35 lines
1.1 KiB
Matlab
Executable File
35 lines
1.1 KiB
Matlab
Executable File
%omkar
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nu_ft2ps = 1.764e-4;
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rho_slugpft3 = 0.0020451;
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c_ft = 10;
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xtr_ft = .2*c_ft;
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ft_2_in = 12;
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Vinf_fps = 198;
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q = 0.5 * rho_slugpft3 * (Vinf_fps^2);
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Re_xtr = Vinf_fps * xtr_ft / nu_ft2ps;
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delta_xtr_ft=( 5.2 * xtr_ft )/(Re_xtr)^0.5;
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delta_l_ft = ((delta_xtr_ft*((Vinf_fps)^0.2))/(0.37*((nu_ft2ps)^0.2)))^(1/0.8);
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lt_ft = c_ft - xtr_ft + delta_l_ft;
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Re_lt = Vinf_fps * lt_ft / nu_ft2ps;
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delta_ft = 0.37 * lt_ft /(Re_lt)^0.2
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% for k = 1:100
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% if (k <= 100*lam)
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% Re_x = v_fps * x(k) / dynvisc;
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% delta_x=( 5.2 * x(k) )/(Re_x)^0.5;
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% wake(j,k)= delta_x;
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% else %if turbulent
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% x_tr=x(100*lam);
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% Re_xtr = v_fps * x_tr / dynvisc;
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% delta_xtr=( 5.2 * x_tr )/(Re_xtr)^0.5;
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% delta_l = ((delta_xtr*((v_fps)^0.2))/(0.37*((dynvisc)^0.2)))^(1/0.8);
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% lt = x(k) - x_tr + delta_l;
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% Re_lt = v_fps * lt / dynvisc;
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% delta = 0.37 * lt /(Re_lt)^0.2;
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% wake(j,k) = delta;
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% end
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%
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% end |