def model cardiac_AP as def unit J_per_K_per_mol as unit joule; unit kelvin {expo: -1}; unit mole {expo: -1}; enddef; def unit C_per_mol as unit coulomb; unit mole {expo: -1}; enddef; def unit fF as unit farad {pref: femto}; enddef; def unit fmol as unit mole {pref: femto}; enddef; def unit per_fmol as unit fmol {expo: -1}; enddef; def unit fmol_per_sec as unit fmol; unit second {expo: -1}; enddef; def unit fC as unit coulomb {pref: femto}; enddef; def unit fA as unit ampere {pref: femto}; enddef; def unit J_per_mol as unit joule; unit mole {expo: -1}; enddef; def unit volt_per_sec as unit volt; unit second {expo: -1}; enddef; def unit mM as unit mole {pref: milli}; unit litre {expo: -1}; enddef; def comp environment as // Time var t: second {init: 0}; // Physical parameters var R: J_per_K_per_mol {init: 8.314}; var T: kelvin {init: 310}; var F: C_per_mol {init: 96485}; // Bond graph parameters var C_m: fF {init: 153400}; var K_000_LCC: per_fmol {init: 1.3174}; var K_000_Na: per_fmol {init: 0.0073376}; var K_001_LCC: per_fmol {init: 1565.0581}; var K_001_Na: per_fmol {init: 23718.0222}; var K_00_K: per_fmol {init: 128.6868}; var K_010_LCC: per_fmol {init: 53.3957}; var K_010_Na: per_fmol {init: 17499.8767}; var K_011_LCC: per_fmol {init: 63435.6844}; var K_011_Na: per_fmol {init: 56566767727.4036}; var K_01_K: per_fmol {init: 22.3033}; var K_020_LCC: per_fmol {init: 28.5543}; var K_021_LCC: per_fmol {init: 33923.3476}; var K_100_LCC: per_fmol {init: 0.26529}; var K_100_Na: per_fmol {init: 1.5633e-05}; var K_101_LCC: per_fmol {init: 315.1706}; var K_101_Na: per_fmol {init: 50.5317}; var K_10_K: per_fmol {init: 16.5777}; var K_10_NaK: per_fmol {init: 5076.1941}; var K_110_LCC: per_fmol {init: 10.7528}; var K_110_Na: per_fmol {init: 37.2839}; var K_111_LCC: per_fmol {init: 12774.6463}; var K_111_Na: per_fmol {init: 120516694.0958}; var K_11_K: per_fmol {init: 2.8732}; var K_11_NaK: per_fmol {init: 10.4383}; var K_120_LCC: per_fmol {init: 5.7502}; var K_121_LCC: per_fmol {init: 6831.4667}; var K_12_NaK: per_fmol {init: 1.7361}; var K_13_NaK: per_fmol {init: 1.155}; var K_14_NaK: per_fmol {init: 319.1183}; var K_15_NaK: per_fmol {init: 6250238.4012}; var K_1_NCX: per_fmol {init: 160144852.2746}; var K_1_NaK: per_fmol {init: 321178904.6865}; var K_200_Na: per_fmol {init: 9.9918e-08}; var K_201_Na: per_fmol {init: 0.32298}; var K_20_K: per_fmol {init: 8.5423}; var K_210_Na: per_fmol {init: 0.2383}; var K_211_Na: per_fmol {init: 770290.0911}; var K_21_K: per_fmol {init: 1.4805}; var K_2_NCX: per_fmol {init: 407.3479}; var K_2_NaK: per_fmol {init: 31093.1227}; var K_300_Na: per_fmol {init: 1.9159e-09}; var K_301_Na: per_fmol {init: 0.006193}; var K_310_Na: per_fmol {init: 0.0045694}; var K_311_Na: per_fmol {init: 14770.0739}; var K_3_NCX: per_fmol {init: 22191.7214}; var K_3_NaK: per_fmol {init: 12.0404}; var K_4_NCX: per_fmol {init: 119580.5289}; var K_4_NaK: per_fmol {init: 3.1105}; var K_5_NCX: per_fmol {init: 10363474.1803}; var K_5_NaK: per_fmol {init: 3.2141}; var K_6_NCX: per_fmol {init: 199.44}; var K_6_NaK: per_fmol {init: 170.6981}; var K_7_NaK: per_fmol {init: 10036.4321}; var K_8_NaK: per_fmol {init: 31550.6969}; var K_9_NaK: per_fmol {init: 9874266.4618}; var K_CMDN: per_fmol {init: 22.0647}; var K_CMDNCa: per_fmol {init: 0.044337}; var K_C_K1: per_fmol {init: 1.329}; var K_C_Kp: per_fmol {init: 41.6265}; var K_Cae: per_fmol {init: 0.16293}; var K_Cai: per_fmol {init: 0.022218}; var K_H: per_fmol {init: 0.060187}; var K_Ke: per_fmol {init: 0.059344}; var K_Ki: per_fmol {init: 0.0080926}; var K_MgADP: per_fmol {init: 7.1044e-05}; var K_MgATP: per_fmol {init: 3.6718}; var K_Nae: per_fmol {init: 0.017678}; var K_Nai: per_fmol {init: 0.0024108}; var K_O_K1: per_fmol {init: 15967.3543}; var K_O_Kp: per_fmol {init: 145.607}; var K_P: per_fmol {init: 0.060187}; var K_TRPN: per_fmol {init: 37.1165}; var K_TRPNCa: per_fmol {init: 0.015668}; var kappa_10_NaK: fmol_per_sec {init: 1045757.658}; var kappa_11_NaK: fmol_per_sec {init: 311526.5915}; var kappa_12_NaK: fmol_per_sec {init: 1873089.8475}; var kappa_13_NaK: fmol_per_sec {init: 168.3622}; var kappa_14_NaK: fmol_per_sec {init: 22.4585}; var kappa_15_NaK: fmol_per_sec {init: 0.0049006}; var kappa_1_NCX: fmol_per_sec {init: 256862.245}; var kappa_1_NaK: fmol_per_sec {init: 104.5833}; var kappa_2_NCX: fmol_per_sec {init: 21141816.1231}; var kappa_2_NaK: fmol_per_sec {init: 270075.4148}; var kappa_3_NCX: fmol_per_sec {init: 6834.2872}; var kappa_3_NaK: fmol_per_sec {init: 906610.9954}; var kappa_4_NCX: fmol_per_sec {init: 21141816.1231}; var kappa_4_NaK: fmol_per_sec {init: 3509448.0698}; var kappa_5_NCX: fmol_per_sec {init: 256862.245}; var kappa_5_NaK: fmol_per_sec {init: 5858.2952}; var kappa_6_NCX: fmol_per_sec {init: 1.7753}; var kappa_6_NaK: fmol_per_sec {init: 8.3375}; var kappa_7_NaK: fmol_per_sec {init: 1.1523}; var kappa_8_NaK: fmol_per_sec {init: 1.1055}; var kappa_9_NaK: fmol_per_sec {init: 2150.4256}; var kappa_K: fmol_per_sec {init: 43947.9368}; var kappa_K1: fmol_per_sec {init: 25.0154}; var kappa_Kp: fmol_per_sec {init: 252.3419}; var kappa_LCC_Ca1: fmol_per_sec {init: 31.5432}; var kappa_LCC_Ca2: fmol_per_sec {init: 58.9849}; var kappa_LCC_K1: fmol_per_sec {init: 0.068076}; var kappa_LCC_K2: fmol_per_sec {init: 0.1273}; var kappa_Na: fmol_per_sec {init: 32.858}; var kappa_X00: fmol_per_sec {init: 0.034684}; var kappa_X01: fmol_per_sec {init: 0.20012}; var kappa_X10: fmol_per_sec {init: 0.13462}; var kappa_X11: fmol_per_sec {init: 0.77675}; var kappa_b1: fmol_per_sec {init: 839.7697}; var kappa_b2: fmol_per_sec {init: 1412.6324}; var kappa_d000: fmol_per_sec {init: 369.4994}; var kappa_d001: fmol_per_sec {init: 0.31102}; var kappa_d010: fmol_per_sec {init: 9.1161}; var kappa_d011: fmol_per_sec {init: 0.0076733}; var kappa_d020: fmol_per_sec {init: 17.0469}; var kappa_d021: fmol_per_sec {init: 0.014349}; var kappa_f1_000: fmol_per_sec {init: 0.68071}; var kappa_f1_001: fmol_per_sec {init: 0.00057297}; var kappa_f1_100: fmol_per_sec {init: 3.3802}; var kappa_f1_101: fmol_per_sec {init: 0.0028452}; var kappa_f2_000: fmol_per_sec {init: 1.2467}; var kappa_f2_001: fmol_per_sec {init: 0.0010494}; var kappa_f2_100: fmol_per_sec {init: 6.1907}; var kappa_f2_101: fmol_per_sec {init: 0.0052109}; var kappa_f3_010: fmol_per_sec {init: 3502.1028}; var kappa_f3_011: fmol_per_sec {init: 2.9478}; var kappa_f3_110: fmol_per_sec {init: 17390.563}; var kappa_f3_111: fmol_per_sec {init: 14.6381}; var kappa_fCa00: fmol_per_sec {init: 106492.3187}; var kappa_fCa01: fmol_per_sec {init: 2627.333}; var kappa_fCa02: fmol_per_sec {init: 4913.0371}; var kappa_fCa10: fmol_per_sec {init: 528814.1044}; var kappa_fCa11: fmol_per_sec {init: 13046.6757}; var kappa_fCa12: fmol_per_sec {init: 24396.9083}; var kappa_gK1: fmol_per_sec {init: 848.2812}; var kappa_gKp: fmol_per_sec {init: 24.0195}; var kappa_h000: fmol_per_sec {init: 0.045709}; var kappa_h001: fmol_per_sec {init: 1.4141e-08}; var kappa_h100: fmol_per_sec {init: 21.4544}; var kappa_h101: fmol_per_sec {init: 6.6373e-06}; var kappa_h200: fmol_per_sec {init: 3356.675}; var kappa_h201: fmol_per_sec {init: 0.0010384}; var kappa_h300: fmol_per_sec {init: 175057.5863}; var kappa_h301: fmol_per_sec {init: 0.054157}; var kappa_i00: fmol_per_sec {init: 7.7389}; var kappa_i10: fmol_per_sec {init: 60.0742}; var kappa_i20: fmol_per_sec {init: 116.5836}; var kappa_j000: fmol_per_sec {init: 0.017824}; var kappa_j010: fmol_per_sec {init: 7.4736e-09}; var kappa_j100: fmol_per_sec {init: 8.3662}; var kappa_j110: fmol_per_sec {init: 3.5079e-06}; var kappa_j200: fmol_per_sec {init: 1308.9427}; var kappa_j210: fmol_per_sec {init: 0.00054883}; var kappa_j300: fmol_per_sec {init: 68264.0876}; var kappa_j310: fmol_per_sec {init: 0.028623}; var kappa_m000: fmol_per_sec {init: 5117405.6443}; var kappa_m001: fmol_per_sec {init: 1.5832}; var kappa_m010: fmol_per_sec {init: 2.1457}; var kappa_m011: fmol_per_sec {init: 6.6381e-07}; var kappa_m100: fmol_per_sec {init: 1601300127.6001}; var kappa_m101: fmol_per_sec {init: 495.389}; var kappa_m110: fmol_per_sec {init: 671.4132}; var kappa_m111: fmol_per_sec {init: 0.00020771}; var kappa_m200: fmol_per_sec {init: 125266701374.7363}; var kappa_m201: fmol_per_sec {init: 38753.3515}; var kappa_m210: fmol_per_sec {init: 52523.3901}; var kappa_m211: fmol_per_sec {init: 0.016249}; var nK: dimensionless {init: 0.5}; var nK_stim: dimensionless; var nNae_NCX: dimensionless {init: 3}; var nNai_NCX: dimensionless {init: 3}; var zCa: dimensionless {init: 2}; var zF_5: C_per_mol {init: -5301.979}; var zF_8: C_per_mol {init: -91183.021}; var zK: dimensionless {init: 1}; var zNa: dimensionless {init: 1}; var z_fK1: dimensionless {init: 0.033569}; var z_fX: dimensionless {init: 0.51923}; var z_fXi: dimensionless {init: 0}; var z_f_Kp: dimensionless {init: 0}; var z_fd: dimensionless {init: 2.1404}; var z_ff1: dimensionless {init: -1.1495}; var z_ff2: dimensionless {init: 0.72162}; var z_ff3: dimensionless {init: 4.2933}; var z_fh: dimensionless {init: -4.1892}; var z_fj: dimensionless {init: -4.0381}; var z_fm: dimensionless {init: 0.49541}; var z_rCa: dimensionless {init: 2}; var z_rK1: dimensionless {init: 3.1153}; var z_rX: dimensionless {init: -0.73169}; var z_rXi: dimensionless {init: 0.83216}; var z_r_Kp: dimensionless {init: -4.4669}; var z_rd: dimensionless {init: -2.1404}; var z_rf1: dimensionless {init: 1.8993}; var z_rf2: dimensionless {init: -0.52288}; var z_rf3: dimensionless {init: 0}; var z_rh: dimensionless {init: 1.2995}; var z_rj: dimensionless {init: 1.4281}; var z_rm: dimensionless {init: -2.4284}; var zf_NCX: dimensionless {init: -0.55679}; var zr_NCX: dimensionless {init: 0.44321}; // Inputs var I_stim: fA; nK_stim = F; var stimPeriod: second {init: 1}; var stimDuration: second {init: 0.0001}; var tPeriod: second; tPeriod = t-floor(t/stimPeriod)*stimPeriod; I_stim = sel case (tPeriod >= 0.3{second}) and (tPeriod <= 0.3{second}+stimDuration): 0.03{volt}*C_m/stimDuration; otherwise: 0.0{fA}; endsel; // States (and initial conditions) var x_Cae: fmol {init: 9.3276}; var x_Cai: fmol {init: 0.00456}; var x_Ke: fmol {init: 27.9828}; var x_Ki: fmol {init: 5510}; var x_Nae: fmol {init: 725.48}; var x_Nai: fmol {init: 380}; var q_mem: fC {init: -13039}; var x_CMDN: fmol {init: 1.8088}; var x_CMDNCa: fmol {init: 0.0912}; var x_TRPN: fmol {init: 2.1452}; var x_TRPNCa: fmol {init: 0.51484}; var x_P1_NCX: fmol {init: 0.00072174}; var x_P2_NCX: fmol {init: 0.00072174}; var x_P3_NCX: fmol {init: 0.00072174}; var x_P4_NCX: fmol {init: 0.00072174}; var x_P5_NCX: fmol {init: 0.00072174}; var x_P6_NCX: fmol {init: 0.00072174}; var x_H: fmol {init: 0.0030534}; var x_MgADP: fmol {init: 1.33}; var x_MgATP: fmol {init: 264.1}; var x_P7: fmol {init: 0.0078543}; var x_P_i: fmol {init: 15.0898}; var x_P14: fmol {init: 0.0078543}; var x_P15: fmol {init: 0.0078543}; var x_P1: fmol {init: 0.0078543}; var x_P2: fmol {init: 0.0078543}; var x_P3: fmol {init: 0.0078543}; var x_P4: fmol {init: 0.0078543}; var x_P5: fmol {init: 0.0078543}; var x_P6: fmol {init: 0.0078543}; var x_P10: fmol {init: 0.0078543}; var x_P11: fmol {init: 0.0078543}; var x_P12: fmol {init: 0.0078543}; var x_P13: fmol {init: 0.0078543}; var x_P8: fmol {init: 0.0078543}; var x_P9: fmol {init: 0.0078543}; var x_C_Kp: fmol {init: 9.6314e-07}; var x_O_Kp: fmol {init: 2.4078e-07}; var x_C_K1: fmol {init: 5.6606e-06}; var x_O_K1: fmol {init: 1.4151e-06}; var x_S00_K: fmol {init: 4.5648e-06}; var x_S01_K: fmol {init: 1.1412e-06}; var x_S10_K: fmol {init: 2.2824e-06}; var x_S11_K: fmol {init: 5.706e-07}; var x_S20_K: fmol {init: 2.853e-07}; var x_S21_K: fmol {init: 7.1325e-08}; var x_S000_LCC: fmol {init: 3.6989e-07}; var x_S010_LCC: fmol {init: 7.3239e-05}; var x_S020_LCC: fmol {init: 3.6989e-07}; var x_S100_LCC: fmol {init: 3.7363e-09}; var x_S110_LCC: fmol {init: 7.3979e-07}; var x_S120_LCC: fmol {init: 3.7363e-09}; var x_S001_LCC: fmol {init: 4.1099e-08}; var x_S011_LCC: fmol {init: 8.1377e-06}; var x_S021_LCC: fmol {init: 4.1099e-08}; var x_S101_LCC: fmol {init: 4.1514e-10}; var x_S111_LCC: fmol {init: 8.2199e-08}; var x_S121_LCC: fmol {init: 4.1514e-10}; var x_S000_Na: fmol {init: 0.00012033}; var x_S010_Na: fmol {init: 1.337e-05}; var x_S100_Na: fmol {init: 4.0111e-05}; var x_S110_Na: fmol {init: 4.4568e-06}; var x_S200_Na: fmol {init: 4.4568e-06}; var x_S210_Na: fmol {init: 4.952e-07}; var x_S300_Na: fmol {init: 1.6507e-07}; var x_S310_Na: fmol {init: 1.8341e-08}; var x_S001_Na: fmol {init: 1.337e-05}; var x_S011_Na: fmol {init: 1.4856e-06}; var x_S101_Na: fmol {init: 4.4568e-06}; var x_S111_Na: fmol {init: 4.952e-07}; var x_S201_Na: fmol {init: 4.952e-07}; var x_S211_Na: fmol {init: 5.5022e-08}; var x_S301_Na: fmol {init: 1.8341e-08}; var x_S311_Na: fmol {init: 2.0379e-09}; // Constitutive equations // C:Cae var mu_Cae: J_per_mol; var v_Cae: fmol_per_sec; v_Cae = f_22; ode(x_Cae, t) = v_Cae; mu_Cae = R*T*ln(K_Cae*x_Cae); // C:Cai var mu_Cai: J_per_mol; var v_Cai: fmol_per_sec; v_Cai = f_21; ode(x_Cai, t) = v_Cai; mu_Cai = R*T*ln(K_Cai*x_Cai); // C:Ke var mu_Ke: J_per_mol; var v_Ke: fmol_per_sec; v_Ke = f_7; ode(x_Ke, t) = v_Ke; mu_Ke = R*T*ln(K_Ke*x_Ke); // C:Ki var mu_Ki: J_per_mol; var v_Ki: fmol_per_sec; v_Ki = f_6; ode(x_Ki, t) = v_Ki; mu_Ki = R*T*ln(K_Ki*x_Ki); // C:Nae var mu_Nae: J_per_mol; var v_Nae: fmol_per_sec; e_1 = mu_Nae; v_Nae = f_1; ode(x_Nae, t) = v_Nae; mu_Nae = R*T*ln(K_Nae*x_Nae); // C:Nai var mu_Nai: J_per_mol; var v_Nai: fmol_per_sec; v_Nai = f_15; ode(x_Nai, t) = v_Nai; mu_Nai = R*T*ln(K_Nai*x_Nai); // C:mem var V_mem: volt; var I_mem: fA; I_mem = f_11; ode(q_mem, t) = I_mem; V_mem = q_mem/C_m; // f_11 = f_4+f_10+f_12+f_18+f_23+f_30; // f4 v_Na // f10 v_K // f_12 vLCC // f_18 v_NaK // f_23 NCX // f_30 I_stim vLCC = f_60-f_62-f_63; f_60 = v_f2_001*(z_rf2-z_ff2) +v_f3_011*(z_rf3-z_ff3) +v_f1_101*(z_rf1-z_ff1) +v_f2_101*(z_rf2-z_ff2) +v_f3_111*(z_rf3-z_ff3) +v_f1_001*(z_rf1-z_ff1) +v_d021*(z_rd-z_fd) +v_d011*(z_rd-z_fd) +v_d001*(z_rd-z_fd) +v_f3_110*(z_rf3-z_ff3) +v_f2_100*(z_rf2-z_ff2) +v_f1_100*(z_rf1-z_ff1) +v_f3_010*(z_rf3-z_ff3) +v_f2_000*(z_rf2-z_ff2) +v_f1_000*(z_rf1-z_ff1) +v_d020*(z_rd-z_fd) +v_d010*(z_rd-z_fd) +v_d000*(z_rd-z_fd) f_62 = zCa*(v_LCC_Ca1) + zCa*(v_LCC_Ca2); f_63 = zK*(v_LCC_K1) +zK*(v_LCC_K2); // C:CMDN var mu_CMDN: J_per_mol; var v_CMDN: fmol_per_sec; e_36 = mu_CMDN; v_CMDN = -f_36; ode(x_CMDN, t) = v_CMDN; mu_CMDN = R*T*ln(K_CMDN*x_CMDN); // C:CMDNCa var mu_CMDNCa: J_per_mol; var v_CMDNCa: fmol_per_sec; e_42 = mu_CMDNCa; v_CMDNCa = f_42; ode(x_CMDNCa, t) = v_CMDNCa; mu_CMDNCa = R*T*ln(K_CMDNCa*x_CMDNCa); // C:TRPN var mu_TRPN: J_per_mol; var v_TRPN: fmol_per_sec; e_35 = mu_TRPN; v_TRPN = -f_35; ode(x_TRPN, t) = v_TRPN; mu_TRPN = R*T*ln(K_TRPN*x_TRPN); // C:TRPNCa var mu_TRPNCa: J_per_mol; var v_TRPNCa: fmol_per_sec; e_41 = mu_TRPNCa; v_TRPNCa = f_41; ode(x_TRPNCa, t) = v_TRPNCa; mu_TRPNCa = R*T*ln(K_TRPNCa*x_TRPNCa); // Re:b1 var Af_b1: J_per_mol; var Ar_b1: J_per_mol; var v_b1: fmol_per_sec; Af_b1 = e_37; Ar_b1 = e_39; f_37 = v_b1; f_39 = v_b1; v_b1 = kappa_b1*(exp(Af_b1/(R*T))-exp(Ar_b1/(R*T))); // Re:b2 var Af_b2: J_per_mol; var Ar_b2: J_per_mol; var v_b2: fmol_per_sec; Af_b2 = e_38; Ar_b2 = e_40; f_38 = v_b2; f_40 = v_b2; v_b2 = kappa_b2*(exp(Af_b2/(R*T))-exp(Ar_b2/(R*T))); // C:P1_NCX var mu_P1_NCX: J_per_mol; var v_P1_NCX: fmol_per_sec; e_72 = mu_P1_NCX; v_P1_NCX = f_72; ode(x_P1_NCX, t) = v_P1_NCX; mu_P1_NCX = R*T*ln(K_1_NCX*x_P1_NCX); // C:P2_NCX var mu_P2_NCX: J_per_mol; var v_P2_NCX: fmol_per_sec; e_79 = mu_P2_NCX; v_P2_NCX = f_79; ode(x_P2_NCX, t) = v_P2_NCX; mu_P2_NCX = R*T*ln(K_2_NCX*x_P2_NCX); // C:P3_NCX var mu_P3_NCX: J_per_mol; var v_P3_NCX: fmol_per_sec; e_95 = mu_P3_NCX; v_P3_NCX = f_95; ode(x_P3_NCX, t) = v_P3_NCX; mu_P3_NCX = R*T*ln(K_3_NCX*x_P3_NCX); // C:P4_NCX var mu_P4_NCX: J_per_mol; var v_P4_NCX: fmol_per_sec; e_91 = mu_P4_NCX; v_P4_NCX = f_91; ode(x_P4_NCX, t) = v_P4_NCX; mu_P4_NCX = R*T*ln(K_4_NCX*x_P4_NCX); // C:P5_NCX var mu_P5_NCX: J_per_mol; var v_P5_NCX: fmol_per_sec; e_90 = mu_P5_NCX; v_P5_NCX = f_90; ode(x_P5_NCX, t) = v_P5_NCX; mu_P5_NCX = R*T*ln(K_5_NCX*x_P5_NCX); // C:P6_NCX var mu_P6_NCX: J_per_mol; var v_P6_NCX: fmol_per_sec; e_67 = mu_P6_NCX; v_P6_NCX = f_67; ode(x_P6_NCX, t) = v_P6_NCX; mu_P6_NCX = R*T*ln(K_6_NCX*x_P6_NCX); // Re:r1 var Af_r1: J_per_mol; var Ar_r1: J_per_mol; var v_r1: fmol_per_sec; Af_r1 = e_75; Ar_r1 = e_76; f_75 = v_r1; f_76 = v_r1; v_r1 = kappa_1_NCX*(exp(Af_r1/(R*T))-exp(Ar_r1/(R*T))); // Re:r2 var Af_r2: J_per_mol; var Ar_r2: J_per_mol; var v_r2: fmol_per_sec; Af_r2 = e_81; Ar_r2 = e_93; f_81 = v_r2; f_93 = v_r2; v_r2 = kappa_2_NCX*(exp(Af_r2/(R*T))-exp(Ar_r2/(R*T))); // Re:r3 var Af_r3: J_per_mol; var Ar_r3: J_per_mol; var v_r3: fmol_per_sec; Af_r3 = e_94; Ar_r3 = e_92; f_94 = v_r3; f_92 = v_r3; v_r3 = kappa_3_NCX*(exp(Af_r3/(R*T))-exp(Ar_r3/(R*T))); // Re:r4 var Af_r4: J_per_mol; var Ar_r4: J_per_mol; var v_r4: fmol_per_sec; Af_r4 = e_88; Ar_r4 = e_87; f_88 = v_r4; f_87 = v_r4; v_r4 = kappa_4_NCX*(exp(Af_r4/(R*T))-exp(Ar_r4/(R*T))); // Re:r5 var Af_r5: J_per_mol; var Ar_r5: J_per_mol; var v_r5: fmol_per_sec; Af_r5 = e_84; Ar_r5 = e_83; f_84 = v_r5; f_83 = v_r5; v_r5 = kappa_5_NCX*(exp(Af_r5/(R*T))-exp(Ar_r5/(R*T))); // Re:r6 var Af_r6: J_per_mol; var Ar_r6: J_per_mol; var v_r6: fmol_per_sec; Af_r6 = e_69; Ar_r6 = e_70; f_69 = v_r6; f_70 = v_r6; v_r6 = kappa_6_NCX*(exp(Af_r6/(R*T))-exp(Ar_r6/(R*T))); // C:H var mu_H: J_per_mol; var v_H: fmol_per_sec; v_H = f_109; ode(x_H, t) = 0{fmol_per_sec}; mu_H = R*T*ln(K_H*x_H); // C:MgADP var mu_MgADP: J_per_mol; var v_MgADP: fmol_per_sec; v_MgADP = f_105; ode(x_MgADP, t) = 0{fmol_per_sec}; mu_MgADP = R*T*ln(K_MgADP*x_MgADP); // C:MgATP var mu_MgATP: J_per_mol; var v_MgATP: fmol_per_sec; v_MgATP = f_111; ode(x_MgATP, t) = 0{fmol_per_sec}; mu_MgATP = R*T*ln(K_MgATP*x_MgATP); // C:P7 var mu_P7: J_per_mol; var v_P7: fmol_per_sec; v_P7 = f_104; ode(x_P7, t) = v_P7; mu_P7 = R*T*ln(K_7_NaK*x_P7); // C:P_i var mu_P_i: J_per_mol; var v_P_i: fmol_per_sec; v_P_i = f_110; ode(x_P_i, t) = 0{fmol_per_sec}; mu_P_i = R*T*ln(K_P*x_P_i); // Re:R13 var Af_R13: J_per_mol; var Ar_R13: J_per_mol; var v_R13: fmol_per_sec; Af_R13 = e_107; Ar_R13 = e_108; f_107 = v_R13; f_108 = v_R13; v_R13 = kappa_13_NaK*(exp(Af_R13/(R*T))-exp(Ar_R13/(R*T))); // Re:R15 var Af_R15: J_per_mol; var Ar_R15: J_per_mol; var v_R15: fmol_per_sec; Af_R15 = e_112; Ar_R15 = e_101; f_112 = v_R15; f_101 = v_R15; v_R15 = kappa_15_NaK*(exp(Af_R15/(R*T))-exp(Ar_R15/(R*T))); // Re:R6 var Af_R6: J_per_mol; var Ar_R6: J_per_mol; var v_R6: fmol_per_sec; Af_R6 = e_100; Ar_R6 = e_102; f_100 = v_R6; f_102 = v_R6; v_R6 = kappa_6_NaK*(exp(Af_R6/(R*T))-exp(Ar_R6/(R*T))); // Re:R7 var Af_R7: J_per_mol; var Ar_R7: J_per_mol; var v_R7: fmol_per_sec; Af_R7 = e_106; Ar_R7 = e_114; f_106 = v_R7; f_114 = v_R7; v_R7 = kappa_7_NaK*(exp(Af_R7/(R*T))-exp(Ar_R7/(R*T))); // Sf:I_stim f_121 = I_stim; // C:P14 var mu_P14: J_per_mol; var v_P14: fmol_per_sec; v_P14 = f_172; ode(x_P14, t) = v_P14; mu_P14 = R*T*ln(K_14_NaK*x_P14); // C:P15 var mu_P15: J_per_mol; var v_P15: fmol_per_sec; v_P15 = f_176; ode(x_P15, t) = v_P15; mu_P15 = R*T*ln(K_15_NaK*x_P15); // Re:R14 var Af_R14: J_per_mol; var Ar_R14: J_per_mol; var v_R14: fmol_per_sec; Af_R14 = e_174; Ar_R14 = e_175; f_174 = v_R14; f_175 = v_R14; v_R14 = kappa_14_NaK*(exp(Af_R14/(R*T))-exp(Ar_R14/(R*T))); // C:P1 var mu_P1: J_per_mol; var v_P1: fmol_per_sec; v_P1 = f_178; ode(x_P1, t) = v_P1; mu_P1 = R*T*ln(K_1_NaK*x_P1); // C:P2 var mu_P2: J_per_mol; var v_P2: fmol_per_sec; v_P2 = f_187; ode(x_P2, t) = v_P2; mu_P2 = R*T*ln(K_2_NaK*x_P2); // C:P3 var mu_P3: J_per_mol; var v_P3: fmol_per_sec; v_P3 = f_182; ode(x_P3, t) = v_P3; mu_P3 = R*T*ln(K_3_NaK*x_P3); // C:P4 var mu_P4: J_per_mol; var v_P4: fmol_per_sec; v_P4 = f_192; ode(x_P4, t) = v_P4; mu_P4 = R*T*ln(K_4_NaK*x_P4); // C:P5 var mu_P5: J_per_mol; var v_P5: fmol_per_sec; v_P5 = f_199; ode(x_P5, t) = v_P5; mu_P5 = R*T*ln(K_5_NaK*x_P5); // C:P6 var mu_P6: J_per_mol; var v_P6: fmol_per_sec; v_P6 = f_205; ode(x_P6, t) = v_P6; mu_P6 = R*T*ln(K_6_NaK*x_P6); // Re:R1 var Af_R1: J_per_mol; var Ar_R1: J_per_mol; var v_R1: fmol_per_sec; Af_R1 = e_183; Ar_R1 = e_184; f_183 = v_R1; f_184 = v_R1; v_R1 = kappa_1_NaK*(exp(Af_R1/(R*T))-exp(Ar_R1/(R*T))); // Re:R2 var Af_R2: J_per_mol; var Ar_R2: J_per_mol; var v_R2: fmol_per_sec; Af_R2 = e_179; Ar_R2 = e_180; f_179 = v_R2; f_180 = v_R2; v_R2 = kappa_2_NaK*(exp(Af_R2/(R*T))-exp(Ar_R2/(R*T))); // Re:R3 var Af_R3: J_per_mol; var Ar_R3: J_per_mol; var v_R3: fmol_per_sec; Af_R3 = e_190; Ar_R3 = e_191; f_190 = v_R3; f_191 = v_R3; v_R3 = kappa_3_NaK*(exp(Af_R3/(R*T))-exp(Ar_R3/(R*T))); // Re:R4 var Af_R4: J_per_mol; var Ar_R4: J_per_mol; var v_R4: fmol_per_sec; Af_R4 = e_194; Ar_R4 = e_195; f_194 = v_R4; f_195 = v_R4; v_R4 = kappa_4_NaK*(exp(Af_R4/(R*T))-exp(Ar_R4/(R*T))); // Re:R5 var Af_R5: J_per_mol; var Ar_R5: J_per_mol; var v_R5: fmol_per_sec; Af_R5 = e_201; Ar_R5 = e_203; f_201 = v_R5; f_203 = v_R5; v_R5 = kappa_5_NaK*(exp(Af_R5/(R*T))-exp(Ar_R5/(R*T))); // C:P10 var mu_P10: J_per_mol; var v_P10: fmol_per_sec; v_P10 = f_218; ode(x_P10, t) = v_P10; mu_P10 = R*T*ln(K_10_NaK*x_P10); // C:P11 var mu_P11: J_per_mol; var v_P11: fmol_per_sec; v_P11 = f_223; ode(x_P11, t) = v_P11; mu_P11 = R*T*ln(K_11_NaK*x_P11); // C:P12 var mu_P12: J_per_mol; var v_P12: fmol_per_sec; v_P12 = f_231; ode(x_P12, t) = v_P12; mu_P12 = R*T*ln(K_12_NaK*x_P12); // C:P13 var mu_P13: J_per_mol; var v_P13: fmol_per_sec; v_P13 = f_227; ode(x_P13, t) = v_P13; mu_P13 = R*T*ln(K_13_NaK*x_P13); // C:P8 var mu_P8: J_per_mol; var v_P8: fmol_per_sec; v_P8 = f_207; ode(x_P8, t) = v_P8; mu_P8 = R*T*ln(K_8_NaK*x_P8); // C:P9 var mu_P9: J_per_mol; var v_P9: fmol_per_sec; v_P9 = f_213; ode(x_P9, t) = v_P9; mu_P9 = R*T*ln(K_9_NaK*x_P9); // Re:R10 var Af_R10: J_per_mol; var Ar_R10: J_per_mol; var v_R10: fmol_per_sec; Af_R10 = e_219; Ar_R10 = e_220; f_219 = v_R10; f_220 = v_R10; v_R10 = kappa_10_NaK*(exp(Af_R10/(R*T))-exp(Ar_R10/(R*T))); // Re:R11 var Af_R11: J_per_mol; var Ar_R11: J_per_mol; var v_R11: fmol_per_sec; Af_R11 = e_229; Ar_R11 = e_230; f_229 = v_R11; f_230 = v_R11; v_R11 = kappa_11_NaK*(exp(Af_R11/(R*T))-exp(Ar_R11/(R*T))); // Re:R12 var Af_R12: J_per_mol; var Ar_R12: J_per_mol; var v_R12: fmol_per_sec; Af_R12 = e_225; Ar_R12 = e_226; f_225 = v_R12; f_226 = v_R12; v_R12 = kappa_12_NaK*(exp(Af_R12/(R*T))-exp(Ar_R12/(R*T))); // Re:R8 var Af_R8: J_per_mol; var Ar_R8: J_per_mol; var v_R8: fmol_per_sec; Af_R8 = e_208; Ar_R8 = e_209; f_208 = v_R8; f_209 = v_R8; v_R8 = kappa_8_NaK*(exp(Af_R8/(R*T))-exp(Ar_R8/(R*T))); // Re:R9 var Af_R9: J_per_mol; var Ar_R9: J_per_mol; var v_R9: fmol_per_sec; Af_R9 = e_214; Ar_R9 = e_234; f_214 = v_R9; f_234 = v_R9; v_R9 = kappa_9_NaK*(exp(Af_R9/(R*T))-exp(Ar_R9/(R*T))); // Re_GHK:Na var Af_Na: J_per_mol; var Ar_Na: J_per_mol; var Am_Na: J_per_mol; var v_Na: fmol_per_sec; Af_Na = e_237; Ar_Na = e_240; Am_Na = e_239; f_237 = v_Na; f_240 = v_Na; f_239 = 0{fmol_per_sec}; v_Na = sel case Am_Na == 0{J_per_mol}: kappa_Na*(exp(Af_Na/(R*T))-exp(Ar_Na/(R*T))); otherwise: kappa_Na*Am_Na/(R*T)/(exp(Am_Na/(R*T))-1{dimensionless})*(exp(Af_Na/(R*T))-exp(Ar_Na/(R*T))); endsel; // Re_GHK:K var Af_K: J_per_mol; var Ar_K: J_per_mol; var Am_K: J_per_mol; var v_K: fmol_per_sec; Af_K = e_276; Ar_K = e_279; Am_K = e_278; f_276 = v_K; f_279 = v_K; f_278 = 0{fmol_per_sec}; v_K = sel case Am_K == 0{J_per_mol}: kappa_K*(exp(Af_K/(R*T))-exp(Ar_K/(R*T))); otherwise: kappa_K*Am_K/(R*T)/(exp(Am_K/(R*T))-1{dimensionless})*(exp(Af_K/(R*T))-exp(Ar_K/(R*T))); endsel; // Re_GHK:Kp var Af_Kp: J_per_mol; var Ar_Kp: J_per_mol; var Am_Kp: J_per_mol; var v_Kp: fmol_per_sec; Af_Kp = e_297; Ar_Kp = e_300; Am_Kp = e_299; f_297 = v_Kp; f_300 = v_Kp; f_299 = 0{fmol_per_sec}; v_Kp = sel case Am_Kp == 0{J_per_mol}: kappa_Kp*(exp(Af_Kp/(R*T))-exp(Ar_Kp/(R*T))); otherwise: kappa_Kp*Am_Kp/(R*T)/(exp(Am_Kp/(R*T))-1{dimensionless})*(exp(Af_Kp/(R*T))-exp(Ar_Kp/(R*T))); endsel; // C:C_Kp var mu_C_Kp: J_per_mol; var v_C_Kp: fmol_per_sec; v_C_Kp = f_304; ode(x_C_Kp, t) = v_C_Kp; mu_C_Kp = R*T*ln(K_C_Kp*x_C_Kp); // C:O_Kp var mu_O_Kp: J_per_mol; var v_O_Kp: fmol_per_sec; v_O_Kp = f_305; ode(x_O_Kp, t) = v_O_Kp; mu_O_Kp = R*T*ln(K_O_Kp*x_O_Kp); // Re_GHK:K1 var Af_K1: J_per_mol; var Ar_K1: J_per_mol; var Am_K1: J_per_mol; var v_K1: fmol_per_sec; Af_K1 = e_310; Ar_K1 = e_313; Am_K1 = e_312; f_310 = v_K1; f_313 = v_K1; f_312 = 0{fmol_per_sec}; v_K1 = sel case Am_K1 == 0{J_per_mol}: kappa_K1*(exp(Af_K1/(R*T))-exp(Ar_K1/(R*T))); otherwise: kappa_K1*Am_K1/(R*T)/(exp(Am_K1/(R*T))-1{dimensionless})*(exp(Af_K1/(R*T))-exp(Ar_K1/(R*T))); endsel; // C:C_K1 var mu_C_K1: J_per_mol; var v_C_K1: fmol_per_sec; v_C_K1 = f_320; ode(x_C_K1, t) = v_C_K1; mu_C_K1 = R*T*ln(K_C_K1*x_C_K1); // C:O_K1 var mu_O_K1: J_per_mol; var v_O_K1: fmol_per_sec; v_O_K1 = f_321; ode(x_O_K1, t) = v_O_K1; mu_O_K1 = R*T*ln(K_O_K1*x_O_K1); // Re_GHK:LCC_Ca1 var Af_LCC_Ca1: J_per_mol; var Ar_LCC_Ca1: J_per_mol; var Am_LCC_Ca1: J_per_mol; var v_LCC_Ca1: fmol_per_sec; Af_LCC_Ca1 = e_326; Ar_LCC_Ca1 = e_329; Am_LCC_Ca1 = e_328; f_326 = v_LCC_Ca1; f_329 = v_LCC_Ca1; f_328 = 0{fmol_per_sec}; v_LCC_Ca1 = sel case Am_LCC_Ca1 == 0{J_per_mol}: kappa_LCC_Ca1*(exp(Af_LCC_Ca1/(R*T))-exp(Ar_LCC_Ca1/(R*T))); otherwise: kappa_LCC_Ca1*Am_LCC_Ca1/(R*T)/(exp(Am_LCC_Ca1/(R*T))-1{dimensionless})*(exp(Af_LCC_Ca1/(R*T))-exp(Ar_LCC_Ca1/(R*T))); endsel; // Re_GHK:LCC_Ca2 var Af_LCC_Ca2: J_per_mol; var Ar_LCC_Ca2: J_per_mol; var Am_LCC_Ca2: J_per_mol; var v_LCC_Ca2: fmol_per_sec; Af_LCC_Ca2 = e_335; Ar_LCC_Ca2 = e_338; Am_LCC_Ca2 = e_337; f_335 = v_LCC_Ca2; f_338 = v_LCC_Ca2; f_337 = 0{fmol_per_sec}; v_LCC_Ca2 = sel case Am_LCC_Ca2 == 0{J_per_mol}: kappa_LCC_Ca2*(exp(Af_LCC_Ca2/(R*T))-exp(Ar_LCC_Ca2/(R*T))); otherwise: kappa_LCC_Ca2*Am_LCC_Ca2/(R*T)/(exp(Am_LCC_Ca2/(R*T))-1{dimensionless})*(exp(Af_LCC_Ca2/(R*T))-exp(Ar_LCC_Ca2/(R*T))); endsel; // Re_GHK:LCC_K1 var Af_LCC_K1: J_per_mol; var Ar_LCC_K1: J_per_mol; var Am_LCC_K1: J_per_mol; var v_LCC_K1: fmol_per_sec; Af_LCC_K1 = e_344; Ar_LCC_K1 = e_347; Am_LCC_K1 = e_346; f_344 = v_LCC_K1; f_347 = v_LCC_K1; f_346 = 0{fmol_per_sec}; v_LCC_K1 = sel case Am_LCC_K1 == 0{J_per_mol}: kappa_LCC_K1*(exp(Af_LCC_K1/(R*T))-exp(Ar_LCC_K1/(R*T))); otherwise: kappa_LCC_K1*Am_LCC_K1/(R*T)/(exp(Am_LCC_K1/(R*T))-1{dimensionless})*(exp(Af_LCC_K1/(R*T))-exp(Ar_LCC_K1/(R*T))); endsel; // Re_GHK:LCC_K2 var Af_LCC_K2: J_per_mol; var Ar_LCC_K2: J_per_mol; var Am_LCC_K2: J_per_mol; var v_LCC_K2: fmol_per_sec; Af_LCC_K2 = e_353; Ar_LCC_K2 = e_356; Am_LCC_K2 = e_355; f_353 = v_LCC_K2; f_356 = v_LCC_K2; f_355 = 0{fmol_per_sec}; v_LCC_K2 = sel case Am_LCC_K2 == 0{J_per_mol}: kappa_LCC_K2*(exp(Af_LCC_K2/(R*T))-exp(Ar_LCC_K2/(R*T))); otherwise: kappa_LCC_K2*Am_LCC_K2/(R*T)/(exp(Am_LCC_K2/(R*T))-1{dimensionless})*(exp(Af_LCC_K2/(R*T))-exp(Ar_LCC_K2/(R*T))); endsel; // C:S00_K var mu_S00_K: J_per_mol; var v_S00_K: fmol_per_sec; v_S00_K = f_402; ode(x_S00_K, t) = v_S00_K; mu_S00_K = R*T*ln(K_00_K*x_S00_K); // C:S01_K var mu_S01_K: J_per_mol; var v_S01_K: fmol_per_sec; v_S01_K = f_409; ode(x_S01_K, t) = v_S01_K; mu_S01_K = R*T*ln(K_01_K*x_S01_K); // C:S10_K var mu_S10_K: J_per_mol; var v_S10_K: fmol_per_sec; v_S10_K = f_403; ode(x_S10_K, t) = v_S10_K; mu_S10_K = R*T*ln(K_10_K*x_S10_K); // C:S11_K var mu_S11_K: J_per_mol; var v_S11_K: fmol_per_sec; v_S11_K = f_412; ode(x_S11_K, t) = v_S11_K; mu_S11_K = R*T*ln(K_11_K*x_S11_K); // C:S20_K var mu_S20_K: J_per_mol; var v_S20_K: fmol_per_sec; v_S20_K = f_408; ode(x_S20_K, t) = v_S20_K; mu_S20_K = R*T*ln(K_20_K*x_S20_K); // C:S21_K var mu_S21_K: J_per_mol; var v_S21_K: fmol_per_sec; v_S21_K = f_415; ode(x_S21_K, t) = v_S21_K; mu_S21_K = R*T*ln(K_21_K*x_S21_K); // Re:gKp var Af_gKp: J_per_mol; var Ar_gKp: J_per_mol; var v_gKp: fmol_per_sec; Af_gKp = e_422; Ar_gKp = e_423; f_422 = v_gKp; f_423 = v_gKp; v_gKp = kappa_gKp*(exp(Af_gKp/(R*T))-exp(Ar_gKp/(R*T))); // Re:gK1 var Af_gK1: J_per_mol; var Ar_gK1: J_per_mol; var v_gK1: fmol_per_sec; Af_gK1 = e_428; Ar_gK1 = e_429; f_428 = v_gK1; f_429 = v_gK1; v_gK1 = kappa_gK1*(exp(Af_gK1/(R*T))-exp(Ar_gK1/(R*T))); // Re:fCa00 var Af_fCa00: J_per_mol; var Ar_fCa00: J_per_mol; var v_fCa00: fmol_per_sec; Af_fCa00 = e_434; Ar_fCa00 = e_435; f_434 = v_fCa00; f_435 = v_fCa00; v_fCa00 = kappa_fCa00*(exp(Af_fCa00/(R*T))-exp(Ar_fCa00/(R*T))); // Re:fCa01 var Af_fCa01: J_per_mol; var Ar_fCa01: J_per_mol; var v_fCa01: fmol_per_sec; Af_fCa01 = e_438; Ar_fCa01 = e_439; f_438 = v_fCa01; f_439 = v_fCa01; v_fCa01 = kappa_fCa01*(exp(Af_fCa01/(R*T))-exp(Ar_fCa01/(R*T))); // Re:fCa02 var Af_fCa02: J_per_mol; var Ar_fCa02: J_per_mol; var v_fCa02: fmol_per_sec; Af_fCa02 = e_442; Ar_fCa02 = e_443; f_442 = v_fCa02; f_443 = v_fCa02; v_fCa02 = kappa_fCa02*(exp(Af_fCa02/(R*T))-exp(Ar_fCa02/(R*T))); // Re:fCa10 var Af_fCa10: J_per_mol; var Ar_fCa10: J_per_mol; var v_fCa10: fmol_per_sec; Af_fCa10 = e_446; Ar_fCa10 = e_447; f_446 = v_fCa10; f_447 = v_fCa10; v_fCa10 = kappa_fCa10*(exp(Af_fCa10/(R*T))-exp(Ar_fCa10/(R*T))); // Re:fCa11 var Af_fCa11: J_per_mol; var Ar_fCa11: J_per_mol; var v_fCa11: fmol_per_sec; Af_fCa11 = e_450; Ar_fCa11 = e_451; f_450 = v_fCa11; f_451 = v_fCa11; v_fCa11 = kappa_fCa11*(exp(Af_fCa11/(R*T))-exp(Ar_fCa11/(R*T))); // Re:fCa12 var Af_fCa12: J_per_mol; var Ar_fCa12: J_per_mol; var v_fCa12: fmol_per_sec; Af_fCa12 = e_454; Ar_fCa12 = e_455; f_454 = v_fCa12; f_455 = v_fCa12; v_fCa12 = kappa_fCa12*(exp(Af_fCa12/(R*T))-exp(Ar_fCa12/(R*T))); // C:S000_LCC var mu_S000_LCC: J_per_mol; var v_S000_LCC: fmol_per_sec; 0_LCC; v_S000_LCC = f_475; ode(x_S000_LCC, t) = v_S000_LCC; mu_S000_LCC = R*T*ln(K_000_LCC*x_S000_LCC); // C:S010_LCC var mu_S010_LCC: J_per_mol; var v_S010_LCC: fmol_per_sec; 0_LCC; v_S010_LCC = f_472; ode(x_S010_LCC, t) = v_S010_LCC; mu_S010_LCC = R*T*ln(K_010_LCC*x_S010_LCC); // C:S020_LCC var mu_S020_LCC: J_per_mol; var v_S020_LCC: fmol_per_sec; 0_LCC; v_S020_LCC = f_458; ode(x_S020_LCC, t) = v_S020_LCC; mu_S020_LCC = R*T*ln(K_020_LCC*x_S020_LCC); // C:S100_LCC var mu_S100_LCC: J_per_mol; var v_S100_LCC: fmol_per_sec; 0_LCC; v_S100_LCC = f_473; ode(x_S100_LCC, t) = v_S100_LCC; mu_S100_LCC = R*T*ln(K_100_LCC*x_S100_LCC); // C:S110_LCC var mu_S110_LCC: J_per_mol; var v_S110_LCC: fmol_per_sec; 0_LCC; v_S110_LCC = f_474; ode(x_S110_LCC, t) = v_S110_LCC; mu_S110_LCC = R*T*ln(K_110_LCC*x_S110_LCC); // C:S120_LCC var mu_S120_LCC: J_per_mol; var v_S120_LCC: fmol_per_sec; 0_LCC; v_S120_LCC = f_460; ode(x_S120_LCC, t) = v_S120_LCC; mu_S120_LCC = R*T*ln(K_120_LCC*x_S120_LCC); // C:S001_LCC var mu_S001_LCC: J_per_mol; var v_S001_LCC: fmol_per_sec; 1_LCC; v_S001_LCC = f_499; ode(x_S001_LCC, t) = v_S001_LCC; mu_S001_LCC = R*T*ln(K_001_LCC*x_S001_LCC); // C:S011_LCC var mu_S011_LCC: J_per_mol; var v_S011_LCC: fmol_per_sec; 1_LCC; v_S011_LCC = f_496; ode(x_S011_LCC, t) = v_S011_LCC; mu_S011_LCC = R*T*ln(K_011_LCC*x_S011_LCC); // C:S021_LCC var mu_S021_LCC: J_per_mol; var v_S021_LCC: fmol_per_sec; 1_LCC; v_S021_LCC = f_482; ode(x_S021_LCC, t) = v_S021_LCC; mu_S021_LCC = R*T*ln(K_021_LCC*x_S021_LCC); // C:S101_LCC var mu_S101_LCC: J_per_mol; var v_S101_LCC: fmol_per_sec; 1_LCC; v_S101_LCC = f_497; ode(x_S101_LCC, t) = v_S101_LCC; mu_S101_LCC = R*T*ln(K_101_LCC*x_S101_LCC); // C:S111_LCC var mu_S111_LCC: J_per_mol; var v_S111_LCC: fmol_per_sec; 1_LCC; v_S111_LCC = f_498; ode(x_S111_LCC, t) = v_S111_LCC; mu_S111_LCC = R*T*ln(K_111_LCC*x_S111_LCC); // C:S121_LCC var mu_S121_LCC: J_per_mol; var v_S121_LCC: fmol_per_sec; 1_LCC; v_S121_LCC = f_484; ode(x_S121_LCC, t) = v_S121_LCC; mu_S121_LCC = R*T*ln(K_121_LCC*x_S121_LCC); // C:S000_Na var mu_S000_Na: J_per_mol; var v_S000_Na: fmol_per_sec; 0_Na; v_S000_Na = f_506; ode(x_S000_Na, t) = v_S000_Na; mu_S000_Na = R*T*ln(K_000_Na*x_S000_Na); // C:S010_Na var mu_S010_Na: J_per_mol; var v_S010_Na: fmol_per_sec; 0_Na; v_S010_Na = f_516; ode(x_S010_Na, t) = v_S010_Na; mu_S010_Na = R*T*ln(K_010_Na*x_S010_Na); // C:S100_Na var mu_S100_Na: J_per_mol; var v_S100_Na: fmol_per_sec; 0_Na; v_S100_Na = f_507; ode(x_S100_Na, t) = v_S100_Na; mu_S100_Na = R*T*ln(K_100_Na*x_S100_Na); // C:S110_Na var mu_S110_Na: J_per_mol; var v_S110_Na: fmol_per_sec; 0_Na; v_S110_Na = f_519; ode(x_S110_Na, t) = v_S110_Na; mu_S110_Na = R*T*ln(K_110_Na*x_S110_Na); // C:S200_Na var mu_S200_Na: J_per_mol; var v_S200_Na: fmol_per_sec; 0_Na; v_S200_Na = f_512; ode(x_S200_Na, t) = v_S200_Na; mu_S200_Na = R*T*ln(K_200_Na*x_S200_Na); // C:S210_Na var mu_S210_Na: J_per_mol; var v_S210_Na: fmol_per_sec; 0_Na; v_S210_Na = f_522; ode(x_S210_Na, t) = v_S210_Na; mu_S210_Na = R*T*ln(K_210_Na*x_S210_Na); // C:S300_Na var mu_S300_Na: J_per_mol; var v_S300_Na: fmol_per_sec; 0_Na; v_S300_Na = f_515; ode(x_S300_Na, t) = v_S300_Na; mu_S300_Na = R*T*ln(K_300_Na*x_S300_Na); // C:S310_Na var mu_S310_Na: J_per_mol; var v_S310_Na: fmol_per_sec; 0_Na; v_S310_Na = f_524; ode(x_S310_Na, t) = v_S310_Na; mu_S310_Na = R*T*ln(K_310_Na*x_S310_Na); // C:S001_Na var mu_S001_Na: J_per_mol; var v_S001_Na: fmol_per_sec; 1_Na; v_S001_Na = f_534; ode(x_S001_Na, t) = v_S001_Na; mu_S001_Na = R*T*ln(K_001_Na*x_S001_Na); // C:S011_Na var mu_S011_Na: J_per_mol; var v_S011_Na: fmol_per_sec; 1_Na; v_S011_Na = f_544; ode(x_S011_Na, t) = v_S011_Na; mu_S011_Na = R*T*ln(K_011_Na*x_S011_Na); // C:S101_Na var mu_S101_Na: J_per_mol; var v_S101_Na: fmol_per_sec; 1_Na; v_S101_Na = f_535; ode(x_S101_Na, t) = v_S101_Na; mu_S101_Na = R*T*ln(K_101_Na*x_S101_Na); // C:S111_Na var mu_S111_Na: J_per_mol; var v_S111_Na: fmol_per_sec; 1_Na; v_S111_Na = f_547; ode(x_S111_Na, t) = v_S111_Na; mu_S111_Na = R*T*ln(K_111_Na*x_S111_Na); // C:S201_Na var mu_S201_Na: J_per_mol; var v_S201_Na: fmol_per_sec; 1_Na; v_S201_Na = f_540; ode(x_S201_Na, t) = v_S201_Na; mu_S201_Na = R*T*ln(K_201_Na*x_S201_Na); // C:S211_Na var mu_S211_Na: J_per_mol; var v_S211_Na: fmol_per_sec; 1_Na; v_S211_Na = f_550; ode(x_S211_Na, t) = v_S211_Na; mu_S211_Na = R*T*ln(K_211_Na*x_S211_Na); // C:S301_Na var mu_S301_Na: J_per_mol; var v_S301_Na: fmol_per_sec; 1_Na; v_S301_Na = f_543; ode(x_S301_Na, t) = v_S301_Na; mu_S301_Na = R*T*ln(K_301_Na*x_S301_Na); // C:S311_Na var mu_S311_Na: J_per_mol; var v_S311_Na: fmol_per_sec; 1_Na; v_S311_Na = f_552; ode(x_S311_Na, t) = v_S311_Na; mu_S311_Na = R*T*ln(K_311_Na*x_S311_Na); // Re:j000 var Af_j000: J_per_mol; var Ar_j000: J_per_mol; var v_j000: fmol_per_sec; Af_j000 = e_562; Ar_j000 = e_563; f_562 = v_j000; f_563 = v_j000; v_j000 = kappa_j000*(exp(Af_j000/(R*T))-exp(Ar_j000/(R*T))); // Re:j010 var Af_j010: J_per_mol; var Ar_j010: J_per_mol; var v_j010: fmol_per_sec; Af_j010 = e_568; Ar_j010 = e_569; f_568 = v_j010; f_569 = v_j010; v_j010 = kappa_j010*(exp(Af_j010/(R*T))-exp(Ar_j010/(R*T))); // Re:j100 var Af_j100: J_per_mol; var Ar_j100: J_per_mol; var v_j100: fmol_per_sec; Af_j100 = e_574; Ar_j100 = e_575; f_574 = v_j100; f_575 = v_j100; v_j100 = kappa_j100*(exp(Af_j100/(R*T))-exp(Ar_j100/(R*T))); // Re:j110 var Af_j110: J_per_mol; var Ar_j110: J_per_mol; var v_j110: fmol_per_sec; Af_j110 = e_580; Ar_j110 = e_581; f_580 = v_j110; f_581 = v_j110; v_j110 = kappa_j110*(exp(Af_j110/(R*T))-exp(Ar_j110/(R*T))); // Re:j200 var Af_j200: J_per_mol; var Ar_j200: J_per_mol; var v_j200: fmol_per_sec; Af_j200 = e_586; Ar_j200 = e_587; f_586 = v_j200; f_587 = v_j200; v_j200 = kappa_j200*(exp(Af_j200/(R*T))-exp(Ar_j200/(R*T))); // Re:j210 var Af_j210: J_per_mol; var Ar_j210: J_per_mol; var v_j210: fmol_per_sec; Af_j210 = e_592; Ar_j210 = e_593; f_592 = v_j210; f_593 = v_j210; v_j210 = kappa_j210*(exp(Af_j210/(R*T))-exp(Ar_j210/(R*T))); // Re:j300 var Af_j300: J_per_mol; var Ar_j300: J_per_mol; var v_j300: fmol_per_sec; Af_j300 = e_598; Ar_j300 = e_599; f_598 = v_j300; f_599 = v_j300; v_j300 = kappa_j300*(exp(Af_j300/(R*T))-exp(Ar_j300/(R*T))); // Re:j310 var Af_j310: J_per_mol; var Ar_j310: J_per_mol; var v_j310: fmol_per_sec; Af_j310 = e_604; Ar_j310 = e_605; f_604 = v_j310; f_605 = v_j310; v_j310 = kappa_j310*(exp(Af_j310/(R*T))-exp(Ar_j310/(R*T))); // Re:X00 var Af_X00: J_per_mol; var Ar_X00: J_per_mol; var v_X00: fmol_per_sec; Af_X00 = e_610; Ar_X00 = e_611; f_610 = v_X00; f_611 = v_X00; v_X00 = kappa_X00*(exp(Af_X00/(R*T))-exp(Ar_X00/(R*T))); // Re:X01 var Af_X01: J_per_mol; var Ar_X01: J_per_mol; var v_X01: fmol_per_sec; Af_X01 = e_616; Ar_X01 = e_617; f_616 = v_X01; f_617 = v_X01; v_X01 = kappa_X01*(exp(Af_X01/(R*T))-exp(Ar_X01/(R*T))); // Re:X10 var Af_X10: J_per_mol; var Ar_X10: J_per_mol; var v_X10: fmol_per_sec; Af_X10 = e_622; Ar_X10 = e_623; f_622 = v_X10; f_623 = v_X10; v_X10 = kappa_X10*(exp(Af_X10/(R*T))-exp(Ar_X10/(R*T))); // Re:X11 var Af_X11: J_per_mol; var Ar_X11: J_per_mol; var v_X11: fmol_per_sec; Af_X11 = e_628; Ar_X11 = e_629; f_628 = v_X11; f_629 = v_X11; v_X11 = kappa_X11*(exp(Af_X11/(R*T))-exp(Ar_X11/(R*T))); // Re:i00 var Af_i00: J_per_mol; var Ar_i00: J_per_mol; var v_i00: fmol_per_sec; Af_i00 = e_634; Ar_i00 = e_635; f_634 = v_i00; f_635 = v_i00; v_i00 = kappa_i00*(exp(Af_i00/(R*T))-exp(Ar_i00/(R*T))); // Re:i10 var Af_i10: J_per_mol; var Ar_i10: J_per_mol; var v_i10: fmol_per_sec; Af_i10 = e_640; Ar_i10 = e_641; f_640 = v_i10; f_641 = v_i10; v_i10 = kappa_i10*(exp(Af_i10/(R*T))-exp(Ar_i10/(R*T))); // Re:i20 var Af_i20: J_per_mol; var Ar_i20: J_per_mol; var v_i20: fmol_per_sec; Af_i20 = e_646; Ar_i20 = e_647; f_646 = v_i20; f_647 = v_i20; v_i20 = kappa_i20*(exp(Af_i20/(R*T))-exp(Ar_i20/(R*T))); // Re:d000 var Af_d000: J_per_mol; var Ar_d000: J_per_mol; var v_d000: fmol_per_sec; Af_d000 = e_652; Ar_d000 = e_653; f_652 = v_d000; f_653 = v_d000; v_d000 = kappa_d000*(exp(Af_d000/(R*T))-exp(Ar_d000/(R*T))); // Re:d010 var Af_d010: J_per_mol; var Ar_d010: J_per_mol; var v_d010: fmol_per_sec; Af_d010 = e_658; Ar_d010 = e_659; f_658 = v_d010; f_659 = v_d010; v_d010 = kappa_d010*(exp(Af_d010/(R*T))-exp(Ar_d010/(R*T))); // Re:d020 var Af_d020: J_per_mol; var Ar_d020: J_per_mol; var v_d020: fmol_per_sec; Af_d020 = e_664; Ar_d020 = e_665; f_664 = v_d020; f_665 = v_d020; v_d020 = kappa_d020*(exp(Af_d020/(R*T))-exp(Ar_d020/(R*T))); // Re:f1_000 var Af_f1_000: J_per_mol; var Ar_f1_000: J_per_mol; var v_f1_000: fmol_per_sec; Af_f1_000 = e_670; Ar_f1_000 = e_671; f_670 = v_f1_000; f_671 = v_f1_000; v_f1_000 = kappa_f1_000*(exp(Af_f1_000/(R*T))-exp(Ar_f1_000/(R*T))); // Re:f2_000 var Af_f2_000: J_per_mol; var Ar_f2_000: J_per_mol; var v_f2_000: fmol_per_sec; Af_f2_000 = e_676; Ar_f2_000 = e_677; f_676 = v_f2_000; f_677 = v_f2_000; v_f2_000 = kappa_f2_000*(exp(Af_f2_000/(R*T))-exp(Ar_f2_000/(R*T))); // Re:f3_010 var Af_f3_010: J_per_mol; var Ar_f3_010: J_per_mol; var v_f3_010: fmol_per_sec; Af_f3_010 = e_682; Ar_f3_010 = e_683; f_682 = v_f3_010; f_683 = v_f3_010; v_f3_010 = kappa_f3_010*(exp(Af_f3_010/(R*T))-exp(Ar_f3_010/(R*T))); // Re:f1_100 var Af_f1_100: J_per_mol; var Ar_f1_100: J_per_mol; var v_f1_100: fmol_per_sec; Af_f1_100 = e_688; Ar_f1_100 = e_689; f_688 = v_f1_100; f_689 = v_f1_100; v_f1_100 = kappa_f1_100*(exp(Af_f1_100/(R*T))-exp(Ar_f1_100/(R*T))); // Re:f2_100 var Af_f2_100: J_per_mol; var Ar_f2_100: J_per_mol; var v_f2_100: fmol_per_sec; Af_f2_100 = e_694; Ar_f2_100 = e_695; f_694 = v_f2_100; f_695 = v_f2_100; v_f2_100 = kappa_f2_100*(exp(Af_f2_100/(R*T))-exp(Ar_f2_100/(R*T))); // Re:f3_110 var Af_f3_110: J_per_mol; var Ar_f3_110: J_per_mol; var v_f3_110: fmol_per_sec; Af_f3_110 = e_700; Ar_f3_110 = e_701; f_700 = v_f3_110; f_701 = v_f3_110; v_f3_110 = kappa_f3_110*(exp(Af_f3_110/(R*T))-exp(Ar_f3_110/(R*T))); // Re:d001 var Af_d001: J_per_mol; var Ar_d001: J_per_mol; var v_d001: fmol_per_sec; Af_d001 = e_706; Ar_d001 = e_707; f_706 = v_d001; f_707 = v_d001; v_d001 = kappa_d001*(exp(Af_d001/(R*T))-exp(Ar_d001/(R*T))); // Re:d011 var Af_d011: J_per_mol; var Ar_d011: J_per_mol; var v_d011: fmol_per_sec; Af_d011 = e_712; Ar_d011 = e_713; f_712 = v_d011; f_713 = v_d011; v_d011 = kappa_d011*(exp(Af_d011/(R*T))-exp(Ar_d011/(R*T))); // Re:d021 var Af_d021: J_per_mol; var Ar_d021: J_per_mol; var v_d021: fmol_per_sec; Af_d021 = e_718; Ar_d021 = e_719; f_718 = v_d021; f_719 = v_d021; v_d021 = kappa_d021*(exp(Af_d021/(R*T))-exp(Ar_d021/(R*T))); // Re:f1_001 var Af_f1_001: J_per_mol; var Ar_f1_001: J_per_mol; var v_f1_001: fmol_per_sec; Af_f1_001 = e_724; Ar_f1_001 = e_725; f_724 = v_f1_001; f_725 = v_f1_001; v_f1_001 = kappa_f1_001*(exp(Af_f1_001/(R*T))-exp(Ar_f1_001/(R*T))); // Re:f2_001 var Af_f2_001: J_per_mol; var Ar_f2_001: J_per_mol; var v_f2_001: fmol_per_sec; Af_f2_001 = e_730; Ar_f2_001 = e_731; f_730 = v_f2_001; f_731 = v_f2_001; v_f2_001 = kappa_f2_001*(exp(Af_f2_001/(R*T))-exp(Ar_f2_001/(R*T))); // Re:f3_011 var Af_f3_011: J_per_mol; var Ar_f3_011: J_per_mol; var v_f3_011: fmol_per_sec; Af_f3_011 = e_736; Ar_f3_011 = e_737; f_736 = v_f3_011; f_737 = v_f3_011; v_f3_011 = kappa_f3_011*(exp(Af_f3_011/(R*T))-exp(Ar_f3_011/(R*T))); // Re:f1_101 var Af_f1_101: J_per_mol; var Ar_f1_101: J_per_mol; var v_f1_101: fmol_per_sec; Af_f1_101 = e_742; Ar_f1_101 = e_743; f_742 = v_f1_101; f_743 = v_f1_101; v_f1_101 = kappa_f1_101*(exp(Af_f1_101/(R*T))-exp(Ar_f1_101/(R*T))); // Re:f2_101 var Af_f2_101: J_per_mol; var Ar_f2_101: J_per_mol; var v_f2_101: fmol_per_sec; Af_f2_101 = e_748; Ar_f2_101 = e_749; f_748 = v_f2_101; f_749 = v_f2_101; v_f2_101 = kappa_f2_101*(exp(Af_f2_101/(R*T))-exp(Ar_f2_101/(R*T))); // Re:f3_111 var Af_f3_111: J_per_mol; var Ar_f3_111: J_per_mol; var v_f3_111: fmol_per_sec; Af_f3_111 = e_754; Ar_f3_111 = e_755; f_754 = v_f3_111; f_755 = v_f3_111; v_f3_111 = kappa_f3_111*(exp(Af_f3_111/(R*T))-exp(Ar_f3_111/(R*T))); // Re:h000 var Af_h000: J_per_mol; var Ar_h000: J_per_mol; var v_h000: fmol_per_sec; Af_h000 = e_760; Ar_h000 = e_761; f_760 = v_h000; f_761 = v_h000; v_h000 = kappa_h000*(exp(Af_h000/(R*T))-exp(Ar_h000/(R*T))); // Re:h100 var Af_h100: J_per_mol; var Ar_h100: J_per_mol; var v_h100: fmol_per_sec; Af_h100 = e_766; Ar_h100 = e_767; f_766 = v_h100; f_767 = v_h100; v_h100 = kappa_h100*(exp(Af_h100/(R*T))-exp(Ar_h100/(R*T))); // Re:h200 var Af_h200: J_per_mol; var Ar_h200: J_per_mol; var v_h200: fmol_per_sec; Af_h200 = e_772; Ar_h200 = e_773; f_772 = v_h200; f_773 = v_h200; v_h200 = kappa_h200*(exp(Af_h200/(R*T))-exp(Ar_h200/(R*T))); // Re:h300 var Af_h300: J_per_mol; var Ar_h300: J_per_mol; var v_h300: fmol_per_sec; Af_h300 = e_778; Ar_h300 = e_779; f_778 = v_h300; f_779 = v_h300; v_h300 = kappa_h300*(exp(Af_h300/(R*T))-exp(Ar_h300/(R*T))); // Re:m000 var Af_m000: J_per_mol; var Ar_m000: J_per_mol; var v_m000: fmol_per_sec; Af_m000 = e_784; Ar_m000 = e_785; f_784 = v_m000; f_785 = v_m000; v_m000 = kappa_m000*(exp(Af_m000/(R*T))-exp(Ar_m000/(R*T))); // Re:m100 var Af_m100: J_per_mol; var Ar_m100: J_per_mol; var v_m100: fmol_per_sec; Af_m100 = e_790; Ar_m100 = e_791; f_790 = v_m100; f_791 = v_m100; v_m100 = kappa_m100*(exp(Af_m100/(R*T))-exp(Ar_m100/(R*T))); // Re:m200 var Af_m200: J_per_mol; var Ar_m200: J_per_mol; var v_m200: fmol_per_sec; Af_m200 = e_796; Ar_m200 = e_797; f_796 = v_m200; f_797 = v_m200; v_m200 = kappa_m200*(exp(Af_m200/(R*T))-exp(Ar_m200/(R*T))); // Re:m010 var Af_m010: J_per_mol; var Ar_m010: J_per_mol; var v_m010: fmol_per_sec; Af_m010 = e_802; Ar_m010 = e_803; f_802 = v_m010; f_803 = v_m010; v_m010 = kappa_m010*(exp(Af_m010/(R*T))-exp(Ar_m010/(R*T))); // Re:m110 var Af_m110: J_per_mol; var Ar_m110: J_per_mol; var v_m110: fmol_per_sec; Af_m110 = e_808; Ar_m110 = e_809; f_808 = v_m110; f_809 = v_m110; v_m110 = kappa_m110*(exp(Af_m110/(R*T))-exp(Ar_m110/(R*T))); // Re:m210 var Af_m210: J_per_mol; var Ar_m210: J_per_mol; var v_m210: fmol_per_sec; Af_m210 = e_814; Ar_m210 = e_815; f_814 = v_m210; f_815 = v_m210; v_m210 = kappa_m210*(exp(Af_m210/(R*T))-exp(Ar_m210/(R*T))); // Re:h001 var Af_h001: J_per_mol; var Ar_h001: J_per_mol; var v_h001: fmol_per_sec; Af_h001 = e_820; Ar_h001 = e_821; f_820 = v_h001; f_821 = v_h001; v_h001 = kappa_h001*(exp(Af_h001/(R*T))-exp(Ar_h001/(R*T))); // Re:h101 var Af_h101: J_per_mol; var Ar_h101: J_per_mol; var v_h101: fmol_per_sec; Af_h101 = e_826; Ar_h101 = e_827; f_826 = v_h101; f_827 = v_h101; v_h101 = kappa_h101*(exp(Af_h101/(R*T))-exp(Ar_h101/(R*T))); // Re:h201 var Af_h201: J_per_mol; var Ar_h201: J_per_mol; var v_h201: fmol_per_sec; Af_h201 = e_832; Ar_h201 = e_833; f_832 = v_h201; f_833 = v_h201; v_h201 = kappa_h201*(exp(Af_h201/(R*T))-exp(Ar_h201/(R*T))); // Re:h301 var Af_h301: J_per_mol; var Ar_h301: J_per_mol; var v_h301: fmol_per_sec; Af_h301 = e_838; Ar_h301 = e_839; f_838 = v_h301; f_839 = v_h301; v_h301 = kappa_h301*(exp(Af_h301/(R*T))-exp(Ar_h301/(R*T))); // Re:m001 var Af_m001: J_per_mol; var Ar_m001: J_per_mol; var v_m001: fmol_per_sec; Af_m001 = e_844; Ar_m001 = e_845; f_844 = v_m001; f_845 = v_m001; v_m001 = kappa_m001*(exp(Af_m001/(R*T))-exp(Ar_m001/(R*T))); // Re:m101 var Af_m101: J_per_mol; var Ar_m101: J_per_mol; var v_m101: fmol_per_sec; Af_m101 = e_850; Ar_m101 = e_851; f_850 = v_m101; f_851 = v_m101; v_m101 = kappa_m101*(exp(Af_m101/(R*T))-exp(Ar_m101/(R*T))); // Re:m201 var Af_m201: J_per_mol; var Ar_m201: J_per_mol; var v_m201: fmol_per_sec; Af_m201 = e_856; Ar_m201 = e_857; f_856 = v_m201; f_857 = v_m201; v_m201 = kappa_m201*(exp(Af_m201/(R*T))-exp(Ar_m201/(R*T))); // Re:m011 var Af_m011: J_per_mol; var Ar_m011: J_per_mol; var v_m011: fmol_per_sec; Af_m011 = e_862; Ar_m011 = e_863; f_862 = v_m011; f_863 = v_m011; v_m011 = kappa_m011*(exp(Af_m011/(R*T))-exp(Ar_m011/(R*T))); // Re:m111 var Af_m111: J_per_mol; var Ar_m111: J_per_mol; var v_m111: fmol_per_sec; Af_m111 = e_868; Ar_m111 = e_869; f_868 = v_m111; f_869 = v_m111; v_m111 = kappa_m111*(exp(Af_m111/(R*T))-exp(Ar_m111/(R*T))); // Re:m211 var Af_m211: J_per_mol; var Ar_m211: J_per_mol; var v_m211: fmol_per_sec; Af_m211 = e_874; Ar_m211 = e_875; f_874 = v_m211; f_875 = v_m211; v_m211 = kappa_m211*(exp(Af_m211/(R*T))-exp(Ar_m211/(R*T))); enddef; enddef;