File mtt/lib/cr/r/MA.cr artifact 2731f4363e part of check-in 1f77d7ee1e


%SUMMARY MA: Mass-action kinetics for Re
%DESCRIPTION Parameter 1: kappa

OPERATOR MA;

%%% Two port version (standard)
FOR ALL n_out, A_f, A_r, kappa
LET MA(R, flow,kappa,flow,n_out,	
   A_f,effort,1,	
   A_r,effort,2) = kappa*(exp(A_f/RT) - exp(A_r/RT));


%%% Four port version (stoichiometric) with integral causality
%% Flows on ports 1 & 2 = flow on port 3.
FOR ALL A_f, A_r, v_1, v_2,kappa
LET MA(R, flow,kappa,flow,1,	
   A_f,effort,1,	
   A_r,effort,2,
   v_1,flow,3,
   v_2,effort,4) = v_1;

FOR ALL A_f, A_r, v_1, v_2,kappa
LET MA(R, flow,kappa,flow,2,	
   A_f,effort,1,	
   A_r,effort,2,
   v_1,flow,3,
   v_2,effort,4) = v_1;

%% Flow on port 4 is induced flow
FOR ALL A_f, A_r, v_1, v_2,kappa
LET MA(R, flow,kappa,flow,4,	
   A_f,effort,1,	
   A_r,effort,2,
   v_1,flow,3,
   v_2,effort,4) = kappa*(exp(A_f/RT) - exp(A_r/RT));

%%% Four port version (stoichiometric) with flow imposed on port 1
%% Flow on port 2 = flow on port 1
FOR ALL A_1,A_2,A_3,A_4, v_1,v_2,v_3,v_4, kappa
LET MA(R, flow,kappa,flow,2,	
   v_1,flow,1,	
   A_2,effort,2,
   v_3,flow,3,
   A_4,effort,4) = v_1;

%% Flow on port 4 = flow on port 1
FOR ALL A_1,A_2,A_3,A_4, v_1,v_2,v_3,v_4, kappa
LET MA(R, flow,kappa,flow,4,	
   v_1,flow,1,	
   A_2,effort,2,
   v_3,flow,3,
   A_4,effort,4) = v_1;

%% Effort on port 1
FOR ALL A_1,A_2,A_3,A_4,v_1,v_2,v_3,v_4,kappa
LET MA(R,flow,kappa,effort,1,
   v_1,flow,1,	
   A_2,effort,2,
   v_3,flow,3,
   A_4,effort,4) = RT*log( (v_1/kappa) + exp(A_2/RT) );


%%% Four port version (stoichiometric) with flow imposed on port 2

%% Flow on port 1 = flow on port 2
FOR ALL A_1,A_2,A_3,A_4, v_1,v_2,v_3,v_4, kappa
LET MA(R, flow,kappa,flow,1,	
   A_1,effort,1,	
   v_2,flow,2,
   v_3,flow,3,
   A_4,effort,4) = v_2;

%% Flow on port 4 = flow on port 2
FOR ALL A_1,A_2,A_3,A_4, v_1,v_2,v_3,v_4, kappa
LET MA(R, flow,kappa,flow,4,	
   A_1,effort,1,	
   v_2,flow,2,
   v_3,flow,3,
   A_4,effort,4) = v_2;

%% Effort on port 2
FOR ALL A_1,A_2,A_3,A_4,v_1,v_2,v_3,v_4,kappa
LET MA(R,flow,kappa,effort,2,
   A_1,effort,1,	
   v_2,flow,2,
   v_3,flow,3,
   A_4,effort,4) = RT*log( (v_2/kappa) + exp(A_1/RT) );

%%% Five port version (stoichiometric) with integral causality
%% Flow on port 1  = flow on port 3.
FOR ALL A_f, A_r, v_f, v_r, v, kappa
LET MA(R, flow,kappa,flow,1,	
   A_f,effort,1,	
   A_r,effort,2,
   v_f,flow,3,
   v_r,flow,4,
   v,effort,5) = v_f;

%% Flow on port 2  = flow on port 4.
FOR ALL A_f, A_r, v_f, v_r, v, kappa
LET MA(R, flow,kappa,flow,2,	
   A_f,effort,1,	
   A_r,effort,2,
   v_f,flow,3,
   v_r,flow,4,
   v,effort,5) = v_r;

%% Flow on port 5 is induced flow
FOR ALL A_f, A_r, v_f, v_r, v, kappa
LET MA(R, flow,kappa,flow,5,	
   A_f,effort,1,	
   A_r,effort,2,
   v_f,flow,3,
   v_r,flow,4,
   v,effort,5) = kappa*(exp(A_f/RT) - exp(A_r/RT));


%% AE version
FOR ALL mu
LET MA(AE, effort,2, mu, effort,1) = exp(mu/RT);


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