论脉冲爆轰产物动能的利用

Advances in Pulsed and Continuous Detonation Pub Date : 2019-07-31 DOI:10.30826/icpcd201827

S. Frolov, V. S. Smetanyuk, P. Gusev, A. Koval, S. A. Nabatnikov, Novel Physical Principles Ltd.

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摘要

本文从计算和实验两方面探讨了在燃料脉冲爆轰燃烧的泽尔多维奇热力学循环中，最简单的水轮式脉冲涡轮利用爆轰产物动能的可能性。未优化质量和尺寸的脉冲涡轮爆轰产物的动量和动能利用率低至8% ~ 16%。为了提高脉冲涡轮的效率，需要采取措施消除不必要的激波反射，选择涡轮转子的最佳质量和尺寸，选择叶片的最佳数量，选择叶片的最佳迎角，优化转子与机壳横向间隙的大小，选择排气管道的最佳位置。预计包括优化后的脉冲涡轮和附加在排气管道上的传统燃气轮机和/或蒸汽轮机在内的联合循环的e©效率比传统混合循环的e©效率最高可提高9%。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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ON THE UTILIZATION OF THE KINETIC ENERGY OF PULSED DETONATION PRODUCTS

The possibility of utilizing the kinetic energy of detonation products by a pulse turbine of the simplest water-wheel-like design during the implementation of the Zel£dovich thermodynamic cycle with pulse detonation combustion of fuel is investigated computationally and experimentally. The coe©cients of utilization of the momentum and kinetic energy of detonation products in the pulse turbine with unoptimized mass and dimensions are found to be as low as 8%16%. To improve the e©ciency of the pulse turbine, it is necessary to take measures for eliminating unnecesary re§ections of shock waves (SWs), to select the optimal mass and dimensions of the turbine rotor and the number of blades, to pro¦le the blades and to select the optimal angle of attack, to optimize the size of the lateral gap between the rotor and the housing, and to select the optimum location of the exhaust duct. It is expected that the e©ciency of a combined cycle including the optimized pulse turbine and conventional gas and/or steam turbines attached to the exhaust duct could be higher than the e©ciency of a conventional hybrid cycle by at most 9%.

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Advances in Pulsed and Continuous Detonation

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