This paper provides an efficient and accurate numerical method for computing internal flows in two dimensions. The method has been designed to deal with subsonic-to-supersonic flows without shocks, but can deal with entirely subsonic and transonic flows. The perturbative lambda formulation equations are considered and solved by block-line-relaxation methods. The validity of the proposed technique is demonstrated for a well documented nozzle flow problem for both subsonic and subsonic-to-supersonic flow conditions.
Efficient Solution of Compressible Internal Flows / Napolitano, M.; De Palma, P.. - STAMPA. - (1991), pp. 201-212. [10.1007/978-1-4612-0945-4_11]
Efficient Solution of Compressible Internal Flows
M. Napolitano;P. De Palma
1991-01-01
Abstract
This paper provides an efficient and accurate numerical method for computing internal flows in two dimensions. The method has been designed to deal with subsonic-to-supersonic flows without shocks, but can deal with entirely subsonic and transonic flows. The perturbative lambda formulation equations are considered and solved by block-line-relaxation methods. The validity of the proposed technique is demonstrated for a well documented nozzle flow problem for both subsonic and subsonic-to-supersonic flow conditions.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.