РАСЧЕТ ПАРАМЕТРОВ ТЕЧЕНИЯ В ДИФФУЗОРЕ С УЧЕТОМ ВЗАИМНОГО ВЛИЯНИЯ ПОГРАНИЧНОГО СЛОЯ И ЯДРА ПОТОКА

Abstract

the geometrical affecting stream. Transformation of energy to the diffuser is accompanied by growth of entropy and reduction of complete pressure. In hired the close method of calculation of flow is presented in a diffuser taking into account the presence of frontier layer on walls and kernel of stream, and also their cross-coupling on each other. The used model is based on consideration of integral laws of maintenance of mass, impulse and energy and takes into account the effects of cross-coupling of kernel of flow and frontier layer. For the calculation of parameters of frontier layer the integral methods of type of Pocket are used. A flow in a diffuser is assumed as adiabatic but not isentropic. Complete energy does not change here, but due to forces of friction there is a redistribution between kinetic and thermal energy. Taking into account that in a crossrunner a stream consists of two areas: kernel and circular frontier layer, from the law of maintenance of mass, impulse and energy the system is got from four equalizations for determination of parameters of stream in the kernel of diffuser, from that only one is differential, and other - eventual. An offer methodology of calculation is based on the use of general integral equalizations of law of maintenance of mass, impulse and energy for a channel taking into account the presence of frontier layer on walls and kernel of stream and their cross-coupling on each other. The brought results over of calculations allow to choose the parameters of diffuser, providing a necessary expense and the pressure counted on a certain size in an output section.