Introduction: Low Mach number combustion / G. S. Ludford S.Part 1: |
The mathematical background of chemical reactor analysis II |
The stirred tank / R. Aris |
High Mach number combustion / A. Majda |
Numerical calculation of the interaction of pressure waves / H. A. Dwyer ; A. Lutz ; R. J. Kee |
Computational methods in turbulent reacting flow / A. F. Ghoniem |
Combustion: Flame resonance and acoustics in the presence of heat loss / A. C. McIntosh |
The asymptotic analysis of ignition events with detailed kinetics / D. W. Mikolaitis |
Thermal expansion effects on perturbed premixed flames: a review / T. L. Jackson ; A. K. Kapila |
Modeling end-gas knock in a rapid-compression machine: review and extension / F. J. Higuera ; A. Linan |
Two asymptotic models for solid propellant combustion / S. B. Margolis ; R. C. Armstrong |
Plane shock initiation of homogeneous and heterogeneous condensed phase |
Explosives with a sensitive rate / D. S. Stewart |
The structure and stability of plane detonation waves for large activation energy / J. D. Buckmaster |
Stability theory for shocks in reacting media: Mach stems in detonation waves / R. R. Rosales |
Roles of perturbation methods for turbulent diffusion flame / F. A. Williams |
The lifting of turbulent diffusion flames and the noise they make / J. Buckmaster ; N. Peters |
Chemical reactors: Stability and Hopf bifurcation in isothermal catalysts / J. M. Vega ; I. E. ParraPart 2: |
Propagation of reaction fronts in exothermic heterogeneous noncatalytic systems solid-solid and solid-gas / J. Puszynski ; J. Degreve ; S. Kumar ; V. Hlavacek |
Optimal catalyst activity profiles in pellets / A. Varma |
Polymerization reactions in closed and open systems / T. A. Bak ; L. Binglin |
Periodic and aperiodic regimes in linear and cyclic arrays of coupled reaction-diffusion cells / R. Raschman ; I. Schreiber ; M. Marek |
Dynamic behavior of continuous stirred-tank reactors with extraneous thermal capacitance / J. B. Planeaux ; K. F. Jensen ; W. W. Farr |
Steady-state multiplicity features of open chemically reacting systems / V. Balakotaiah |
Global bifurcations in simple models of a chemical reactor / J. Guckenheimer |
Methods of singularity theory in the analysis of dynamics of reactive systems / L. M. Pismen |
Mathematical questions: Solution profiles and thermal runaway / J. Bebernes ; D. Kassoy |
Premixed laminar flames as travelling waves / D. H. Wagner |
Mathematical study of a model with no ignition temperature for laminar plane flames / M. Marion |
Well-posedness of the nonlinear equations for zero Mach number combustion / P. Embid |
Flame structure for reaction networks with chain branching and recombination / P. C. Fife ; B. Nicolaenko |
The use of symmetry and bifurcation techniques in studying flame stability / B. L. Keyfitz ; M. Golubitsky ; M. Gorman ; P. Chosset |
Mathematical analysis of tubular reactors / R. Alexander |
Oscillating chemical reactions: the well-stirred and spatially distributed class / G. C. Wake ; J. G. Graham-Eagle ; B. F. Gray |
A systematic derivation of the constitutive properties of mixtures of viscous-heat conducting fluids / I. Muller |
Computational question: Calculation of extinction limits for premixed laminar flames in a stagnation point flow / V. Giovangigli ; M. D. Smooke |
Contribution to the numerical analysis of laminar stationary flames / M. Sermange |
Adaptive numerical methods for unsteady flame propagation / B. Larrouturou |
Using computers to answer fundamental questions in combustion theory: an example from droplet combustion / R. D. Janssen ; P. J. O'Rourke |
actional step methods for reacting shock waves / P. Colella ; V. Roytburd |
Modelling and computation of deflagration-to-detonation transition (DDT) in reactive granular materials / M. R. Baer ; R. E. Benner ; R. J. Gross ; J. W. Nunziato |
On determining important aspects of combustion kinetics modelling with sensitivity analysis / H. Rabitz |
Singular perturbation for stiff equations using numerical computations / S. H. Lam |
Introduction: Low Mach number combustion / G. S. Ludford S.Part 1: |
The mathematical background of chemical reactor analysis II |
The stirred tank / R. Aris |