Numerical & experimental study to evaluate the performance of Universiti Tenaga Nasional short duration hypersonic test facility

The work of this paper is aimed to investigate the parameters that affect the performance of a short-duration hypersonic test facility that build at the Universiti Tenaga Nasional "UNITEN" in Malaysia. The facility has been designed, constructed, and commissioned for different values of di...

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Main Authors: Amir A.-F., Yusoff M.Z., Yusaf T.
Other Authors: 15750212500
Format: Conference paper
Published: 2023
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spelling my.uniten.dspace-297862023-12-28T16:57:40Z Numerical & experimental study to evaluate the performance of Universiti Tenaga Nasional short duration hypersonic test facility Amir A.-F. Yusoff M.Z. Yusaf T. 15750212500 7003976733 23112065900 Atmospheric temperature Diaphragms Fluid mechanics Heat flux Rating Runge Kutta methods Surface properties Test facilities Thermocouples Diaphragm pressure Experimental studies Experimental test Facility operations Finite-volume Fourth order Governing equations High precision Malaysia Navier-Stokes solver Operating condition Pressure history Second orders Shock wave velocity Short durations Spatial discretizations Surface temperature changes Temporal integration Theoretical models Time marching Time-accurate Transient heat transfer Wave strengths Shock waves The work of this paper is aimed to investigate the parameters that affect the performance of a short-duration hypersonic test facility that build at the Universiti Tenaga Nasional "UNITEN" in Malaysia. The facility has been designed, constructed, and commissioned for different values of diaphragm pressure ratios and different gas combinations. The applications and reasoning behind building such a facility are explained. The governing equations for the shock wave are presented. A theoretical model was developed to evaluate the shock wave strength P 2/P 1 values as a function of diaphragm pressure ratio P 4/P 1 for different driver/driven gas combinations. A two-dimensional time-accurate time-marching Navier-Stokes solver for shock wave applications is described. It uses second-order accurate cell-vertex finitevolume spatial discretization and fourth order accurate Runge- Kutta temporal integration. Experimental tests for different operating conditions have been accomplished. A high precision pressure transducer and an in house made thermocouple were used to measure the pressure history which represents the shock wave strength P 2/P 1 and the surface temperature change profile during the facility operation. A MATLAB numerical transient heat transfer model was developed to evaluate the heat flux from the surface temperature change history. The calculated parameters which are pressure, temperature and shock wave velocity, and the CFD results were found to be much matched comparable to the experimental results. Final 2023-12-28T08:57:40Z 2023-12-28T08:57:40Z 2007 Conference paper 2-s2.0-84856901405 https://www.scopus.com/inward/record.uri?eid=2-s2.0-84856901405&partnerID=40&md5=723f4ec4408d873c6fd45feacc41e70e https://irepository.uniten.edu.my/handle/123456789/29786 104 111 Scopus
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
url_provider http://dspace.uniten.edu.my/
topic Atmospheric temperature
Diaphragms
Fluid mechanics
Heat flux
Rating
Runge Kutta methods
Surface properties
Test facilities
Thermocouples
Diaphragm pressure
Experimental studies
Experimental test
Facility operations
Finite-volume
Fourth order
Governing equations
High precision
Malaysia
Navier-Stokes solver
Operating condition
Pressure history
Second orders
Shock wave velocity
Short durations
Spatial discretizations
Surface temperature changes
Temporal integration
Theoretical models
Time marching
Time-accurate
Transient heat transfer
Wave strengths
Shock waves
spellingShingle Atmospheric temperature
Diaphragms
Fluid mechanics
Heat flux
Rating
Runge Kutta methods
Surface properties
Test facilities
Thermocouples
Diaphragm pressure
Experimental studies
Experimental test
Facility operations
Finite-volume
Fourth order
Governing equations
High precision
Malaysia
Navier-Stokes solver
Operating condition
Pressure history
Second orders
Shock wave velocity
Short durations
Spatial discretizations
Surface temperature changes
Temporal integration
Theoretical models
Time marching
Time-accurate
Transient heat transfer
Wave strengths
Shock waves
Amir A.-F.
Yusoff M.Z.
Yusaf T.
Numerical & experimental study to evaluate the performance of Universiti Tenaga Nasional short duration hypersonic test facility
description The work of this paper is aimed to investigate the parameters that affect the performance of a short-duration hypersonic test facility that build at the Universiti Tenaga Nasional "UNITEN" in Malaysia. The facility has been designed, constructed, and commissioned for different values of diaphragm pressure ratios and different gas combinations. The applications and reasoning behind building such a facility are explained. The governing equations for the shock wave are presented. A theoretical model was developed to evaluate the shock wave strength P 2/P 1 values as a function of diaphragm pressure ratio P 4/P 1 for different driver/driven gas combinations. A two-dimensional time-accurate time-marching Navier-Stokes solver for shock wave applications is described. It uses second-order accurate cell-vertex finitevolume spatial discretization and fourth order accurate Runge- Kutta temporal integration. Experimental tests for different operating conditions have been accomplished. A high precision pressure transducer and an in house made thermocouple were used to measure the pressure history which represents the shock wave strength P 2/P 1 and the surface temperature change profile during the facility operation. A MATLAB numerical transient heat transfer model was developed to evaluate the heat flux from the surface temperature change history. The calculated parameters which are pressure, temperature and shock wave velocity, and the CFD results were found to be much matched comparable to the experimental results.
author2 15750212500
author_facet 15750212500
Amir A.-F.
Yusoff M.Z.
Yusaf T.
format Conference paper
author Amir A.-F.
Yusoff M.Z.
Yusaf T.
author_sort Amir A.-F.
title Numerical & experimental study to evaluate the performance of Universiti Tenaga Nasional short duration hypersonic test facility
title_short Numerical & experimental study to evaluate the performance of Universiti Tenaga Nasional short duration hypersonic test facility
title_full Numerical & experimental study to evaluate the performance of Universiti Tenaga Nasional short duration hypersonic test facility
title_fullStr Numerical & experimental study to evaluate the performance of Universiti Tenaga Nasional short duration hypersonic test facility
title_full_unstemmed Numerical & experimental study to evaluate the performance of Universiti Tenaga Nasional short duration hypersonic test facility
title_sort numerical & experimental study to evaluate the performance of universiti tenaga nasional short duration hypersonic test facility
publishDate 2023
_version_ 1806427324083601408
score 13.222552