Energy analysis and multi-objective optimization of a novel exhaust air heat recovery system consisting of an air-based building integrated photovoltaic/thermal system and a thermal wheel

Khanmohammadi Shoaib; Shahsavar Amin

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Energy analysis and multi-objective optimization of a novel exhaust air heat recovery system consisting of an air-based building integrated photovoltaic/thermal system and a thermal wheel

机译：新型废气热回收系统的能量分析和多目标优化，该系统由基于空气的建筑物集成光伏/热力系统和热轮组成

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This paper presents a feasibility investigation of integrating an air-based photovoltaic/thermal (PV/T) system with a thermal wheel (TW) system for residential applications. The innovative system is capable of pre-heating/pre-cooling the ambient fresh air in winter/summer as well as producing electricity. The performance of the system is numerically evaluated and compared with the conventional building integrated PV/T (BIPV/T) and TW systems. Then, a multi-objective optimization approach is utilized to find the optimum values of geometric and operating parameters in order to maximize the annual average effectiveness of the TW and the first-law efficiency of the BIPV/T collector. The performances of the optimized and un-optimized BIPV/T-TW systems are compared for a complete year. The results demonstrated that the BIPV/T-TW system has a better thermal performance compared with the BIPV/T and TW systems, while it has a slightly lower electrical performance compared with the BIPV/T system. Furthermore, it was found that the annual average first-law efficiency and TW effectiveness of the optimized BIPV/T-TW system is 118.3% and 59.7% higher than that of the un-optimized system.

机译：本文提出了将空气基光伏/热能（PV / T）系统与热轮（TW）系统集成在一起用于住宅应用的可行性研究。该创新系统能够在冬季/夏季预热/预冷却周围的新鲜空气，并能够发电。对系统的性能进行了数值评估，并与传统的建筑物集成式PV / T（BIPV / T）和TW系统进行了比较。然后，采用多目标优化方法来找到几何参数和操作参数的最佳值，以最大化TW的年平均效率和BIPV / T收集器的第一律效率。对经过优化的和未经过优化的BIPV / T-TW系统的性能进行了整整一年的比较。结果表明，与BIPV / T和TW系统相比，BIPV / T-TW系统具有更好的热性能，而与BIPV / T系统相比，其电气性能略低。此外，发现优化的BIPV / T-TW系统的年平均第一律效率和TW效率分别比未优化的系统高118.3％和59.7％。

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来源
《Energy Conversion & Management》 |2018年第9期|595-610|共16页
作者
Khanmohammadi Shoaib; Shahsavar Amin;
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作者单位

Kermanshah Univ Technol, Dept Mech Engn, Kermanshah, Iran;

Kermanshah Univ Technol, Dept Mech Engn, Kermanshah, Iran;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
Building integrated photovoltaic/thermal (BIPV/T); Thermal wheel; Exhaust air energy recovery system; Multi-objective optimization; Effectiveness; First-law efficiency;

机译：建筑一体化光伏/热力（BIPV / T）;热轮;排气能量回收系统;多目标优化;效果;第一律效率;

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4. Performance Evaluation of Air-Based Building Integrated Photovoltaic/Thermal (BIPV/T) System with Multiple Inlets in a Cold Climate [C] . Tingting Yang, Andreas K. Athienitis International symposium on heating, ventilation and air conditioning;9th international symposium on heating, ventilation and air conditioning (ISHVAC) International conference on building energy and environment;Tianjin University; . 2015

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5. Modelling and Evaluation of the Performance of Building-Integrated Open Loop Air-based Photovoltaic/Thermal Systems. [D] . Candanedo Ibarra, Luis Miguel. 2010

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6. Identification of a dynamic system model for a building and heating system including heat pump and thermal energy storage [O] . Christian Finck, Rongling Li, Wim Zeiler 2020

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7. Thermal Energy Optimization of Building Integrated Semi-Transparent Photovoltaic Thermal Systems [O] . Martial, Ekoe A Akata Aloys, Njomo, Donatien, Agrawal, Basant 2015

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8. Secondary Recovery Method for the Extraction of Geothermal Energy. Final Report Consisting of Two Sections: (1) Short Review of the Technique of Forced Geoheat Recovery from Sheet-Like Fluid Conductors; (2) Heat Transfer Effects in Forced Geoheat Recovery Systems. Reporting Period: July 1, 1976--December 31, 1977 [R] . Bodvarsson, G., Hanson, J. 1977

机译：地热能提取的二次回收方法。最终报告包括两个部分：（1）从片状流体导体强制地热回收技术的简要回顾; （2）强制地热回收系统的传热效应。报告期：1976年7月1日 - 1977年12月31日

Energy analysis and multi-objective optimization of a novel exhaust air heat recovery system consisting of an air-based building integrated photovoltaic/thermal system and a thermal wheel

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