L_sep 25[um] "Separator thickness"
sigma_s 10[S/m] "Electrode conductivity"
eps_binder_el 0.1 "Electrode binder volume fraction"
epss_el 0.6 "Electrode phase volume fraction (Gr+Si)"
epsl_el 1-eps_binder_el-epss_el "Electrolyte phase volume fraction in porous electrode"
Si_f 1[%] "Fraction of Si in electrode blend"
epss_Gr epss_el*(1-Si_f) "Graphite volume fraction in electrode"
epss_Si epss_el*Si_f "Silicon volume fraction in electrode"
rp_Gr 5[um] "Graphite particle radius in electrode"
rp_Si 1[um] "Silicon particle radius in electrode"
cs_Gr_max 31507[mol/m^3] "Maximum lithium concentration in graphite"
E_max_el 0.95[V] "Electrode potential defining 0% electrode SOC"
E_min_el 0.075[V] "Electrode potential defining 100% electrode SOC"
x_Gr_max comp1.mat1.def.Eeq_inv(E_min_el) "Graphite intercalation level at 100% SOC"
x_Gr_min comp1.mat1.def.Eeq_inv(E_max_el) "Graphite intercalation level at 0% SOC"
x_Si_max comp1.Eeq_Si_lower_inv(E_min_el) "Silicon intercalation level at 100% SOC"
x_Si_min comp1.Eeq_Si_upper_inv(E_max_el) "Silicon intercalation level at 0% SOC"
cs_Si_max 278000[mol/m^3] "Maximum lithium concentration in silicon"
Q_el 20[Ah/m^2] "Electrode capacity"
L_el Q_el/(epss_Gr*(x_Gr_max-x_Gr_min)*cs_Gr_max+epss_Si*(x_Si_max-x_Si_min)*cs_Si_max)/F_const "Electrode thickness"
x_Gr_init x_Gr_min "Initial intercalation level in graphite"
x_Si_init x_Si_min "Initial intercalation level in silicon"
S_init 1 "Memory variable initial value"
E_init_el E_max_el "Initial electrode potential"
epsl_sep 0.4 "Electrolyte volume fraction in separator"
cs_Gr_init x_Gr_init*cs_Gr_max "Initial lithium concentration level in graphite"
cs_Si_init x_Si_init*cs_Si_max "Initial lithium concentration level in silicon"
i0_ref_Gr 100[A/m^2] "Exchange current density for graphite intercalation (at 50% lithiation)"
i0_ref_Si 100[A/m^2] "Exchange current density for graphite intercalation (at 50% lithiation)"
i0_ref_Li 100[A/m^2] "Exchange current density for lithium metal oxidation"
K_S 100 "Memory variable rate constant"
C_rate 1 "Lithiation/delithiation rate"
i_1C Q_el/1[h] "Current density corresponding to 1C"
E_switch E_min_el "Lithiation-to-delithiation switching potential"
E_end E_max_el "Simulation end potential"