Geodesic
Turbulence modeling approaches to prediction of the overexpanded supersonic nozzles side load
Izvestiya Instituta Matematiki i Informatiki Udmurtskogo Gosudarstvennogo Universiteta, no. 2 (2015), pp. 93-98 Cet article a éte moissonné depuis la source Math-Net.Ru

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A simulation of gas flow in a overexpanded axisymmetric nozzle at a start-up stage is performed. The calculations exposed in this paper point out a side load phenomena. Computations are carried out with the use of the Reynolds-averaged Navier–Stokes $k$$\omega$ SST model and Delayed Detached-Eddy Simulations (SST DDES). The results are discussed with respect to the turbulence modelling technique.
Keywords: finite volume method, detached-eddy simulation, the side load, the supersonic nozzle. 
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     title = {Turbulence modeling approaches to prediction of the overexpanded supersonic nozzles side load},
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I. M. Kuz'min; L. E. Tonkov; A. A. Chernova. Turbulence modeling approaches to prediction of the overexpanded supersonic nozzles side load. Izvestiya Instituta Matematiki i Informatiki Udmurtskogo Gosudarstvennogo Universiteta, no. 2 (2015), pp. 93-98. http://geodesic.mathdoc.fr/item/IIMI_2015_2_a11/

[1] Tomita T., Sakamoto H., Onodera T., Sasaki M., Takahashi M., Tamura H., Experimental evaluation of side load characteristics on TP, CTP, and TO Nozzles, AIAA Paper, No2004-3678, 2004, 9 pp.

[2] Zmijanovic V., Rasuo B., Chpoun A., “Flow separation modes and side phenomena in an overexpanded nozzle”, FME Transactions, 40:3 (2012), 111–118

[3] Wang T.-S., “Transient three-dimensional startup side load analysis of a regeneratively cooled nozzle”, Shock Waves, 19:3 (2009), 251–264 | DOI | Zbl

[4] Zhao X., Bayyuk S., Zhang S., “Aeroelastic response of rocket nozzles to asymmetric thrust loading”, Computers and Fluids, 76 (2013), 128–148 | DOI

[5] Demirdzic I., Lilek Z., Peric M., “A collocated finite volume method for predicting flows at all speeds”, International Journal for Numerical Methods in Fluids, 16:12 (1993), 1029–1050 | DOI | Zbl

[6] Kopysov S. P., Tonkov L. E., Chernova A. A., “Positing of boundary and entry conditions for modeling progress of start up of a nozzle”, Khimicheskaya fizika i mezoskopiya, 16:2 (2013), 216–222 (in Russian)

[7] Paik J., Sotiropoulos F., Porte-Agel F., “Detached eddy simulation of flow around two wall-mounted cubes in tandem”, Int. J. Heat and Fluid Flow, 30:2 (2009), 286–305 | DOI

[8] Gritskevich M. S., Garbaruk A. V., Menter F. R., “Fine-tuning of DDES and IDDES formulations to the $k$–$\omega$ shear stress transport model”, Progress in Flight Physics, 5 (2013), 23–42 | DOI