C_rate 4 "C rate"
Q_cell 4[A*h] "Battery cell capacity"
I_1C Q_cell/1[h] "1C current"
kT_batt_ang 30[W/(m*K)] "Thermal conductivity, in plane"
kT_batt_r 1[W/(m*K)] "Thermal conductivity, cross plane"
Ea_eta1C 24[kJ/mol] "Activation energy"
Ea_J0 -59[kJ/mol] "Activation energy"
Ea_Tau 24[kJ/mol] "Activation energy"
T0 25[degC] "Reference temperature"
J0_0 0.85 "J0 at reference temperature"
tau_0 1000[s] "tau at reference temperature"
eta_1C 4.5[mV] "eta_1C at reference temperature"
rho_batt 2000[kg/m^3] "Battery density"
Cp_batt 1400[J/(kg*K)] "Battery heat capacity"
ht 30[W/(m^2*K)] "Heat transfer coefficient, sides"
ht_top 30[W/(m^2*K)] "Heat transfer coefficient, top"
ht_bottom 5[W/(m^2*K)] "Heat transfer coefficient, bottom"
T_init 20[degC] "Initial/external temperature"
opt_eta_IR_1C 0.0045162[V] "Ohmic overpotential at 1C"
opt_invJ0 1.1565 "Inverse dimensionless charge exchange current"
opt_J0 0.86471 "Dimensionless charge exchange current"
opt_tau 1374.4[s] "Diffusion time constant"
initial_SOC 1 "Initial state of charge"
final_SOC 0.2 "Final state of charge"
C_sign sign(final_SOC-initial_SOC) "Current direction"
number_of_steps 11 "Number of steps for time-stepping"
output_steps ceil(number_of_steps) "Output steps"