kT_batt_il 30[W/m/K] "In-layer thermal conductivity"
kT_batt_tl 1[W/m/K] "Through-layer thermal conductivity"
J0 0.5 "Exchange current density parameter"
tau_pos 500[s] "Diffusion time constant, positive"
tau_neg 1500[s] "Diffusion time constant, negative"
eta_1C 4.5[mV] "Ohmic resistance parameter"
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"
T0 35[degC] "Initial/external temperature"
L_sep 24[um] "Separator thickness"
L_pos 148[um] "Positive electrode layer thickness (sum of both sides of jelly roll)"
L_neg 200[um] "Negative electrode layer thickness (sum of both sides of jelly roll)"
L_cc_neg 5[um] "Negative current collector foil thickness"
L_cc_pos 12[um] "Positive current collector foil thickness"
L_cell L_sep+L_neg+L_pos+L_cc_neg+L_cc_pos "Jelly roll thickness"
q_host_pos 3.44[mA*h/cm^2]/L_cell "Homogenized volumetric host capacity of positive electrode material"
q_host_neg 3.66[mA*h/cm^2]/L_cell "Homogenized volumetric host capacity of negative electrode material"
Q_host_pos q_host_pos*V_jelly "Positive host capacity"
Q_host_neg q_host_neg*V_jelly "Negative host capacity"
eps_cc_neg 0.1 "Volume fraction of negative current current collectors foils in tab bundle"
eps_cc_pos 0.1 "Volume fraction of positive current current collectors foils in tab bundle"
C_rate 4 "Charging C-rate"
SOC_init 0.1 "Initial SOC"
SOC_end 0.8 "End SOC"
SOC_window SOC_end-SOC_init "SOC window"
V_jelly H_jelly*(pi*R_jelly^2+2*R_jelly*(W_can-2*(s_can+jelly_offset+R_jelly))) "Jelly roll volume"