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利用乏汽的新型卡诺电池热力学性能分析OA

Thermodynamic performance analysis of a novel Carnot battery system utilizing exhaust steam

中文摘要英文摘要

[目的]针对电网新能源消纳不足和燃煤机组乏汽损失大的问题,提出了一种集成蒸汽喷射器的新型卡诺电池系统,为燃煤机组灵活性改造提供技术方案.[方法]设计了利用汽轮机乏汽和抽汽作为低温热源的新型系统Ⅰ和Ⅱ.新型系统Ⅱ引入蒸汽喷射器,以中压缸排汽引射乏汽,提升储热循环冷源温度.基于EBSILON Professional进行建模,对比分析各系统的能效系数、往返效率及㶲损失,并开展技术经济性评估.[结果]热力学分析显示,新型系统Ⅰ、Ⅱ的乏汽损失较参考系统分别降低了38.19 MW和39.62 MW;受益于冷源温度提升,两系统能效系数分别升至 1.36 和 1.42.敏感性分析表明,系统Ⅱ在冷源出口温度为55℃时达到最佳往返效率61.51%,较参考系统提升2.11百分点.技术经济性方面,系统Ⅱ表现最优,其动态投资回收期为9.44年,平准化储能成本低至2 094.59元/(MW·h).[结论]新型系统Ⅱ不仅能有效降低能耗、提升储能效率,还具备显著的经济竞争力,对促进我国能源行业低碳转型具有重要意义.

[Objective]To address the issues of insufficient renewable energy integration into the power grid and the high exhaust steam loss in coal-fired power units,a novel Carnot Battery system integrated with a steam ejector is proposed to provide a technical solution for the flexibility transformation of coal-fired units.[Methods]This study designed two new systems,System Ⅰ and Ⅱ,utilizing turbine exhaust steam and extraction steam as low-temperature heat sources.System Ⅱ introduces a steam ejector,which uses exhaust from the intermediate-pressure turbine to entrain the exhaust steam,thereby increasing the cold source temperature of the heat storage cycle.Based on the EBSILON Professional,thermodynamic modeling was conducted to compare the coefficient of performance(CCOP),round-trip efficiency(ηRTE),and exergy loss of each system,followed by a techno-economic assessment.[Results]Thermodynamic analysis indicates that the exhaust steam losses of System Ⅰ and Ⅱ are reduced by 38.19 MW and 39.62 MW,respectively,compared to the reference system.Benefiting from the elevated cold source temperature,the CCOP of both systems increased to 1.36 and 1.42.Sensitivity analysis shows that System Ⅱ achieves an optimal round-trip efficiency of 61.51%at a cold source outlet temperature of 55℃,an improvement of 2.11 percentage points over the reference system.In terms of techno-economic performance,System Ⅱ performs best,with a dynamic payback period of 9.44 years and a levelized cost of storage as low as 2 094.59 yuan/(MW·h).[Conclusion]The novel System Ⅱ not only effectively reduces energy consumption and improves energy storage efficiency but also demonstrates significant economic competitiveness,which is of great importance for promoting the low-carbon transition of China's energy industry.

张步庭;刘伯康;刘玮蔚;武志东;陈二强;赵世飞

国网河南省电力公司电力科学研究院,河南 郑州 450052国网河南省电力公司,河南 郑州 450052国网河南省电力公司电力科学研究院,河南 郑州 450052国网河南省电力公司,河南 郑州 450052国网河南省电力公司电力科学研究院,河南 郑州 450052华北水利水电大学能源与动力工程学院,河南 郑州 450045

卡诺电池蒸汽喷射器灵活性改造热力学分析技术经济性

Carnot batterysteam ejectorflexibility transformationthermodynamic analysistechno-economic performance

《热力发电》 2026 (6)

91-101,11

国家自然科学基金项目(52206012) National Natural Science Foundation of China(52206012)

10.19666/j.rlfd.202511023

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