E_act_neg intop_neg(liion.eta_per1*liion.iv_per1)/I_app "Electrode activation voltage loss, negative"
E_l_neg intop_neg(-philx*liion.Ilx)/I_app "Electrolyte ohmic voltage loss, negative"
E_s_neg intop_neg(-phisx*liion.Isx)/I_app "Electrode ohmic voltage loss, negative"
E_ocp_loc_neg mat2.def.Eeq(liion.socloc_average) "Particle average open circuit potential, negative"
E_conc_particle_neg intop_neg((liion.Eeq_per1-E_ocp_loc_neg)*liion.iv_per1)/I_app "Particle concentration voltage loss, negative"
E_conc_electrode_neg intop_neg((E_ocp_loc_neg-E_ocp_neg)*liion.iv_per1)/I_app "Electrode concentration voltage loss, negative"
E_conc_neg E_conc_electrode_neg+E_conc_particle_neg "Concentration voltage loss, negative"
E_l_sep intop_sep(-philx*liion.Ilx)/I_app "Electrolyte ohmic voltage loss, separator"
E_act_pos intop_pos(liion.eta_per1*liion.iv_per1)/I_app "Electrode activation voltage loss, positive"
E_l_pos intop_pos(-philx*liion.Ilx)/I_app "Electrolyte ohmic voltage loss, positive"
E_s_pos intop_pos(-phisx*liion.Isx)/I_app "Electrode ohmic voltage loss, positive"
E_ocp_loc_pos mat3.def.Eeq(liion.socloc_average) "Particle average open circuit potential, positive"
E_conc_particle_pos intop_pos((liion.Eeq_per1-E_ocp_loc_pos)*liion.iv_per1)/I_app "Particle concentration voltage loss, positive"
E_conc_electrode_pos intop_pos((E_ocp_loc_pos-E_ocp_pos)*liion.iv_per1)/I_app "Electrode concentration voltage loss, positive"
E_conc_pos E_conc_electrode_pos+E_conc_particle_pos "Concentration voltage loss, positive"
E_neg E_act_neg+E_l_neg+E_s_neg+E_conc_particle_neg+E_conc_electrode_neg "Voltage loss, negative"
E_sep E_l_sep "Voltage loss, separator"
E_pos E_act_pos+E_l_pos+E_s_pos+E_conc_particle_pos+E_conc_electrode_pos "Voltage loss, positive"