基于有机郎肯循环的热集成抽水蓄能系统:比较研究和多目标多元宇宙优化

Energy Storage Pub Date : 2024-09-02 DOI:10.1002/est2.70007
Fateme Norooziyan, Arshiya Noorpoor, Fateme Ahmadi Boyaghchi
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引用次数: 0

摘要

本研究介绍了两种新型热集成抽水蓄能(TIPTES)系统,包括作为充电循环的热集成蒸汽压缩热泵(TIHP)和作为放电循环的双压有机朗肯循环(DPORC)和双回路有机朗肯循环(DLORC),以研究它们与基本有机朗肯循环(BORC)相比提高往返效率的能力。使用不同的工作流体,对所提出的 TIHP-DPORC 和 TIHP-DLORC 的热力学和经济性能进行了分析,并与 TIHP-BORC 进行了比较。采用多目标多元宇宙优化算法确定了系统的最佳往返效率和成本率。结果表明,在相同的存储温度下,使用 R1233zd(E) 的 TIHP-DLORC 的往返效率和能效最高,分别为 219.9% 和 43.53%,与最佳的 TIHP-BORC 相比,分别提高了 6.69% 和 8.04%。此外,它还显示出最低的平准化存储成本(LCOS)和投资回收期(PP),分别为 0.160 美元/千瓦时和 4.5 年,最大净现值为 197.3 万美元。虽然 TIHP-DLORC 的成本率较高,但与文献中现有的 TIPTES 系统相比,其热力学和经济性能都非常出色,这表明 DLORC 更适合应用于 TIPTES 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。
Thermally integrated pumped thermal energy storage systems based on organic Rankine cycle: Comparative investigation and multi-objective multiverse optimization

This work introduces two new thermally integrated pumped thermal energy storage (TIPTES) systems, including thermally integrated vapor compression heat pump (TIHP) as a charging cycle and dual-pressure organic Rankine cycle (DPORC) and dual-loop organic Rankine cycle (DLORC) as discharging cycles to investigate their capability of improving roundtrip efficiency compared with the basic ORC (BORC). The thermodynamic and economic performance of the proposed TIHP-DPORC and TIHP-DLORC are analyzed and compared with TIHP-BORC using various working fluids. The multi-objective multiverse optimization algorithm is conducted to ascertain the systems' optimum roundtrip efficiency and cost rate. Results indicate that at the same storage temperature, the TIHP-DLORC gives the highest roundtrip and exergy efficiencies of 219.9% and 43.53% with R1233zd(E), indicating 6.69% and 8.04% improvements compared with the optimum TIHP-BORC. Moreover, it shows the lowest levelized cost of storage (LCOS) and payback period (PP) of 0.160 $/kWh and 4.5 years, respectively, with a maximum net present value of 1.973 M$. Although the cost rate of TIHP-DLORC is high, its excellent thermodynamic and economic performance compared with the existing TIPTES systems in the literature indicates that DLORC is a more appropriate candidate to be applied in the TIPTES systems.

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