Accelerating multi-dimensional combustion simulations using GPU and hybrid explicit/implicit ODE integration
Simulating multi-dimensional combustion with detailed kinetics often requires solving a
large number of ordinary differential equation (ODE) problems at each global time step. In …
large number of ordinary differential equation (ODE) problems at each global time step. In …
ERENA: A fast and robust Jacobian-free integration method for ordinary differential equations of chemical kinetics
We herein propose a fast and robust Jacobian-free time integration method named as the
extended robustness-enhanced numerical algorithm (ERENA) to treat the stiff ordinary …
extended robustness-enhanced numerical algorithm (ERENA) to treat the stiff ordinary …
Optimization of one-parameter family of integration formulae for solving stiff chemical-kinetic ODEs
A fast and robust Jacobian-free time-integration method—called Minimum-error Adaptation
of a Chemical-Kinetic ODE Solver (MACKS)—for solving stiff ODEs pertaining to chemical …
of a Chemical-Kinetic ODE Solver (MACKS)—for solving stiff ODEs pertaining to chemical …
A numerical study on detailed soot formation processes in diesel combustion
B Zhou, A Kikusato, K Jin, Y Daisho, K Sato… - … International Journal of …, 2014 - JSTOR
This study simulates soot formation processes in diesel combustion using a large eddy
simulation (LES) model, based on a one-equation subgrid turbulent kinetic energy model …
simulation (LES) model, based on a one-equation subgrid turbulent kinetic energy model …
A numerical study on predicting combustion chamber wall surface temperature distributions in a diesel engine and their effects on combustion, emission and heat loss …
A Kikusato, J Kusaka, Y Daisho - 2015 - sae.org
A three-dimensional computational fluid dynamics (3D-CFD) code was combined with a
detailed combustion chamber heat transfer model. The established model allowed not only …
detailed combustion chamber heat transfer model. The established model allowed not only …
A robust multi-time scale method for stiff combustion chemistry
ABSTRACT A robust explicit time integration method for stiff chemical reaction equations is
proposed and applied to zero-dimensional ignition and one-dimensional combustion flow …
proposed and applied to zero-dimensional ignition and one-dimensional combustion flow …
A heterogeneous multiscale method for stiff combustion chemistry integration in reactive flows
The concept of heterogeneous multiscale method (HMM) is applied into combustion
chemistry integration in reactive flows in this study. It adopts a macro solver to integrate the …
chemistry integration in reactive flows in this study. It adopts a macro solver to integrate the …
Numerical investigation of combustion process in reactivity controlled compression ignition (RCCI) engine
D Zhou - 2017 - search.proquest.com
The reactivity controlled compression ignition (RCCI) engine concept is attractive due to its
high efficiency and low emissions over a wide range of operating conditions. However, due …
high efficiency and low emissions over a wide range of operating conditions. However, due …
О решении систем уравнений химической кинетики явными методами
АМ Липанов, АА Болкисев - Сибирский журнал индустриальной …, 2014 - mathnet.ru
Представлены варианты методов решения систем дифференциальных уравнений
химической кинетики, основанных на приближениях квазистационарного состояния и …
химической кинетики, основанных на приближениях квазистационарного состояния и …
Prediction of Soot Mass and Particle Size in a High-boosted Diesel Engine using Large Eddy Simulation
Z Beini, M Nakatsuka, J Wu, J Kusaka - 2021 - sae.org
Soot mass production was investigated in high-boosted diesel engine tests by changing
various operating parameters. A mixed timescale subgrid model of large eddy simulation …
various operating parameters. A mixed timescale subgrid model of large eddy simulation …