How to format the figure from 2-D to surface figure like as the attached figure. The third axis represnt different values for Bi "Take any value for Bi"

2 views (last 30 days)
T K
T K on 14 Jul 2023
Commented: T K on 10 Aug 2023
function sol= proj
clc;clf;clear;
global lamda
%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 = {};myLegend2 = {};
rr = [1 10 20]
for i =1:numel(rr)
Re = rr(i);
Bi=1;
Prf=2;
p=-0.5; L=(muf/rhof);L1=L^(p);Lt=L1^+1;
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;
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,:)))
grid on,hold on
myLegend1{i}=['Pr = ',num2str(rr(i))];
xlabel('eta');
ylabel('(thetas-thetaf)/thetas');
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) =(Bi*Prf*(rhof/muf)*Re)*(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

Sign in to answer this question.

Answers (1)

Syed Sohaib Zafar
Syed Sohaib Zafar on 5 Aug 2023
Hello.. You are coding for 2-D plot. To Get surface plot you must set a grid (x,y) with Bi and eta values and their resultant values in Z.

Categories

Find more on Computational Fluid Dynamics (CFD) in Help Center and File Exchange

Tags

Community Treasure Hunt

Find the treasures in MATLAB Central and discover how the community can help you!

Start Hunting!