Monte-Carlo Simulation for Analyzing the Performance Variation of a Liquid Rocket Engine Using Gas-Generator Cycle
The performance of liquid rocket engines is influenced by randomness arising from various sources, making deterministic analyses imprecise. Recognizing this issue, we perform a Monte-Carlo simulation in this study to analyze the performance variation of a liquid rocket engine that uses a gas-generat...
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| Published in | International journal of aeronautical and space sciences Vol. 26; no. 2; pp. 688 - 697 |
|---|---|
| Main Authors | , , |
| Format | Journal Article |
| Language | English |
| Published |
Seoul
The Korean Society for Aeronautical & Space Sciences (KSAS)
01.03.2025
한국항공우주학회 |
| Subjects | |
| Online Access | Get full text |
| ISSN | 2093-274X 2093-2480 |
| DOI | 10.1007/s42405-024-00760-2 |
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| Abstract | The performance of liquid rocket engines is influenced by randomness arising from various sources, making deterministic analyses imprecise. Recognizing this issue, we perform a Monte-Carlo simulation in this study to analyze the performance variation of a liquid rocket engine that uses a gas-generator cycle, incorporating operational variance of the engine parameters. We take into account the randomness of total dynamic heads of fuel and oxidizer pumps, the efficiency of pumps and turbines, and the geometric aberrances of the turbine nozzle and thrust nozzle. We conduct transient analysis using a simplified one-dimensional numerical model of the engine and compute the effect of stochastic deviation of input parameters on the engine performance, specifically in terms of chamber pressure, mixture ratio, turbine inlet temperature, nozzle thrust, etc. We assess the correlation between the input parameters and the output parameters, establishing the framework for Monte-Carlo analysis of a gas-generator cycle rocket engine. The results of this study suggest that the present method can serve as an efficient framework for analyzing the performance variance of the rocket engine compared to the established technique, such as the root-sum-square variance analysis method. |
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| AbstractList | The performance of liquid rocket engines is influenced by randomness arising from various sources, making deterministic analyses imprecise. Recognizing this issue, we perform a Monte-Carlo simulation in this study to analyze the performance variation of a liquid rocket engine that uses a gas-generator cycle, incorporating operational variance of the engine parameters. We take into account the randomness of total dynamic heads of fuel and oxidizer pumps, the efficiency of pumps and turbines, and the geometric aberrances of the turbine nozzle and thrust nozzle. We conduct transient analysis using a simplified one-dimensional numerical model of the engine and compute the effect of stochastic deviation of input parameters on the engine performance, specifically in terms of chamber pressure, mixture ratio, turbine inlet temperature, nozzle thrust, etc. We assess the correlation between the input parameters and the output parameters, establishing the framework for Monte-Carlo analysis of a gas-generator cycle rocket engine. The results of this study suggest that the present method can serve as an efficient framework for analyzing the performance variance of the rocket engine compared to the established technique, such as the root-sum-square variance analysis method. KCI Citation Count: 0 The performance of liquid rocket engines is influenced by randomness arising from various sources, making deterministic analyses imprecise. Recognizing this issue, we perform a Monte-Carlo simulation in this study to analyze the performance variation of a liquid rocket engine that uses a gas-generator cycle, incorporating operational variance of the engine parameters. We take into account the randomness of total dynamic heads of fuel and oxidizer pumps, the efficiency of pumps and turbines, and the geometric aberrances of the turbine nozzle and thrust nozzle. We conduct transient analysis using a simplified one-dimensional numerical model of the engine and compute the effect of stochastic deviation of input parameters on the engine performance, specifically in terms of chamber pressure, mixture ratio, turbine inlet temperature, nozzle thrust, etc. We assess the correlation between the input parameters and the output parameters, establishing the framework for Monte-Carlo analysis of a gas-generator cycle rocket engine. The results of this study suggest that the present method can serve as an efficient framework for analyzing the performance variance of the rocket engine compared to the established technique, such as the root-sum-square variance analysis method. |
| Author | Park, Sinyoung Lee, Eunkwang Lee, Minwoo |
| Author_xml | – sequence: 1 givenname: Sinyoung surname: Park fullname: Park, Sinyoung organization: Department of Mechanical Engineering, Hanbat National University – sequence: 2 givenname: Eunkwang surname: Lee fullname: Lee, Eunkwang organization: Perigee Aerospace Inc – sequence: 3 givenname: Minwoo orcidid: 0000-0002-1025-0260 surname: Lee fullname: Lee, Minwoo email: mwlee@hanbat.ac.kr organization: Department of Mechanical Engineering, Hanbat National University |
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| Copyright | The Author(s), under exclusive licence to The Korean Society for Aeronautical & Space Sciences 2024 Springer Nature or its licensor (e.g. a society or other partner) holds exclusive rights to this article under a publishing agreement with the author(s) or other rightsholder(s); author self-archiving of the accepted manuscript version of this article is solely governed by the terms of such publishing agreement and applicable law. |
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| Keywords | Liquid rocket engine Engine performance analysis Monte-Carlo simulation Gas-generator cycle |
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| Title | Monte-Carlo Simulation for Analyzing the Performance Variation of a Liquid Rocket Engine Using Gas-Generator Cycle |
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