models are developed based on an experimental campaign conducted at a solar furnace facility. The computational analyses indicated that employing the DP design instead of single-pass (SP) absorbers results in an average enhancement of energy and exergy efficiency by 35% and 225%, respectively, across all test conditions. However, this enhancement is accompanied by an average increase in pressure drop of ∼60%. The detailed exergy analysis also revealed the contribution of each term in the exergetic performance, identifying the exergy destruction between the sun and the absorber as the primary source, accounting for an average of ∼ 65% of the total inlet exergy for both SP and DP absorbers. Consequently, the DP presents itself as a promising alternative design for future solar tower configurations, offering improved Nu numbers up to ∼50% in air-based solar systems.

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应用于太阳能塔的双通道管式吸收器的能效和效费比分析

本研究将双通道（DP）流的概念与高温太阳能接收器相结合，引入了一种创新设计，旨在最大限度地减少热损失并优化性能。新的 DP 系统是利用源自广告牌太阳能塔技术的管状吸收器开发的，以空气作为传热介质。CFD 模型是根据在太阳能熔炉设备上进行的实验活动开发的。计算分析表明，在所有测试条件下，采用 DP 设计替代单通道（SP）吸收器可使能量和放能效率分别平均提高 35% 和 225%。然而，在提高效率的同时，压降平均增加了 60%。详细的放能分析还揭示了放能性能中每个项的贡献，确定太阳和吸收器之间的放能破坏是主要来源，平均占 SP 和 DP 吸收器总入口放能的 65%。因此，在未来的太阳能塔配置中，DP是一种很有前途的替代设计，可将空气太阳能系统中的Nu值提高到50%。

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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Journal of Solar Energy Engineering

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