Figure 5.11:

Fractional error in the QSSA concentration of C for the series reaction A -> B -> C.

Code for Figure 5.11

Text of the GNU GPL.

main.m


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% Copyright (C) 2001, James B. Rawlings and John G. Ekerdt
%
% This program is free software; you can redistribute it and/or
% modify it under the terms of the GNU General Public License as
% published by the Free Software Foundation; either version 2, or (at
% your option) any later version.
%
% This program is distributed in the hope that it will be useful, but
% WITHOUT ANY WARRANTY; without even the implied warranty of
% MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
% General Public License for more details.
%
% You should have received a copy of the GNU General Public License
% along with this program; see the file COPYING.  If not, write to
% the Free Software Foundation, 59 Temple Place - Suite 330, Boston,
% MA 02111-1307, USA.

% This program "schm1_error.m" generates curves for the error in a
% series problem as the rate constant ratios for the first and
% second first-order reactions are varied.
% Last edited 1/30/97.

global k1 k2

k1 = 1;



k2 = 1.0;
Initial = [1,0,0]';
t = [0:.01:1]';
opts = odeset ('AbsTol', sqrt (eps), 'RelTol', sqrt (eps));
[tsolver, solution] = ode15s(@rxrate,t,Initial,opts);
answer = [t solution];

k2 = 10.0;
Initial = [1,0,0]';
opts = odeset ('AbsTol', sqrt (eps), 'RelTol', sqrt (eps));
[tsolver, solution] = ode15s(@rxrate,t,Initial,opts);
answer = [answer solution];

k2 = 50.0;
Initial = [1,0,0]';
opts = odeset ('AbsTol', sqrt (eps), 'RelTol', sqrt (eps));
[tsolver, solution] = ode15s(@rxrate,t,Initial,opts);
answer = [answer solution];

k2 = 1000.0;
Initial = [1,0,0]';
opts = odeset ('AbsTol', sqrt (eps), 'RelTol', sqrt (eps));
[tsolver, solution] = ode15s(@rxrate,t,Initial,opts);
answer = [answer solution];


k2 = 10000.0;
Initial = [1,0,0]';
opts = odeset ('AbsTol', sqrt (eps), 'RelTol', sqrt (eps));
[tsolver, solution] = ode15s(@rxrate,t,Initial,opts);
answer = [answer solution];


k2 = 100000.0;
Initial = [1,0,0]';
opts = odeset ('AbsTol', sqrt (eps), 'RelTol', sqrt (eps));
[tsolver, solution] = ode15s(@rxrate,t,Initial,opts);

% Strip out first row to avoid creating NaNs.

answer = [answer solution];
answer = answer (2:end, :);

t_tmp = t(2:length(t));
c_Css = 1-exp(-k1*t_tmp);
answer2 = [t_tmp c_Css];

c_Cexact = answer(:,13);
E=(c_Cexact - c_Css)./c_Cexact;
EE=abs(E);
error=log10(EE);
%answer3 = [t_tmp error];
% JBR, 2/22/98
answer3 = [t_tmp EE];

c_Cexact = answer(:,16);
E=(c_Cexact - c_Css)./c_Cexact;
EE=abs(E);
error=log10(EE);
%answer3 = [answer3 error];
% JBR, 2/22/98
answer3 = [answer3 EE];

c_Cexact = answer(:,19);
E=(c_Cexact - c_Css)./c_Cexact;
EE=abs(E);
error=log10(EE);
%answer3 = [answer3 error];
% JBR, 2/22/98
answer3 = [answer3 EE];

save -ascii schm1_error.dat answer3;

if (~ strcmp (getenv ('OMIT_PLOTS'), 'true')) % PLOTTING
semilogy (answer3(:,1), answer3(:,2:4));
% TITLE
end % PLOTTING

rxrate.m


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function dcdt = rxrate(t,x)
   global k1 k2
   c1 = x(1);
   c2 = x(2);
   c3 = x(3);

   r1 = k1*c1;
   r2 = k2*c2;

   dcdt = [-r1; r1-r2; r2];