epss_neg 0.6 "Active electrode volume fraction, negative"
epss_pos 0.6 "Active electrode volume fraction, positive"
epss_binder_neg 0.1 "Binder volume fraction, negative"
epss_binder_pos 0.1 "Binder volume fraction, positive"
epsl_neg 1-epss_neg-epss_binder_neg "Electrolyte volume fraction, negative"
epsl_sep 0.4 "Separator volume fraction"
epsl_pos 1-epss_pos-epss_binder_pos "Electrolyte volume fraction, positive"
sigmas_neg 1[S/m] "Effective electrode conductivity, negative"
sigmas_pos 1[S/m] "Effective electrode conductivity, positive"
rp_neg 6[um] "Electrode particle radius, negative"
rp_pos 5[um] "Electrode particle radius, positive"
cs_max_neg 31507[mol/m^3] "Maximum concentration, negative"
cs_max_pos 49000[mol/m^3] "Maximum concentration, positive"
i0_ref_neg 10[A/m^2] "Exchange current density at 50% lithiation, negative"
i0_ref_pos 10[A/m^2] "Exchange current density at 50% lithiation, positive"
L_sep 20[um] "Separator thickness"
L_pos 45[um] "Positive electrode thickness"
L_neg (1-0.1)*epss_pos*cs_max_pos*L_pos/(0.8*epss_neg*cs_max_neg) "Negative electrode thickness"
L_ccs 10[um] "Thickness of current collectors"
V_cell 90[%]*(10.5[mm])^2*pi*70[mm] "Active cell volume"
A_cell V_cell/(L_neg+L_sep+L_pos+L_ccs/2) "Cell area"
soc_init 0 "Initial SOC"
T 25[degC] Temperature