Please help me to run surf plot with bvp4c.
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Please help me to run surf plot with bvp4c.The surfce digram consists of (constant Prf [2 :1:6] represents y-axis & vector>> sol.x [0 4] represents x-axis (m = linspace(0,4);) & second solution only sol.y(6,:) represents z-axis).The following is the code for 2D (sol.x [0 4] and only sol.y(6,:)). How to give command for making surf plot in bvp4c.
proj()
function sol= proj
clc;clf;clear;
%Relation of base fluid
rhof=1;kf=0.613*10^5;cpf=4179*10^4;muf=10^-3*10;sigf=0.05*10^-8;alfaf=kf/(rhof*cpf);
%FE3O4
ph1=0.01;rho1=5180*10^-3;cp1=670*10^4;k1=9.7*10^5;sig1=0.74*10^-2;
%copper
ph2=0.01;rho2=8933*10^-3;cp2=385*10^4;k2=401*10^5;sig2=5.96*10^-1;
%Relation of hyprid
m=5.7;
kh=kf*((k1+(m-1)*kf-(m-1)*ph1*(kf-k1))/((k1+(m-1)*kf+ph1*(kf-k1))))*((k2+(m-1)*kf-(m-1)*ph2*(kf-k2))/((k2+(m-1)*kf+ph2*(kf-k2))));
muh= muf/((1-ph1)^2.5*(1-ph2)^2.5);
rhoh=rhof*(1-ph2)*((1-ph1)+ph1*(rho1/rhof))+ph2*rho2;
v1 =rhof*cpf*(1-ph2)*((1-ph1)+ph1*((rho1*cp1)/(rho2*cp2)))+ph2*(rho2*cp2);
sigh=sigf+(3*((ph1*sig1+ph2*sig2)-sigf*(ph1+ph2))/(((ph1*sig1+ph2*sig2)/(sigf*(ph1+ph2)))+2-((ph1*sig1+ph2*sig2)/sigf)+(ph1+ph2)));
alfah=kh/v1;
myLegend1 = {};
rr = [4 5 6 7]
for i =1:numel(rr)
Prf = rr(i);
Nr=0.1;
gamma=pi/3;
a=1;b=0.1;v=1;u=1;
M=3;
Nt=1;Nb=1; sc=0.6;s1=1;s2=1;
p=-0.5; L=(muf/rhof);L1=L^(p);
Tw=273+50;Ti=273+27;deltaT=Tw-Ti;
Lf=rhof*kf;
y0 = [1,0,1,0,0,1,0,1,0];
options =bvpset('stats','on','RelTol',1e-4);
m = linspace(0,4);
solinit = bvpinit(m,y0);
sol= bvp4c(@projfun,@projbc,solinit,options);
disp((sol.y(1,20)))
figure(1)
plot(sol.x,(sol.y(6,:)))
% axis([0 4 0 1])
grid on,hold on
myLegend1{i}=['Pr = ',num2str(rr(i))];
i=i+1;
end
figure(1)
legend(myLegend1)
hold on
function dy= projfun(~,y)
dy= zeros(9,1);
% alignComments
E = y(1);
dE = y(2);
F = y(3);
dF= y(4);
W = y(5);
t = y(6);
dt = y(7);
phi = y(8);
dphi = y(9);
dy(1) = dE;
dy(2) = (rhoh/muh)*((((a*u)/L1^(2)))*E^2+(1/L1)*W*dE+((sigh/sigf)/(rhoh/rhof))*(1/L1^2)*M*E*sin(gamma)*sin(gamma));
dy(3) = dF;
dy(4) = (rhoh/muh)*((((b*v)/L1^(2)))*F^2+(1/L1)*W*dF+((sigh/sigf)/(rhoh/rhof))*(1/L1^2)*M*F*sin(gamma)*sin(gamma));
dy(5) = -(1/L1)*(u*a*E+b*v*F);
dy(6) = dt;
dy(7) =(Prf*(rhof/muf))*(1/(Nr+(kh/kf)))*(((v1)/(rhof*cpf))*(1/L1)*W*dt-(muh/(rhof*cpf))*(L1/s1)*(1/deltaT)*(-(1/L1)*(u*a*E+b*v*F))^2);
dy(8)= dphi;
dy(9)=(sc/L^(p+1))*W*dphi-(s1/s2)*(Nt/Nb)*(((Prf*(rhof/muf)))*(1/(Nr+(kh/kf)))*(((v1)/(rhof*cpf))*(1/L1)*W*dt-(muh/(rhof*cpf))*(L1/s1)*(1/deltaT)*(-(1/L1)*(u*a*E+b*v*F))^2));
end
end
function res= projbc(ya,yb)
res= [ya(1)-1;
ya(3)-1;
ya(5)-0;
ya(6)-1;
ya(8)-1;
yb(1);
yb(3);
yb(6);
yb(8)];
end
Accepted Answer
AKennedy
on 22 Aug 2024
Edited: Walter Roberson
on 22 Aug 2024
To create a surface plot using the bvp4c solution in MATLAB, you need to organize your data into matrices that represent the x, y, and z axes. In your case, the x axis is represented by sol.x, the y axis by Prf, and the z axis by sol.y(6,:). Here's how you can modify your code to produce a surface plot:
- Initialize Data Storage: Store the results for each value of Prf in a matrix.
- Loop Over Prf: Solve the boundary value problem for each value of Prf.
- Create the Surface Plot: Use surf to plot the data.
proj()
function sol = proj
clc; clf; clear;
% Define constants and parameters
rhof = 1; kf = 0.613e5; cpf = 4179e4; muf = 1e-3 * 10; sigf = 0.05e-8;
alfaf = kf / (rhof * cpf);
ph1 = 0.01; rho1 = 5180e-3; cp1 = 670e4; k1 = 9.7e5; sig1 = 0.74e-2;
ph2 = 0.01; rho2 = 8933e-3; cp2 = 385e4; k2 = 401e5; sig2 = 5.96e-1;
m = 5.7;
kh = kf * ((k1 + (m - 1) * kf - (m - 1) * ph1 * (kf - k1)) / ((k1 + (m - 1) * kf + ph1 * (kf - k1)))) * ...
((k2 + (m - 1) * kf - (m - 1) * ph2 * (kf - k2)) / ((k2 + (m - 1) * kf + ph2 * (kf - k2))));
muh = muf / ((1 - ph1)^2.5 * (1 - ph2)^2.5);
rhoh = rhof * (1 - ph2) * ((1 - ph1) + ph1 * (rho1 / rhof)) + ph2 * rho2;
v1 = rhof * cpf * (1 - ph2) * ((1 - ph1) + ph1 * ((rho1 * cp1) / (rho2 * cp2))) + ph2 * (rho2 * cp2);
sigh = sigf + (3 * ((ph1 * sig1 + ph2 * sig2) - sigf * (ph1 + ph2)) / ...
(((ph1 * sig1 + ph2 * sig2) / (sigf * (ph1 + ph2))) + 2 - ((ph1 * sig1 + ph2 * sig2) / sigf) + (ph1 + ph2)));
alfah = kh / v1;
% Initialize parameters
rr = [4 5 6 7];
numPrf = numel(rr);
m = linspace(0, 4);
y0 = [1, 0, 1, 0, 0, 1, 0, 1, 0];
options = bvpset('stats', 'on', 'RelTol', 1e-4);
% Initialize storage for surface plot
Z = zeros(numPrf, length(m));
% Solve the BVP for each Prf
for i = 1:numPrf
Prf = rr(i);
solinit = bvpinit(m, y0);
sol = bvp4c(@projfun, @projbc, solinit, options);
Z(i, :) = sol.y(6, :); % Store the z-axis data
end
% Create surface plot
[X, Y] = meshgrid(m, rr);
figure;
surf(X, Y, Z);
xlabel('x');
ylabel('Prf');
zlabel('Solution y(6,:)');
title('Surface Plot of Solution');
grid on;
function dy = projfun(~, y)
dy = zeros(9, 1);
E = y(1);
dE = y(2);
F = y(3);
dF = y(4);
W = y(5);
t = y(6);
dt
end
end
7 Comments
Walter Roberson
on 22 Aug 2024
Your function projfun is incomplete: it needs to calculate the current components for dy.
proj()
%full code is showen below...
function sol= proj
clc;clf;clear;
%Relation of base fluid
rhof=1;kf=0.613*10^5;cpf=4179*10^4;muf=10^-3*10;sigf=0.05*10^-8;alfaf=kf/(rhof*cpf);
%FE3O4
ph1=0.01;rho1=5180*10^-3;cp1=670*10^4;k1=9.7*10^5;sig1=0.74*10^-2;
%copper
ph2=0.01;rho2=8933*10^-3;cp2=385*10^4;k2=401*10^5;sig2=5.96*10^-1;
%Relation of hyprid
m=5.7;
kh=kf*((k1+(m-1)*kf-(m-1)*ph1*(kf-k1))/((k1+(m-1)*kf+ph1*(kf-k1))))*((k2+(m-1)*kf-(m-1)*ph2*(kf-k2))/((k2+(m-1)*kf+ph2*(kf-k2))));
muh= muf/((1-ph1)^2.5*(1-ph2)^2.5);
rhoh=rhof*(1-ph2)*((1-ph1)+ph1*(rho1/rhof))+ph2*rho2;
v1 =rhof*cpf*(1-ph2)*((1-ph1)+ph1*((rho1*cp1)/(rho2*cp2)))+ph2*(rho2*cp2);
sigh=sigf+(3*((ph1*sig1+ph2*sig2)-sigf*(ph1+ph2))/(((ph1*sig1+ph2*sig2)/(sigf*(ph1+ph2)))+2-((ph1*sig1+ph2*sig2)/sigf)+(ph1+ph2)));
alfah=kh/v1;
myLegend1 = {};
rr = [4 5 6 7]
for i =1:numel(rr)
Prf = rr(i);
Nr=0.1;
gamma=pi/3;
a=1;b=0.1;v=1;u=1;
M=3;
Nt=1;Nb=1; sc=0.6;s1=1;s2=1;
p=-0.5; L=(muf/rhof);L1=L^(p);
Tw=273+50;Ti=273+27;deltaT=Tw-Ti;
Lf=rhof*kf;
y0 = [1,0,1,0,0,1,0,1,0];
options =bvpset('stats','on','RelTol',1e-4);
m = linspace(0,4);
solinit = bvpinit(m,y0);
sol= bvp4c(@projfun,@projbc,solinit,options);
disp((sol.y(1,20)))
figure(1)
plot(sol.x,(sol.y(6,:)))
% axis([0 4 0 1])
grid on,hold on
myLegend1{i}=['Pr = ',num2str(rr(i))];
i=i+1;
end
figure(1)
legend(myLegend1)
hold on
function dy= projfun(~,y)
dy= zeros(9,1);
% alignComments
E = y(1);
dE = y(2);
F = y(3);
dF= y(4);
W = y(5);
t = y(6);
dt = y(7);
phi = y(8);
dphi = y(9);
dy(1) = dE;
dy(2) = (rhoh/muh)*((((a*u)/L1^(2)))*E^2+(1/L1)*W*dE+((sigh/sigf)/(rhoh/rhof))*(1/L1^2)*M*E*sin(gamma)*sin(gamma));
dy(3) = dF;
dy(4) = (rhoh/muh)*((((b*v)/L1^(2)))*F^2+(1/L1)*W*dF+((sigh/sigf)/(rhoh/rhof))*(1/L1^2)*M*F*sin(gamma)*sin(gamma));
dy(5) = -(1/L1)*(u*a*E+b*v*F);
dy(6) = dt;
dy(7) =(Prf*(rhof/muf))*(1/(Nr+(kh/kf)))*(((v1)/(rhof*cpf))*(1/L1)*W*dt-(muh/(rhof*cpf))*(L1/s1)*(1/deltaT)*(-(1/L1)*(u*a*E+b*v*F))^2);
dy(8)= dphi;
dy(9)=(sc/L^(p+1))*W*dphi-(s1/s2)*(Nt/Nb)*(((Prf*(rhof/muf)))*(1/(Nr+(kh/kf)))*(((v1)/(rhof*cpf))*(1/L1)*W*dt-(muh/(rhof*cpf))*(L1/s1)*(1/deltaT)*(-(1/L1)*(u*a*E+b*v*F))^2));
end
end
function res= projbc(ya,yb)
res= [ya(1)-1;
ya(3)-1;
ya(5)-0;
ya(6)-1;
ya(8)-1;
yb(1);
yb(3);
yb(6);
yb(8)];
end
Walter Roberson
on 22 Aug 2024
Okay... but you do not produce a surface plot?
T K
on 1 Sep 2024
T K
on 1 Sep 2024
when run this code,the message show .
please help me
Torsten
on 1 Sep 2024
It may happen that "bvp4c" changes the number of discretizations points so that it won't return the solution in 100 points as at the start, but in more or less.
Use
sol = bvp4c(@projfun, @projbc, solinit, options);
Z(i,:) = deval(sol,m,6)
to interpolate the solution to the values m of your choice.
Take care not to come into conflict with the parameter "m" used here:
m = 5.7;
kh = kf * ((k1 + (m - 1) * kf - (m - 1) * ph1 * (kf - k1)) / ((k1 + (m - 1) * kf + ph1 * (kf - k1)))) * ...
((k2 + (m - 1) * kf - (m - 1) * ph2 * (kf - k2)) / ((k2 + (m - 1) * kf + ph2 * (kf - k2))));
T K
on 1 Sep 2024
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