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Isentropic, adiabatic flow#
In this example, the area ratio vs. Mach number curve is computed for a hydrogen/nitrogen gas mixture.
function isentropic(g)
clear all
close all
tic
help isentropic
if nargin == 1
gas = g;
else
gas = Solution('gri30.yaml', 'gri30');
end
% set the stagnation state
gas.TPX = {1200.0, 10.0 * OneAtm, 'H2:1,N2:0.1'};
gas.basis = 'mass';
s0 = gas.S;
h0 = gas.H;
p0 = gas.P;
mdot = 1; % arbitrary
mach = [];
a = [];
i = 1;
amin = 1.e14;
% compute values for a range of pressure ratios
for r = 0.005:0.0025:0.995
p = p0 * r;
% set the state using (p,s0)
gas.SP = {s0, p};
h = gas.H;
rho = gas.D;
v2 = 2.0 * (h0 - h); % h + V^2/2 = h0
v = sqrt(v2);
a(i) = mdot / (rho * v); % rho*v*A = constant
if a(i) < amin
amin = a(i);
end
mach(i) = v / gas.soundSpeed;
i = i + 1;
end
a = a / amin;
% plot results
clf;
plot(mach, a);
ylabel('Area Ratio');
xlabel('Mach Number');
title('Isentropic Flow: Area Ratio vs. Mach Number');
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end