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System Mass Variation and Entropy Generation in 100‐kWe Closed‐Brayton‐Cycle Space Power Systems

机译：100kWe闭式布雷顿循环空间电力系统的系统质量变化和熵产生

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State‐of‐the‐art closed‐Brayton‐cycle (CBC) space power systems were modeled to study performance trends in a trade space characteristic of interplanetary orbiters. For working‐fluid molar masses of 48.6, 39.9 and 11.9 kg/kmol, peak system pressures of 1.38 and 3.0 MPa and compressor pressure ratios ranging from 1.6 to 2.4, total system masses were estimated. System mass increased as peak operating pressure increased for all compressor pressure ratios and molar mass values examined. Minimum mass point comparison between 72% He at 1.38 MPa peak and 94% He at 3.0 MPa peak showed an increase in system mass of 14%. Converter flow loop entropy generation rates were calculated for 1.38 and 3.0 MPa peak pressure cases. Physical system behavior was approximated using a pedigreed NASA‐Glenn modeling code, Closed Cycle Engine Program (CCEP), which included realistic performance prediction for heat exchangers, radiators and turbomachinery. © 2004 American Institute of Physics

机译：对最先进的封闭式布雷顿循环（CBC）空间动力系统进行建模，以研究行星际轨道器在贸易空间特性中的性能趋势。对于48.6、39.9和11.9 kg / kmol的工作流体摩尔质量，1.38和3.0 MPa的峰值系统压力以及1.6至2.4的压缩机压力比，估计了系统总质量。对于所有压缩机压力比和所检查的摩尔质量值，系统质量随着峰值工作压力的增加而增加。在1.38 MPa峰值处的72％He和在3.0 MPa峰值处的94％He之间的最小质量点比较显示，系统质量增加了14％。计算了1.38和3.0 MPa峰值压力情况下的转炉流量环熵产生率。物理系统的行为是通过使用纯正的NASA-Glenn建模代码（闭环发动机程序（CCEP））来估算的，其中包括对热交换器，散热器和涡轮机械的实际性能预测。 ©2004美国物理研究所

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Barrett, Michael J.; Reid, Bryan M.;
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7. System Mass Variation and Entropy Generation in 100-kWe Closed-Brayton-Cycle Space Power Systems [O] . Barrett, Michael J., Reid, Bryan M. 2004

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8. System Mass Variation and Entropy Generation in 100kWe Closed-Brayton-Cycle Space Power Systems [R] . Barrett, Michael J., Reid, Bryan M. 2004

机译：100kWe闭式布雷顿循环空间电力系统的系统质量变化和熵产生

System Mass Variation and Entropy Generation in 100‐kWe Closed‐Brayton‐Cycle Space Power Systems

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