The numerical investigation of combustion performance of scramjet combustor with variation in angle of attack

The present article involves computational investigation of parallel fuel injection based scramjet combustor. The wedge shaped strut face is used as a fuel injector. Selected geometry is first validated and then further investigation is performed. Steady-state, two dimensional, scramjet combustor mo...

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Bibliographic Details
Published in:Results in engineering 2022-09, Vol.15, p.100507, Article 100507
Main Authors: Verma, Kumari Ambe, Pandey, Krishna Murari, Ray, Mukul, Sharma, Kaushal Kumar
Format: Article
Language:English
Subjects:
Angle of attack
Combustion efficiency
Reacting flow
Scramjet
Wedge shaped strut
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Summary:The present article involves computational investigation of parallel fuel injection based scramjet combustor. The wedge shaped strut face is used as a fuel injector. Selected geometry is first validated and then further investigation is performed. Steady-state, two dimensional, scramjet combustor model has been chosen to complete the numerical convergence through ANSYS Fluent software. Grid independence analysis has also been performed. Reynolds Average Navier Stokes equation in addition with k-epsilon turbulence modelling have been utilised to reach the convergence at a lower computational cost. Finite rate eddy-dissipation based Species transport modelling is chosen to solve the chemical kinetics between hydrogen and air. The incoming boundary condition of free-stream air has been optimized to improved combustion efficiency. There are three selected model is utilised for comparison i.e. zero degree, positive five and negative five degree air angle of attack model. To change the angle of attack of the incoming air, a Modified isolator is added ahead of the combustor with constant length. It is observed that the behaviour of shock waves and flow properties are dependent on the angle of attack. Comparative observation has been analysed with monitoring the combustion efficiency graph. Maximum combustion efficiency reaches up to 93% in negative five degree air angle of attack model moreover, mixing is also improved by 4%. It can be summarized that the scramjet combustor performance is primarily highly influenced by the geometry configuration and the nature of flow of incoming air. •The Shockwave strength is improved by using an additional isolator ahead of the combustor entrance.•The enhanced combustor performance has been identified compared with the zero degree of angle of attack.•Maximum combustion efficiency reaches up to 93% in negative five degree air angle of attack model.•The mixing efficiency is also increased by 4%.•The scramjet combustor performance is influenced by the geometry configuration and its incoming air angle of attack.
ISSN:2590-1230
2590-1230
DOI:10.1016/j.rineng.2022.100507