surface integral of discrete data

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Peter
Peter on 22 Apr 2012
Commented: Sindhu on 7 Mar 2014
I would like to compute the circulation of a velocity field. I think that the best way would be to compute the vorticity and then calculate the surface integral. At the moment I have computed vorticity using curl(X,Y,U,V) Where X,Y,U,V are all 2D matrices. Now that I have vorticity, how can I calculate the surface integral of vorticity? I found solutions if the velocity field can be defined by a function, but not if it is a set of descrete points.
thanks

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Answers (2)

Richard Brown
Richard Brown on 22 Apr 2012
This came up recently -- in this thread there is code for computing the surface area based on dividing a regular mesh into triangles:
http://www.mathworks.com/matlabcentral/answers/35501-surface-area-from-a-z-matrix
  2 Comments
Peter
Peter on 23 Apr 2012
Thanks for the pointer. I looked over at the other answer and I tried implementing it into my code but i think i'm missing something.
If I consider the a rectangular domain 0<x<3 and 0<y<1 with u = x^2*y and v = x*y I should get -7.5 for the circulation around the rectangle
However I'm getting a value of ~5.8. If you could help clarify I would greatly appreciate it. my code is below
function green_test
clear all
close all
clc
dx = 0.01;
dy = 0.01;
x = 0:dx:3;
y = 0:dy:1;
[X,Y] = meshgrid(x,y);
U = X.^2.*Y;
V = X.*Y;
vort = curl(X,Y,U,V);
a = surface_int(dx,dy,vort,-5)
function [surfaceArea] = surface_int(dx,dy,Z,cutoff)
[m, n] = size(Z);
areas = 0.5*sqrt((dx*dy)^2 + (dx*(Z(1:m-1,2:n) - Z(1:m-1,1:n-1))).^2 + ...
(dy*(Z(2:m,1:n-1) - Z(1:m-1,1:n-1))).^2) + ...
0.5*sqrt((dx*dy)^2 + (dx*(Z(1:m-1,2:n) - Z(2:m,2:n))).^2 + ...
(dy*(Z(2:m,1:n-1) - Z(2:m,2:n))).^2);
zMean = 0.25 * (Z(1:m-1,1:n-1) + Z(1:m-1,2:n) + Z(2:m,1:n-1) + Z(2:m,2:n));
areas(zMean <= cutoff) = 0;
surfaceArea = sum(areas(:));
sprintf('Total surface area is %2.4f\n', surfaceArea)
Richard Brown
Richard Brown on 23 Apr 2012
Yeah, your question is actually easier than that - see my other answer

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Richard Brown
Richard Brown on 23 Apr 2012
Sorry, I read your question too fast and pointed you to code for surface area, not surface integral. In this case it's even easier, as your "surface" that you're integrating over is just the xy plane, and the vorticity is all oriented directly upwards. So the surface integral is simply
dx = 0.01;
dy = 0.01;
x = 0:dx:3;
y = 0:dy:1;
[X,Y] = meshgrid(x,y);
U = X.^2.*Y;
V = X.*Y;
[W,~] = curl(X,Y,U,V);
[m,n] = size(W);
vort = 0.25 * (W(1:m-1,1:n-1) + W(1:m-1,2:n) + W(2:m,1:n-1) + W(2:m,2:n));
circulation = sum(vort(:))*dx*dy
A couple of notes:
  1. Make sure you call curl with two output arguments, otherwise it returns the angular velocity only
  2. The vorticity that you're integrating over is evaluated at the centre of each rectangle, hence the averaging expression on the vort = line
  2 Comments
Richard Brown
Richard Brown on 23 Apr 2012
And you could do it without the averaging by defining your grid slightly differently
x = (dx/2):dx:(3-dx/2);
y = (dy/2):dy:(1-dy/2);
circulation = sum(W(:)) * dx * dy
Sindhu
Sindhu on 7 Mar 2014
I also have the same problem statement. "To find Circulation in the yz plane". I understand the coding till the vorticity part. But why do you take an averaged value for vorticity? This is hopefully first order accurate and what should I do If I need second order accuracy? Please suggests me some books or sites to understand the calculations. I went through few lectures on surface integral and parameterization of surfaces. It seems to be confusing and I could not figure out what is the math behind it.

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