Ramp Rate constraint in Economic Dispatch using Linprog function

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Swaroop Mahasiva
Swaroop Mahasiva on 17 Nov 2017
Edited: Matt J on 21 Feb 2020
I have a problem in implementing ramp rate constraint using linprog function. I have 5 generators with marginal costs, ramp rate limits, min and max generation capacities as linear functions. In short my economic dispatch problem is as follows:
f = [1000 500 0 0 300]; %%Objective function
lb = [0 0 0 0 0]; %%Lower boundary
ub = [5000 9000 3500 1500 8000]; %%Upper boundary
Aeq = [1 1 1 1 1]; %%Equality Constraint
beq = L; %%Total load
Now, the ramp rate constraint: let PG1 be power generated by generator 1(say)
|PG1(k) - PG1(k-1)| <= Ramp rate limit(200);
where k is the optimization period. so how can i implement this using linprog function...?
PG = linprog(f,A,b,Aeq,beq,lb,ub);
  2 Comments
Matt J
Matt J on 17 Nov 2017
Edited: Matt J on 17 Nov 2017
What are the unknown variables x(i) and what is the dependence of PG on these variables?
Swaroop Mahasiva
Swaroop Mahasiva on 17 Nov 2017
Edited: Matt J on 18 Nov 2017
PG = linprog(f,A,b,Aeq,beq,lb,ub);
Instead of x, i used PG. The output values are Power generated by each generator (PG). So x(i) = PG(i).

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Accepted Answer

Torsten
Torsten on 20 Nov 2017
Edited: Torsten on 20 Nov 2017
f = [1000 500 0 0 300]; %%Objective function
A = [];
b = [];
Aeq = [1 1 1 1 1]; %%Equality Constraint
beq = L; %%Total load
lb = [0 0 0 0 0]; %%Lower boundary
ub = [5000 9000 3500 1500 8000]; %%Upper boundary
PG = linprog(f,A,b,Aeq,beq,lb,ub);
A = [eye(5);-eye(5)];
for i=1:288
b = [200+PG(1) ; 83.33+PG(2) ; 100+PG(3) ; 150+PG(4) ; 66.67+PG(5) ; 200-PG(1) ; 83.33-PG(2) ; 100-PG(3) ; 150-PG(4) ; 66.67-PG(5)];
PG = linprog(f,A,b,Aeq,beq,lb,ub);
end
Best wishes
Torsten.
  4 Comments
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Swaroop Mahasiva
Swaroop Mahasiva on 9 Jan 2018
Torsten's solution satisfies ramp limits and my goal is to optimize the total generation across all 288 periods.How can i obtain optimal solution to my problem.Please help me.Thanks in advance.
Matt J
Matt J on 9 Jan 2018
Edited: Matt J on 9 Jan 2018
What advice is there to add beyond the solution that I proposed in my answer from November?

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More Answers (1)

Matt J
Matt J on 18 Nov 2017
Edited: Matt J on 18 Nov 2017
n=numel(f);
D=diff(eye(n));
A=[D;-D];
b=200*ones(n,1);
PG = linprog(f,A,b,Aeq,beq,lb,ub);
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Aleksandra Komorowska
Aleksandra Komorowska on 21 Feb 2020
Hi,
I'm trying to use this code, but the following error is displayed:
The number of rows in A must be the same as the number of elements of b.
f = [1000 500 0 0 300]; % Objective function
lb = [0 0 0 0 0]; % lower bound
ub = [5000 9000 3500 1500 8000]; % upper bound
L = 20000; % load
D=speye(288);
A=kron([D,-D],eye(5));
b=kron(ones(288*2,1), [200;83.33;100;150;66.7]);
Aeq=kron(speye(288),ones(1,5));
beq=L*ones(288,1);
LB=repmat(lb(:),1,288);
UB=repmat(ub(:),1,288);
F=repmat(f(:),1,288);
PGall = linprog(F,A,b,Aeq,beq,LB,UB)
Do you have any ideas, why?
Best regards,
Aleksandra
Matt J
Matt J on 21 Feb 2020
Edited: Matt J on 21 Feb 2020
It's because the A and b matrix generated by the code have different numbers of rows. But never mind. Looking back at it now, the problem was probably stated incorrectly. Since there are no changes in any of the problem data from period to period, satisfying the rate constraint is trivial. Just solve the optimization problem for the first period and use that for all later periods.

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