how to solve this bvp4c?

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NURUL AISYAH JOHAN
NURUL AISYAH JOHAN 2020 年 1 月 5 日
コメント済み: Didarul Ahasan Redwan 2020 年 4 月 7 日
Hello, can anyone help me solve this bvp4c program?
as to solve this problem, I already try numerous initial numbers.
it's either
Unable to solve the collocation equations -- a singular Jacobian encountered.
or
Warning: Unable to meet the tolerance without using more than 1250 mesh points.
The last mesh of 892 points and the solution are available in the output argument.
The maximum residual is 85.3834, while requested accuracy is 1e-07.
here is the bvp4c:
format long g
global alpha beta phi phid epsilon delta rhoS rhoF Y betaT Ec cpS cpF kf knf Pr Tv A B w Q ks
a=0; b=15;
phi=0.5;phid=0.2;delta=0.5;A=0.5;B=0.5;w=1.5;
betaT=0.2;alpha=0.5;beta=0.5;Ec=0.2;Y=0.01;Pr=6.2;Tv=0.488;epsilon=0.1;
rhoF=997.1;cpF=4179;kf=0.613;
rhoS=8933;cpS=385;knf=0.81629325;
Q=((ks+(2*kf))-(2*phi*(kf-ks)))/((ks+(2*kf))+(phi*(kf-ks))); ks=400;
solinit = bvpinit(linspace(a,b,100),@fluidparticle_init);
options = bvpset('stat','on','RelTol',1e-7);
sol = bvp4c(@fluidparticle_ode,@fluidparticle_bc,solinit,options);
sol.y(3,1)
sol.y(7,1)
plot(sol.x,sol.y(2,:),':r')
function dydx=fluidparticle_ode(x,y,alpha,beta,phi,phid,Y,betaT,Ec,kf,knf,Pr,Tv,A,B,rhoS,rhoF,cpS,cpF,Q)
global alpha beta phi phid Y betaT Ec kf knf Pr Tv A B rhoS rhoF cpS cpF Q
dydx=[y(2);
y(3);
(((1-phi)^2.5)*(1-phi+(phi*(rhoS/rhoF)))*((y(2)^2)-(y(1)*y(3))))-((((1-phi)^2.5)/(1-phid))*alpha*beta*(y(5)-y(2)));
y(5);
((y(5)^2)-(beta*(y(5)-y(2))))/y(4);
y(7);
(1-phi+(phi*((rhoS*cpS)/(rhoF*cpF))))*(Pr/Q)*((2*y(2)*y(6))-(y(1)*y(7)))-((Pr/Q)*((alpha*betaT*(y(8)-y(6)))-((alpha*Ec/Tv)*((y(5)-y(2))^2))))
((2*y(5)*y(8))+(Y*betaT*(y(8)-y(6))))/y(4)];
function res=fluidparticle_bc(ya,yb,epsilon,delta,w)
global epsilon delta w
res=[ya(2)-epsilon-(delta*ya(3))
ya(1)
yb(2)
yb(5)
yb(4)-yb(1)
ya(6)-1-(w*ya(7))
yb(6)
yb(8)];
function v=fluidparticle_init(x)
v=[0.5
-exp(-x)
exp(-x)
0.3
-0.5
-exp(-x)
exp(-x)
-exp(-x)];
what should I adjust in this program?
thank you in advance for your help and kindness.
  2 件のコメント
darova
darova 2020 年 1 月 5 日
Please attach the original equations
NURUL AISYAH JOHAN
NURUL AISYAH JOHAN 2020 年 1 月 6 日
〖(1-ϕ_d)/(1-ϕ)^2.5〗f^''' - (1-ϕ_d) [1-ϕ+ϕ(ρ_s/ρ_f )](f^'2-〖ff〗^'' )+αβ(F^'- f^' )= 0.....(1)
F^'2-FF^''-β(f^'-F^' )=0.....(2)
(1/Pr)(k_nf/k_f ) θ^''-(1-ϕ+ϕ((ρC_p )_(s )/(ρC_p )_f ))(2f^' θ- fθ^' )+ αβ_T (θ_p-θ)+αEc/τ_v (F^'-f^' )^2 = 0.....(3)
2F^' θ_p-Fθ_p^'+γβ_T (θ_p-θ)=0.....(4)
Boundary condition:
f^' (0) = ε+δf^'' (0), f(0) = 0, θ(0) = 1+ωθ'(0)
f^' (η)=0, F^' (η)=0, F(η)=f(η), θ(η)=0, θ_p (η)=0 as η → ∞

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darova
darova 2020 年 1 月 6 日
I re-wrote the main equations (compare yours and mine) and tried b = 1
Check the attachment
  7 件のコメント
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darova
darova 2020 年 4 月 7 日
Why wasn't you? I don't know
I set up a limit b=6/7 and got this
Didarul Ahasan Redwan
Didarul Ahasan Redwan 2020 年 4 月 7 日
https://uk.mathworks.com/matlabcentral/answers/516147-boundary-value-problem-with-bvp4c
can you please have a look at this?
I would be very thankful

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