//Created by libAntimony v2.4 model saftenku_2001__environment(time_) // Variable initializations: time_ = ; end model saftenku_2001__C1(C1, C1C2, C2C1, C2, Ca, time_) // Rate Rules: C1' = C2C1 * C2 - C1C2 * Ca * C2; // Variable initializations: C1 = 0.125; C1C2 = ; C2C1 = ; C2 = ; Ca = ; time_ = ; end model saftenku_2001__C2(C2, C1C2, C2C1, C2C3, C3C2, C2C5, C5C2, C1, C3, C5, Ca, time_) // Rate Rules: C2' = (C1C2 * Ca * C1 + C3C2 * C3 + C5C2 * C5) - (C2C1 * C2 + C2C3 * Ca * C2 + C2C5 * C2); // Variable initializations: C2 = 0.125; C1C2 = ; C2C1 = ; C2C3 = ; C3C2 = ; C2C5 = ; C5C2 = ; C1 = ; C3 = ; C5 = ; Ca = ; time_ = ; end model saftenku_2001__C3(C3, O1C3, C3O1, C2C3, C3C2, O2C3, C3O2, O3C3, C3O3, C2, O1, O2, O3, Ca, time_) // Rate Rules: C3' = (C2C3 * Ca * C2 + O1C3 * O1 + O3C3 * O3 + O2C3 * O2) - (C3C2 * C3 + C3O1 * C3 + C3O2 * C3 + C3O3 * C3); // Variable initializations: C3 = 0.125; O1C3 = ; C3O1 = ; C2C3 = ; C3C2 = ; O2C3 = ; C3O2 = ; O3C3 = ; C3O3 = ; C2 = ; O1 = ; O2 = ; O3 = ; Ca = ; time_ = ; end model saftenku_2001__C4(C4, O2C4, C4O2, O3C4, C4O3, O2, O3, time_) // Rate Rules: C4' = (O2C4 * O2 + O3C4 * O3) - (C4O2 * C4 + C4O3 * C4); // Variable initializations: C4 = 0.125; O2C4 = ; C4O2 = ; O3C4 = ; C4O3 = ; O2 = ; O3 = ; time_ = ; end model saftenku_2001__C5(C5, C2C5, C5C2, C2, time_) // Rate Rules: C5' = C2C5 * C2 - C5C2 * C5; // Variable initializations: C5 = 0.125; C2C5 = ; C5C2 = ; C2 = ; time_ = ; end model saftenku_2001__O1(O1, O1C3, C3O1, C3, time_) // Rate Rules: O1' = C3O1 * C3 - O1C3 * O1; // Variable initializations: O1 = 0.125; O1C3 = ; C3O1 = ; C3 = ; time_ = ; end model saftenku_2001__O2(O2, C3O2, O2C3, O2C4, C4O2, C3, C4, time_) // Rate Rules: O2' = (C3O2 * C3 + C4O2 * C4) - (O2C3 * O2 + O2C4 * O2); // Variable initializations: O2 = 0.125; C3O2 = ; O2C3 = ; O2C4 = ; C4O2 = ; C3 = ; C4 = ; time_ = ; end model saftenku_2001__O3(O3, C3O3, O3C3, O3C4, C4O3, C3, C4, time_) // Rate Rules: O3' = (C3O3 * C3 + C4O3 * C4) - (O3C3 * O3 + O3C4 * O3); // Variable initializations: O3 = 0.125; C3O3 = ; O3C3 = ; O3C4 = ; C4O3 = ; C3 = ; C4 = ; time_ = ; end model saftenku_2001__reaction_constants(C1C2, C2C1, C2C3, C3C2, C3O2, O2C3, O2C4, C4O2, C3O3, O3C3, O3C4, C4O3, C3O1, O1C3, C2C5, C5C2, Ca) // Variable initializations: C1C2 = 2.5; C2C1 = 13.3; C2C3 = 68.0; C3C2 = 8000.0; C3O2 = 17.0; O2C3 = 92.0; O2C4 = 1900.0; C4O2 = 520.0; C3O3 = 14.0; O3C3 = 138.0; O3C4 = 300.0; C4O3 = 46.0; C3O1 = 1100.0; O1C3 = 3400.0; C2C5 = 0.13; C5C2 = 3.6; Ca = 20.0; end model *saftenku_2001____main() // Sub-modules, and any changes to those submodules: environment: saftenku_2001__environment(time_); C1: saftenku_2001__C1(C10, C1C2, C2C1, C20, Ca, time_); C2: saftenku_2001__C2(C20, C1C2, C2C1, C2C3, C3C2, C2C5, C5C2, C10, C30, C50, Ca, time_); C3: saftenku_2001__C3(C30, O1C3, C3O1, C2C3, C3C2, O2C3, C3O2, O3C3, C3O3, C20, O10, O20, O30, Ca, time_); C4: saftenku_2001__C4(C40, O2C4, C4O2, O3C4, C4O3, O20, O30, time_); C5: saftenku_2001__C5(C50, C2C5, C5C2, C20, time_); O1: saftenku_2001__O1(O10, O1C3, C3O1, C30, time_); O2: saftenku_2001__O2(O20, C3O2, O2C3, O2C4, C4O2, C30, C40, time_); O3: saftenku_2001__O3(O30, C3O3, O3C3, O3C4, C4O3, C30, C40, time_); reaction_constants: saftenku_2001__reaction_constants(C1C2, C2C1, C2C3, C3C2, C3O2, O2C3, O2C4, C4O2, C3O3, O3C3, O3C4, C4O3, C3O1, O1C3, C2C5, C5C2, Ca); end