testing handling of non-integral stoichiometric coefficients... Reaction Equations: H2O => 1.4 H + 0.2 O2 + 0.6 OH 0.7 H2 + 0.2 O2 + 0.6 OH => H2O Creation Rates: H2 0.0000e+00 0.0000e+00 H 4.2653e+10 1.4000e+00 O 0.0000e+00 0.0000e+00 O2 6.0933e+09 2.0000e-01 OH 1.8280e+10 6.0000e-01 H2O 1.5750e-08 1.0000e+00 Destruction Rates: H2 1.1025e-08 7.0000e-01 H 0.0000e+00 0.0000e+00 O 0.0000e+00 0.0000e+00 O2 3.1501e-09 2.0000e-01 OH 9.4503e-09 6.0000e-01 H2O 3.0466e+10 1.0000e+00 Forward rate constants: [ 1.00000000e+13 3.98107200e+04] Fwd rate of progress, kf*concentration product, difference: 1.57505106844e-08 1.57505106844e-08 0.0 Reactant stoichiometric coefficients: [[ 0. 0.7] [ 0. 0. ] [ 0. 0. ] [ 0. 0.2] [ 0. 0.6] [ 1. 0. ]] Product stoichiometric coefficients: [[ 0. 0. ] [ 1.4 0. ] [ 0. 0. ] [ 0.2 0. ] [ 0.6 0. ] [ 0. 1. ]]