Comparison of Reactive Flow Simulations for a LOX/CH4 Multi-element Rocket Engine

Comparison of Reactive Flow Simulations for a LOX/CH4 Multi-element Rocket Engine

This study details the reactive flow simulations of a LOX/CH4 Multi-element rocket engine. The work has been conducted within the framework of the HYPROB-BREAD project whose main objective is the design, manufacture and testing of a LOX/LCH4 regeneratively cooled ground demonstrator. Numerical simul...

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Main Authors: French Ainslie D., Cutrone Luigi, Schettino Antonio, Marini Marco, Battista Francesco, Natale Pasquale
Format: Article
Language:English
Published: EDP Sciences 2019-01-01
Series:MATEC Web of Conferences
Online Access:https://www.matec-conferences.org/articles/matecconf/pdf/2019/53/matecconf_easn2019_07007.pdf
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spelling doaj-b0634dbc18e944cabb2277c1a45e46bd2021-02-02T06:16:52ZengEDP SciencesMATEC Web of Conferences2261-236X2019-01-013040700710.1051/matecconf/201930407007matecconf_easn2019_07007Comparison of Reactive Flow Simulations for a LOX/CH4 Multi-element Rocket EngineFrench Ainslie D.Cutrone LuigiSchettino AntonioMarini MarcoBattista FrancescoNatale PasqualeThis study details the reactive flow simulations of a LOX/CH4 Multi-element rocket engine. The work has been conducted within the framework of the HYPROB-BREAD project whose main objective is the design, manufacture and testing of a LOX/LCH4 regeneratively cooled ground demonstrator. Numerical simulations have been carried out with both commercial software and CIRA software developed in house. Two sets of boundary conditions, nominal and experimental, have been applied from which a code-to-code validation has been effected with the former and a code-to-experiment validation with the latter. The results presented include both flow data and heat fluxes as well as parameters associated with engine performance, and indicate an excellent agreement with experimental data of a LOX/CH4 Multi-element rocket engine.https://www.matec-conferences.org/articles/matecconf/pdf/2019/53/matecconf_easn2019_07007.pdf
collection DOAJ
language English
format Article
sources DOAJ
author French Ainslie D.
Cutrone Luigi
Schettino Antonio
Marini Marco
Battista Francesco
Natale Pasquale
spellingShingle French Ainslie D.
Cutrone Luigi
Schettino Antonio
Marini Marco
Battista Francesco
Natale Pasquale
Comparison of Reactive Flow Simulations for a LOX/CH4 Multi-element Rocket Engine
MATEC Web of Conferences
author_facet French Ainslie D.
Cutrone Luigi
Schettino Antonio
Marini Marco
Battista Francesco
Natale Pasquale
author_sort French Ainslie D.
title Comparison of Reactive Flow Simulations for a LOX/CH4 Multi-element Rocket Engine
title_short Comparison of Reactive Flow Simulations for a LOX/CH4 Multi-element Rocket Engine
title_full Comparison of Reactive Flow Simulations for a LOX/CH4 Multi-element Rocket Engine
title_fullStr Comparison of Reactive Flow Simulations for a LOX/CH4 Multi-element Rocket Engine
title_full_unstemmed Comparison of Reactive Flow Simulations for a LOX/CH4 Multi-element Rocket Engine
title_sort comparison of reactive flow simulations for a lox/ch4 multi-element rocket engine
publisher EDP Sciences
series MATEC Web of Conferences
issn 2261-236X
publishDate 2019-01-01
description This study details the reactive flow simulations of a LOX/CH4 Multi-element rocket engine. The work has been conducted within the framework of the HYPROB-BREAD project whose main objective is the design, manufacture and testing of a LOX/LCH4 regeneratively cooled ground demonstrator. Numerical simulations have been carried out with both commercial software and CIRA software developed in house. Two sets of boundary conditions, nominal and experimental, have been applied from which a code-to-code validation has been effected with the former and a code-to-experiment validation with the latter. The results presented include both flow data and heat fluxes as well as parameters associated with engine performance, and indicate an excellent agreement with experimental data of a LOX/CH4 Multi-element rocket engine.
url https://www.matec-conferences.org/articles/matecconf/pdf/2019/53/matecconf_easn2019_07007.pdf
work_keys_str_mv AT frenchainslied comparisonofreactiveflowsimulationsforaloxch4multielementrocketengine
AT cutroneluigi comparisonofreactiveflowsimulationsforaloxch4multielementrocketengine
AT schettinoantonio comparisonofreactiveflowsimulationsforaloxch4multielementrocketengine
AT marinimarco comparisonofreactiveflowsimulationsforaloxch4multielementrocketengine
AT battistafrancesco comparisonofreactiveflowsimulationsforaloxch4multielementrocketengine
AT natalepasquale comparisonofreactiveflowsimulationsforaloxch4multielementrocketengine
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