H2 Combustion
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Eliodoro Chiavazzo and Pietro Asinari. Systematic model reduction techniques for chemically reactive systems. accessed 26 June 2013.
E. Chiavazzo, I. V. Karlin, C. E. Frouzakis, and K. B. Boulouchos. Method of invariant grid for model reduction of hydrogen combustion. ArXiv e-prints, December 2007.
E. Chiavazzo. Invariant Manifolds and Lattice Boltzmann Method for Combustion. ETH Reprozentrale Hönggerberg, HIL C45, Zürich, 2009.
J. Clayden, N. Greeves, and S. Warren. Organic Chemistry. OUP Oxford, 2012.
Inc Free Software Foundation. GCC/G++ Website. accessed 28 September 2013.
RG Gilbert, K_ Luther, and J Troe. Theory of thermal unimolecular reactions in the fall-off range. ii. weak collision rate constants. Berichte der Bunsengesellschaft für physikalische Chemie, 87(2):169–177, 1983.
ISO. Information technology – programming languages – c++. ISO 14882:2011, International Organization for Standardization, Geneva, Switzerland, 2011.
Juan Li, Zhenwei Zhao, Andrei Kazakov, and Frederick L Dryer. An updated comprehensive kinetic model of hydrogen combustion. International Journal of Chemical Kinetics, 36(10):566–575, 2004.
MA Mueller, TJ Kim, RA Yetter, and FL Dryer. Flow reactor studies and kinetic modeling of the h2/o2 reaction. International Journal of Chemical Kinetics, 31(2):113–125, 1999.
Bjarne Stroustrup. The C++ programming language. Addison-Wesley, Upper Saddle River, NJ, 2013.
J Troe. Theory of thermal unimolecular reactions in the fall-off range. i. strong collision rate constants. Berichte der Bunsengesellschaft für physikalische Chemie, 87(2):161–169, 1983.
Stdcxx Wiki. C++0xCompilerSupport. accessed 08 July 2013.