Efficiency analysis and calculations for gas steam combined cycle power plant are described.
对燃气-蒸汽联合循环发电效率进行了分析与计算。
The exergy analysis of an intercooled reheat steam injected gas turbine cycle has shown that such a cycle has a significantly higher exergy efficiency as compared with a simple STIG cycle.
对中冷再热注蒸汽燃气轮机(STIG)循环火用分析结果表明:中冷再热stig循环比简单STIG循环的火用效率显著提高。
The ideal cycle heat efficiency used nowadays is affected by the relative internal efficiency so it can't reflect the operation economic state of thermal system of steam turbine.
目前采用的汽轮机理想循环热效率受到相对内效率影响而不能准确反映汽轮机热力系统运行经济状态。
To counter the difficulty of traditional method, the parallel connection feed-forward network of calculation method for the actual cycle thermal efficiency of a steam turbine is proposed.
针对传统方法计算繁杂的问题,本文提出了基于双并联人工神经网络的汽轮机实际循环热效率计算方法。
Combined with the technology of gas turbine and steam turbine, a high-efficiency cycle with CO2 separation is formed.
结合燃气蒸汽联合循环技术,实现能量的梯级利用,构成新型化学链置换燃烧联合循环,高效发电同时分离CO2。
Optimizing the steam parameters of HRSG under subcritical condition can increase the efficiency to F technology combine cycle.
在亚临界范围内,对余热锅炉的蒸汽参数进行了优化;
Taking a triple pressure reheat HRSG in the gas-steam combined cycle as an example, a general expression of the steam turbine thermal efficiency to coupling parameter with the unfired HRSG is derived.
以三压有再热余热锅炉的燃气-蒸汽联合循环为例,推导出非补式余热锅炉型蒸汽轮机热效率关于耦合参数的关系式,在此基础上得到了燃气-蒸汽联合循环热效率关于耦合参数的关系式。
Taking a triple pressure reheat HRSG in the gas-steam combined cycle as an example, a general expression of the steam turbine thermal efficiency to coupling parameter with the unfired HRSG is derived.
以三压有再热余热锅炉的燃气-蒸汽联合循环为例,推导出非补式余热锅炉型蒸汽轮机热效率关于耦合参数的关系式,在此基础上得到了燃气-蒸汽联合循环热效率关于耦合参数的关系式。
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