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January 6, 2006, 09:46 
which b.c. i should apply for this prob.urgent

#1 
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Hi to all, I am doing transient flow analysis on a pressure vessel.(More or less it is working as a surge tank).At the inlet of surge tank there is compressor. i.e .outlet of compressor is feeding flow to inlet of surge tank. Inlet known conditions at surge tank are velocity and outlet known conditions are velocity and pressure. Inlet velocity is 22 m/sec .and outlet velocity is 22 m/sec(cross sectional area is same) and pressure at outlet is 3.7 bar. Inlet pressure is not known. Now compressor is giving flow to surge tank inlet and this nature of flow is sinusoidal. i.e. pressure is varying sinusoidal at inlet. i.e pressure variation of flow is sinosodiual. The problem may be considered as compressible, but I have simulated it and found that there is little change in density and also little change in pressure .difference of pressure at inlet and outlet is more or less 0.05 bar. My query is which boundary condition I should apply? I have known conditions at inlet is only velocity (22 m/sec).and outlet known conditions is 22 m/sec and pressure is 3.7 bar. Second thing is whether I should consider the flow compressible or incompressible.? I am thing that following boundary conditiona should be applied.
(1) For steady state velocity at inlet and pressure at outlet. (2) For unsteady state velocity at inlet and pressure at outlet. Now for unsteady anything should vary with respect to time. I have varying thing are pressure at inlet and outlet. but I only know pressure variation at outlet. So should I apply that at outlet. Whether it will create divergence flow at outlet due to varying nature or not? that's why I am afraid of that. Please reply me urgent if anybody knows. Thabkibng you all. 

January 9, 2006, 01:38 
Re: which b.c. i should apply for this prob.urgent

#2 
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Well, you should consider the flow to be compressible if the MACH number in the domain is not exceeding 0.2. The boundary conditions for steady state are well posed. For transient run, you need to give physically correct boundary condition i.e. velocity variation with time at inlet and pressure variation at outlet.
If you can specify both of these then the pressure variation at inlet will automatically be calculated by the code. 

January 11, 2006, 04:00 
Re: which b.c. i should apply for this prob.urgent

#3 
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do u htimk that velocit ywill very?because cross sectional area is same upto soime extent at inlet.how velocity can vary?


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