line not appear in plot
Ältere Kommentare anzeigen
Below are my code, why the plot not appear. someone help
% PEM Electrolyzer Activation Overvoltage Plot
% Constants
ioa = 2e-9; % Anode exchange current density (A/cm2)
ioc = 2e-3; % Cathode exchange current density (A/cm2)
T = 297; % Temperature (K)
R = 8.314; % General gas constatnt (J/Kmol)
ctca = 0.5 ; % charge transfer coefficient anode
ctcc = 0.5 ; % charge transfer coefficient cathode
z = 2 ; % stoichiometric coefficient
F = 96485; % Faradays constant
% Operating current density range
i_density = linspace(0, 1.5, 100); % Current density range (A/m^2)
% Calculate activation overvoltage
a = R.*T/ctca.*z.*F;
b = R.*T/ctcc.*z.*F;
eta_activation = log((i_density/ioa).^(a))+(-log((i_density/ioc).^(b)))
% Plot the results
plot(i_density, eta_activation,"b");
2 Kommentare
Dyuman Joshi
am 28 Jan. 2024
The plot is empty because all the values are NaN, see the edit above.
amirul
am 29 Jan. 2024
Antworten (1)
The ‘i_density’ vector begins with 0 and the log of 0 is -Inf.
Starting it instead with a very small value, and re-writing ‘eta_activation’ to use simple log identities produces finite results.
There is some variation in ‘eta_activation’, as demonstrated by the derivative plot (added) —
% PEM Electrolyzer Activation Overvoltage Plot
% Constants
ioa = 2e-9; % Anode exchange current density (A/cm2)
ioc = 2e-3; % Cathode exchange current density (A/cm2)
T = 297; % Temperature (K)
R = 8.314; % General gas constatnt (J/Kmol)
ctca = 0.5 ; % charge transfer coefficient anode
ctcc = 0.5 ; % charge transfer coefficient cathode
z = 2 ; % stoichiometric coefficient
F = 96485; % Faradays constant
% Operating current density range
i_density = linspace(1E-12, 1.5, 100); % Current density range (A/m^2)
% Calculate activation overvoltage
a = R.*T/ctca.*z.*F;
b = R.*T/ctcc.*z.*F;
eta_activation = log((i_density/ioa).^(a))+(-log((i_density/ioc).^(b))) % Original
eta_activation = a*log(i_density/ioa) - b*log(i_density/ioc) % Rewritten
deta_activation_di_density = gradient(eta_activation,i_density) % Derivative
% Plot the results
figure
plot(i_density, eta_activation,"b");
xlabel('i\_density')
ylabel('eta\_activation')
figure
plot(i_density, deta_activation_di_density,"g");
xlabel('i\_density')
ylabel('$\frac{d(eta\_activation)}{d(i\_density)}$', 'Interpreter','latex')
.
4 Kommentare
@amirul For PEM electrolyzer, the forumula for activation energy is written in a different way.
The constants a and b are calculated incorrectly, see below. As mentioned by @Star Strider, use a small value at starting point,to avoid the Inf values while calculation.
% PEM Electrolyzer Activation Overvoltage Plot
% Constants
ioa = 2e-9; % Anode exchange current density (A/cm2)
ioc = 2e-3; % Cathode exchange current density (A/cm2)
T = 297; % Temperature (K)
R = 8.314; % General gas constatnt (J/Kmol)
ctca = 0.5 ; % charge transfer coefficient anode
ctcc = 0.5 ; % charge transfer coefficient cathode
z = 2 ; % stoichiometric coefficient
F = 96485; % Faradays constant
% Operating current density range
i_density = linspace(0, 1.5, 100); % Current density range (A/m^2)
% Calculate activation overvoltage
a = R.*T/(ctca.*z.*F); % use the parenthesis for denominator acc to formula
b = R.*T/(ctcc.*z.*F);
eta_activation = log((i_density/ioa).^(a))-log((i_density/ioc).^(b))
% Plot the results
plot(i_density, eta_activation,"b");
Star Strider
am 28 Jan. 2024
@VBBV — Thank you!
I would never have caught the errors in ‘a’ and ‘b’ (denominator factors need to be in parentheses).
amirul
am 29 Jan. 2024
Star Strider
am 29 Jan. 2024
Our pleasure!
Kategorien
Mehr zu 2-D and 3-D Plots finden Sie in Hilfe-Center und File Exchange
am 29 Jan. 2024
Community Treasure Hunt
Find the treasures in MATLAB Central and discover how the community can help you!
Start Hunting!
Translated by 
