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Comparison of numerical techniques for integration of stiff ordinary differential equations arising in combustion chemistryThe efficiency and accuracy of several algorithms recently developed for the efficient numerical integration of stiff ordinary differential equations are compared. The methods examined include two general-purpose codes, EPISODE and LSODE, and three codes (CHEMEQ, CREK1D, and GCKP84) developed specifically to integrate chemical kinetic rate equations. The codes are applied to two test problems drawn from combustion kinetics. The comparisons show that LSODE is the fastest code currently available for the integration of combustion kinetic rate equations. An important finding is that an interactive solution of the algebraic energy conservation equation to compute the temperature does not result in significant errors. In addition, this method is more efficient than evaluating the temperature by integrating its time derivative. Significant reductions in computational work are realized by updating the rate constants (k = at(supra N) N exp(-E/RT) only when the temperature change exceeds an amount delta T that is problem dependent. An approximate expression for the automatic evaluation of delta T is derived and is shown to result in increased efficiency.
Document ID
19850001758
Acquisition Source
Legacy CDMS
Document Type
Technical Publication (TP)
Authors
Radhakrishnan, K.
(NASA Lewis Research Center Cleveland, OH, United States)
Date Acquired
September 5, 2013
Publication Date
October 1, 1984
Subject Category
Aircraft Propulsion And Power
Report/Patent Number
E-2149
NASA-TP-2372
NAS 1.60:2372
Accession Number
85N10065
Funding Number(s)
CONTRACT_GRANT: NAG3-294
PROJECT: RTOP 505-31-42
CONTRACT_GRANT: NAG3-147
Distribution Limits
Public
Copyright
Work of the US Gov. Public Use Permitted.
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