Getting this error: In an assignment A(I) = B, the number of elements in B and I must be the same.

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Guilherme Torres il 19 Apr 2016

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Commentato: Guilherme Torres il 20 Apr 2016

 In an assignment  A(I) = B, the number of elements in B and I must be the same.
 Error in Untitled (line 54)
            P(j) = P(j-1)+ delta_p_old/2 * depths;
depths = zeros(1,41);
pressures = zeros(1,41);
% define constant variables
q_o = 500; % bbl/d
T_i = 130; % degrees F
Tubing_ID = 2/12; % feet
Depth = 8000; % feet
API = 28; % dimensionless
mu_l = 1.03; % cp
Y_g = 0.71;
mu_g = 0.0131; % cp
sigma_og = 30; % dynes/cm
pipe_roughness = 0.0006; %dimensionless
P_sc = 14.7; % psia
T_sc = 60 + 460; % degrees F;
delta_z = 0:200:8000; % change in depth iteration of 200 feet to 8000
limit = 42; % iteration limit
iter = 0; % starting iteration
P = zeros(1,41);
%P =  zeros(1,41);
P(1) = 100;
depth(1) = 0;
%change_P_new(1) = 200;
%delta_p_new = 200;
error = 2378645;
% P(i) = 100; %psi
for i = 100:100:800 % for loop
    q_g = q_o*i;
    for j = 2:41    
        while error > 0.001
              if iter ==0
                  delta_p_old = 200;
              end
              if iter > 0
                  delta_p_old = delta_p_new;
                  %change_P_new = delta_p_new
                  %change_P_new(j)= delta_p_old/2;
              end
              P(j) = P(j-1)+ delta_p_old/2 * depths;
              %P(j) = P(j-1)+ delta_p_new(0:delta_p_old / 2:8000);
%             if iter == 2
%                 P(i) = P(i) + delta_p_new;
%         
%                    
%             end
              %for oil
              Y_oil = (141.5/(131.5 + API));
              rho_l = Y_oil * 62.4;
              %for gas and Z factor
              P_pc = 709.6 - (58.7 * Y_g);
              T_pc = 170.5 + (307.3 * Y_g);
              P_pr = P(j)/P_pc;
              T_pr = T_i/T_pc;
              A = 1.39*(T_pr - 0.92)^0.5 - 0.36*T_pr - 0.101;
              B = P_pr*(0.62 - 0.23*T_pr) + P_pr^2 * (0.066/(T_pr-0.86) - 0.037) + (0.32*P_pr^6)/(exp(20.723*(T_pr - 1)));
              C = 0.132 - 0.32*log10(T_pr);
              D = exp(0.715 - 1.128*T_pr + 0.42*T_pr^2);
              Z_fact = A + (1-A) * exp(-B) + C*P_pr^D;
              rho_g = (P(j) * Y_g * 28.97)/(Z_fact * 10.73 * T_i);
              u_sl = (5.615*q_o)/(86400*0.25*pi*Tubing_ID^2);
              u_sg = (1/(86400*0.25*pi*Tubing_ID^2))*q_g*Z_fact*(T_i/T_sc)*(P_sc/P(j));
              N_vl = 1.938*u_sl*(rho_l/sigma_og)^0.25;
              N_vg = 1.938*u_sg*(rho_l/sigma_og)^0.25;
              N_D = 120.872*Tubing_ID*(rho_l/sigma_og)^0.25;
              N_L = 0.15726*mu_l*(1/(rho_l*sigma_og^3))^0.25;
              CN_L = (0.0019+0.0322*N_L - 0.6642*N_L^2 + 4.9951*N_L^3)/(1-10.0147*N_L + 33.8696*N_L^2 + 277.2817*N_L^3);
              H = (N_vl*P(j)^0.1 * CN_L)./((N_vg.^0.575)*P_sc^0.1 * N_D);
              yloverpsi = ((0.0047+1123.32*H+729489.64*H.^2)/(1+1097.1566*H+722153.97*H.^2)).^0.5;
              B = (N_vg*N_L^0.38)/(N_D^2.14);
              psi = (1.0886-69.9473*B.^2 - 12896.683*B.^3)/(1-53.4401*B+1517.9369*B.^2-8419.8115*B.^3);
              Liq_Hold_Up = (yloverpsi)*(psi);
              rho_bar = Liq_Hold_Up*rho_l+(1-Liq_Hold_Up)*rho_g;
              m_dot = (0.25*pi*Tubing_ID^2)*(u_sl*rho_l+u_sg*rho_g)*86400;
              N_Re = ((2.2*10^-2)*m_dot)/(Tubing_ID*(mu_l^Liq_Hold_Up)*(mu_g^(1-Liq_Hold_Up)));
              one_over_sqrtf = -4.*log((pipe_roughness./3.7065)-(5.0452./N_Re).*log((pipe_roughness.^1.1098./2.8275)+(7.149./N_Re).^0.8981));
              dpoverdz = (1/144).*(rho_bar + (m_dot.^2 .* (1./(one_over_sqrtf.^2))./(rho_bar.*7.413*10.^10.*Tubing_ID.^5)));
              delta_p_new = dpoverdz*delta_z;
              error = abs(delta_p_new - delta_p_old);
              iter= iter+1;
              depths(j) = j * 200;
              %pressures(
          end
          delta_z = delta_z - 200;
          if (delta_z < -8000)
              break
          end
      end
      plot(P, depths)
end

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Answer 1

Meade il 19 Apr 2016

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The var at line 105 is a vector of complex numbers (size = 1x41); This causes delta_p_new to be a vector of (size 1x41) of complex numbers on line 107;

You then reassign delta_p_old = delta_p_new at the top of the loop. So, you're trying to say that

P(j)              = P(j-1)             + delta_p_old          * depths
^                       ^                    ^                     ^
size=1x1            size=1x1            size=1x41               size=1x41

The complex number is created on line 81 (Z_fact). This needs be be consistent with the rest of your data types. Address this, then change line 54 to:

P(j) = P(j-1)+ delta_p_old(j)/2 * depths(j);

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Walter Roberson il 20 Apr 2016

Change all of the indices on the right hand side to j-1

Guilherme Torres il 20 Apr 2016

It gives me a straight line graph, which is not what it is supposed to be. But no errors. This is the proposed problem:

Please write a computer code that generates pressure traverse curves for a two-phase flowing vertical well for Gas-Liquid Ratios (GLR) ranging from 100 to 800 SCF/STB, in 100 SCF/STB increments. Use the code to generate curves for Flow Rates varying from 400 to 800 STB/D with an interval of 50 STB/D.

Please help me!! I am desperate at this point.

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