Shouldn't your solution array be three-dimensional instead of two-dimensional ? The way you arranged the code, you only get one solution at time T - the complete history for U is overwritten.
Need help solving heat equation using adi method
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Nx = 50;
Ny = 50;
dx = 1.0 / (Nx - 1);
dy = 2.0 / (Ny - 1);
T = 0.00001;
dt = 0.000000001;
Nt = 1000; % Total number of time steps
alpha = 4; % Diffusion coefficient
x = linspace(0, 1, Nx);
y = linspace(0, 2, Ny);
[X, Y] = meshgrid(x, y);
U = Y .* X + 1; % Initial condition
function val = f(x, y, t)
val = exp(t) * cos(pi * x / 2) * sin(pi * y / 4);
end
function U = apply_boundary_conditions(U, x, y, dy, dx)
U(:, 1) = 1; % y=0
U(:, end) = U(:, end-1) + dy .* x'; % y=2
U(1, :) = U(2, :) - dx * y; % x=0
U(end, :) = y' + 1; % x=1
end
% Thomas algorithm
function x = thomas_algorithm(a, b, c, d)
n = length(d);
c_star = zeros(n-1, 1);
d_star = zeros(n, 1);
x = zeros(n, 1);
c_star(1) = c(1) / b(1);
d_star(1) = d(1) / b(1);
for i = 2:n-1
temp = b(i) - a(i-1) * c_star(i-1);
c_star(i) = c(i) / temp;
d_star(i) = (d(i) - a(i-1) * d_star(i-1)) / temp;
end
d_star(n) = (d(n) - a(n-1) * d_star(n-1)) / b(n);
x(n) = d_star(n);
for i = n-1:-1:1
x(i) = d_star(i) - c_star(i) * x(i+1);
end
end
% ADI method
for n = 1:Nt
U = apply_boundary_conditions(U, x, y, dy, dx);
% First half-step: X-direction implicit, Y-direction explicit
for j = 2:Ny-1
a = -alpha * dt / (2 * dx^2) * ones(Nx-1, 1);
b = (1 + alpha * dt / dx^2) * ones(Nx, 1);
c = -alpha * dt / (2 * dx^2) * ones(Nx-1, 1);
d = U(j, 2:end-1)' + 0.5 * alpha * dt / dy^2 * (U(j+1, 2:end-1) - 2 * U(j, 2:end-1) + U(j-1, 2:end-1))' + dt * f(x(2:end-1), y(j), n*dt);
U(j, 2:end-1) = thomas_algorithm(a, b(2:end-1), c, d);
end
% Second half-step: Y-direction implicit, X-direction explicit
for i = 2:Nx-1
a = -alpha * dt / (2 * dy^2) * ones(Ny-1, 1);
b = (1 + alpha * dt / dy^2) * ones(Ny, 1);
c = -alpha * dt / (2 * dy^2) * ones(Ny-1, 1);
d = U(2:end-1, i) + 0.5 * alpha * dt / dx^2 * (U(2:end-1, i+1) - 2 * U(2:end-1, i) + U(2:end-1, i-1)) + dt * f(x(i), y(2:end-1), n*dt);
U(2:end-1, i) = thomas_algorithm(a, b(2:end-1), c, d);
end
U = apply_boundary_conditions(U, x, y, dy, dx);
end
% Visualization
surf(X, Y, U);
title('ADI Solution at T=' + string(T));
xlabel('X');
ylabel('Y');
zlabel('U');
colorbar;
답변 (1개)
John D'Errico
2024년 5월 12일
You say it works for sufficiently small values dt.
With that exp(t) term in there, do you seriously expect it to work well for large values of dt? I have dreams myself somedays...
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