The Application of Counter‐Rotating Turbine in  Rocket Turbopump

Tang, Fei; Zhao, Xiuli; Xu, Jinliang

doi:10.1155/2008/426023

International Journal of Rotating Machinery

2008

DOI: 10.1155/2008/426023

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The Application of Counter‐Rotating Turbine in Rocket Turbopump

Fei Tang

Xiuli Zhao²,

Jinliang Xu³

Abstract: Counter rotating turbine offers advantages on weight, volume, efficiency, and maneuverability relative to the conventional turbine because of its special architecture. Nowadays, it has been a worldwide research emphasis and has been used widely in the aeronautic field, while its application in the astronautic field is seldom investigated. Researches of counter rotating turbine for rocket turbopump are reviewed in this paper. A primary analysis of a vaneless counter rotating-turbine configuration with rotors of… Show more

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Studies on the Effect of Staggering the Rear Rotor in a Counter Rotating Turbine with Respect to Flow and Performance Parameters

Subbarao

Govardhan

2016

International Journal of Turbo &Amp; Jet-Engines

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Counter rotating turbine is an axial turbine with nozzle followed by a rotor and another rotor that rotates in the opposite direction of the first one. Absence of the second guide vane makes it more beneficial. Present work involves computationally studying the performance and flow pattern of CRT with different stagger angles ranging from 8 to 13° in case of rotor 2. Equivalent mass flow rates of 0.091 to 0.137 are considered. Turbine components nozzle, rotor 1 and rotor 2 are modeled for the cases of CRT with and without staggering. Total pressure, entropy and TKE distributions across the blade rows are used to describe the flow through CRT. Results show that the flow composition at the inlet of rotor 2 is improved for staggering cases. Due to this, the performance of rotor 2 and CRT increased with staggering. For the intermediate mass flow rate of 0.108, the efficiency of CRT stage is found to be increasing by 1.2, 2.1 and 1 % for the staggering cases. The beneficial aspect of staggering the rear rotor is thus confirmed that can provide long-term design solutions in terms of reducing weight, losses and improving the performance.

show abstract

Studies on the Effect of Staggering the Rear Rotor in a Counter Rotating Turbine with Respect to Flow and Performance Parameters

Subbarao

Govardhan

2016

International Journal of Turbo &Amp; Jet-Engines

View full text Add to dashboard Cite

show abstract

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The Application of Counter‐Rotating Turbine in Rocket Turbopump

Cited by 1 publication

References 8 publications

Studies on the Effect of Staggering the Rear Rotor in a Counter Rotating Turbine with Respect to Flow and Performance Parameters

Studies on the Effect of Staggering the Rear Rotor in a Counter Rotating Turbine with Respect to Flow and Performance Parameters

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