结果显示在不同的循环方式中,平行流系统产生最大的热力系数而逆串联系统的最高发生温度和压力比其他系统都低。
The results show that the parallel-flow cycle yields the highest coefficient of performance among the cycles while the maximum pressure and temperature in the reverse-flow cycle are lowest.
在供热机组热力系统分析计算中,完善了多重循环分析思路,构建了适于计算循环排汽系数(或再热系数)的EEDM补充方程。
In thermal system analysis of co-generation unit, the paper has perfected the analysis thought of multiple cycle, and constructed the supplement equation of the EEDM equation.
以热力学第二定律为基础的火电厂热力系统分析方法核心是汽轮机排汽系数的确定。
Its a kernel of thermal system analysis in power plant based on the second law of thermodynamics that the exhaust coefficient of a steam turbine is calculated.
以热力学第二定律为基础的火电厂热力系统分析方法核心是汽轮机排汽系数的确定。
Its a kernel of thermal system analysis in power plant based on the second law of thermodynamics that the exhaust coefficient of a steam turbine is calculated.
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