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How to use the result of each time-step as input to next time-step?

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Basically this is how I would do it in hand calculation:

T_out_0 = 22 [degC] %% Guessed initial value.

%% at t=1:

COP(1) = 5[1/K] * T_out_0

T_out(1) = T_avg_Domain(1) - COP(1)/7[1/K]

%% at t=2:

COP(2) = 5[1/K] * T_out(1)

T_out(2) = T_avg_Domain(2) - COP(2)/7[1/K]

and so on ..

My problem is how to calculate COP from the previous T_out? When I define this in Variables node (As shown below), I got this warning: "circular variable dependencies".

COP : 5[1/K] * T_out

T_out : T_avg_Domain - COP/7[1/K]


1 Reply Last Post 22 mai 2019, 08:33 UTC−4
Michael Rembe Certified Consultant

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Posted: 6 years ago 22 mai 2019, 08:33 UTC−4

Hi, you have to define an aditional variable Tav_old (add physics -> Global ODEs and DAEs). Add the equation 0=Tav_old-T_avg_Domain (variable: Tav_old, equation: Tav_old-T_avg_Domain. Then you add a "Previous Solution" subnode below the time dependent solver and solve for Tav_old. By this way you get Tav_old of the old solution.

Best regards Michael Rembe

-------------------
Michael Rembe
Rembe Consulting PartG mbB
www.rembe-consulting.de


Hi, you have to define an aditional variable Tav_old (add physics -> Global ODEs and DAEs). Add the equation 0=Tav_old-T_avg_Domain (variable: Tav_old, equation: Tav_old-T_avg_Domain. Then you add a "Previous Solution" subnode below the time dependent solver and solve for Tav_old. By this way you get Tav_old of the old solution. Best regards Michael Rembe

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