Study of an Integrated Tower Solar Energy Combined Cycle System with the Simultaneous Integration Solar Energy with Top and Bottom Cycle

Petroleum and Chemical Industry International Pub Date : 2019-09-28 DOI:10.33140/pcii.02.04.03

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Abstract

In this paper, based on a conventional integrated solar combined cycle system (ISCC), a novel integrated tower solar energy combined cycle system (ITSCC) with the simultaneous integration the solar energy with top and bottom cycle of combined cycle system is proposed. The system models are developed and different system performance evaluation indices are proposed. Then in the condition of the same solar radiation the thermal performance of new system is analyzed and compared with the reference ISCC system and gas-steam combined cycle (GTCC) system. Furthermore, the operating characteristics of the new system in the summer solstice are deeply investigated in consideration of the heat variation from direct solar radiation and the effect of the ambient temperature change on the solar collector system. The efficiency of solar energy utilization and the thermodynamic properties of different systems are analyzed. The result shows that, in the summer solstice the natural gas input of new system is less 3.28% than that of GTCC system and the net output power is increased by 1.5%, the solar-to-electric efficiency and the exergy efficiency can achieve 27.3% and 28.4%, respectively. In addition, the annual performance of new system is also better than that of the reference system.

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太阳能上下循环同时集成的塔式太阳能联合循环系统研究

本文在传统集成太阳能联合循环系统(ISCC)的基础上，提出了一种新型塔式太阳能联合循环系统(ITSCC)，该系统将太阳能与联合循环系统的顶部和底部循环同时集成。建立了系统模型，提出了不同的系统性能评价指标。在相同太阳辐射条件下，分析了新系统的热性能，并与参考系统ISCC和燃气-蒸汽联合循环(GTCC)系统进行了比较。此外，考虑到太阳直接辐射的热量变化和环境温度变化对太阳能集热器系统的影响，深入研究了新系统在夏至的运行特性。分析了不同系统的太阳能利用效率和热力学性质。结果表明，夏至时新系统的天然气投入比gtcc系统少3.28%，净输出功率提高1.5%，光电效率和火用效率分别可达到27.3%和28.4%。此外，新系统的年度性能也优于参考系统。

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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Petroleum and Chemical Industry International

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