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  • FLUENT - Compressible Flow in a Nozzle- Problem Specification
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Author: Rajesh Bhaskaran, Cornell University

Problem Specification
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Pre-Analysis & Start-up
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Geometry

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Mesh
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Setup (Physics)
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Solution
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Results
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Verification & Validation
Problem 1
Problem 2

Problem Specification

Consider air flowing at high-speed through a convergent-divergent nozzle having a circular cross-sectional area, A, that varies with axial distance from the throat, x, according to the formula

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where A is in square meters and x is in meters. The stagnation pressure po at the inlet is 101,325 Pa. The stagnation temperature To at the inlet is 300 K. The static pressure p at the exit is 3,738.9 Pa. We will calculate the Mach number, pressure and temperature distribution in the nozzle using FLUENT and compare the solution to quasi-1D nozzle flow results. The Reynolds number for this high-speed flow is large. So we expect viscous effects to be confined to a small region close to the wall. So it is reasonable to model the flow as inviscid.

Go to Step 1: Create Geometry in GAMBITPre-Analysis & Start-up

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