Journal of Propulsion Technology ›› 2000, Vol. 21 ›› Issue (6): 10-13.

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Primary analysis of deep cooled turbojet liquid rocket engine combined cycle

  

  1. Inst of Engineering Thermophysics,Academia Sinica,Beijing 100080,China;Inst of Engineering Thermophysics,Academia Sinica,Beijing 100080,China
  • Published:2021-08-15

深冷涡喷火箭组合循环发动机初步分析

邢秀清,赵晓路   

  1. 中国科学院工程热物理研究所!北京100080;中国科学院工程热物理研究所!北京100080

Abstract: In order to verify the realization possibility of the combined propulsion known as KLIN cycle,which consist of a thermally integrated deep cooled turbojet and liquid rocket engine,a primary performance assess was performed From the assessed results and the references, it can be concluded that the KLIN cycle provides a high payload capability of the launcher, and it can be realized in the near term without a need for large leaps in technology Furthermore, KLIN cycle technology is full within current industrial capability and can be completely ground tested, thereby minimizing development risk and cost

Key words: Carrier;Deep cooled turbojet liquid rocket engine;Cryogenic propellant rocket engine;Engine performance calculatio?

摘要: 为了对国外近年来提出的KLIN循环发动机 (深冷涡喷发动机DCTJ +火箭发动机LRE)的可实现性进行分析验证 ,估算了深冷涡喷 /火箭组合循环发动机的特性 ,结合国外文献的研究 ,认为KLIN循环发动机有效载荷系数高、循环效率高、发展风险小、技术上可近期实现 ,极具开发和应用前景。

关键词: 运载器;深冷涡喷火箭组合发动机;低温推进剂火箭发动机;发动机性能计算