Related references
Note: Only part of the references are listed.Acceleration of the chemistry solver for modeling DI engine combustion using dynamic adaptive chemistry (DAC) schemes
Yu Shi et al.
COMBUSTION THEORY AND MODELLING (2010)
Mixing models for the two-way-coupling of CFD codes and zero-dimensional multi-zone codes to model HCCI combustion
H. Barths et al.
COMBUSTION AND FLAME (2009)
An adaptive multi-grid chemistry (AMC) model for efficient simulation of HCCI and DI engine combustion
Yu Shi et al.
COMBUSTION THEORY AND MODELLING (2009)
An Interactively Coupled CFD-Multi-Zone Approach to Model HCCI Combustion
C. Felsch et al.
FLOW TURBULENCE AND COMBUSTION (2009)
Progress and recent trends in homogeneous charge compression ignition (HCCI) engines
Mingfa Yao et al.
PROGRESS IN ENERGY AND COMBUSTION SCIENCE (2009)
Structure of a spatially developing turbulent lean methane-air Bunsen flame
Ramanan Sankaran et al.
PROCEEDINGS OF THE COMBUSTION INSTITUTE (2007)
Laminar burning velocities of lean hydrogen-air mixtures at pressures up to 1.0 MPa
D. Bradley et al.
COMBUSTION AND FLAME (2007)
Direct numerical simulation of ignition front propagation in a constant volume with temperature inhomogeneities -: II.: Parametric study
ER Hawkes et al.
COMBUSTION AND FLAME (2006)
A comprehensive modeling study of hydrogen oxidation
M O Conaire et al.
INTERNATIONAL JOURNAL OF CHEMICAL KINETICS (2004)
A technique of treating negative weights in WENO schemes
J Shi et al.
JOURNAL OF COMPUTATIONAL PHYSICS (2002)
High-order Cartesian grid method for calculation of incompressible turbulent flows
J Gullbrand et al.
INTERNATIONAL JOURNAL FOR NUMERICAL METHODS IN FLUIDS (2001)
Numerical simulation of laminar reacting flows with complex chemistry
MS Day et al.
COMBUSTION THEORY AND MODELLING (2000)