Advanced research on internal combustion engines and engine fuels
Internal combustion (IC) engines serve as power devices that are widely applied in the fields
of transport, engineering machinery, stationary power generation, etc., and are evolving …
of transport, engineering machinery, stationary power generation, etc., and are evolving …
Modeling and LES of high-pressure liquid injection under evaporating and non-evaporating conditions by a real fluid model and surface density approach
H Gaballa, C Habchi, JC de Hemptinne - International Journal of …, 2023 - Elsevier
Numerical modeling of high-pressure liquid fuel injection remains a challenge in various
applications. Indeed, experimental observations have shown that injected liquid fuel jet …
applications. Indeed, experimental observations have shown that injected liquid fuel jet …
A numerical study of the effect of nozzle diameter on diesel combustion ignition and flame stabilization
JM Desantes, JM Garcia-Oliver… - … Journal of Engine …, 2020 - journals.sagepub.com
The role of nozzle diameter on diesel combustion is studied by performing computational
fluid dynamics calculations of Spray A and Spray D from the Engine Combustion Network …
fluid dynamics calculations of Spray A and Spray D from the Engine Combustion Network …
Thermodynamic modeling of trans/supercritical fuel sprays in internal combustion engines based on a generalized cubic equation of state
H Zhu, M Battistoni, BM Ningegowda… - Fuel, 2022 - Elsevier
Abstract Redlich-Kwong-Peng-Robinson (RK-PR) was developed in recent years as a
promising generalized cubic equation of state (EoS) to allow for a good representation of …
promising generalized cubic equation of state (EoS) to allow for a good representation of …
Artificial neural network models for phase equilibrium predictions under engine trans/supercritical spray conditions
Engine spray models based on phase equilibrium have made great progress in simulating
trans/supercritical engine spray processes, but there are inherent weaknesses in terms of …
trans/supercritical engine spray processes, but there are inherent weaknesses in terms of …
Numerical investigation of radiative heat transfer in internal combustion engines
The importance of radiative heat transfer in internal combustion engines is studied using
Computational Fluid Dynamics (CFD) simulations. The Discrete Ordinates Method (DOM) is …
Computational Fluid Dynamics (CFD) simulations. The Discrete Ordinates Method (DOM) is …
Examination of diesel spray combustion in supercritical ambient fluid using large-eddy simulations
High-pressure conditions in diesel engines can often surpass the thermodynamic critical
limit of the working fluid. Consequently, the injection of fuel at these conditions can lead to …
limit of the working fluid. Consequently, the injection of fuel at these conditions can lead to …
Nozzle effects on spray combustion and emissions in compression ignition engines using waste cooking oil biodiesel: A computational fluid dynamics analysis at …
This study investigates the spray combustion characteristics of waste cooking oil (WCO) in
comparison between a swirl nozzle (SN) and a conventional nozzle (CN) of equal cross …
comparison between a swirl nozzle (SN) and a conventional nozzle (CN) of equal cross …
Phase change in fuel sprays at diesel engine ambient conditions: Impact of fuel physical properties
In mixing controlled Diesel combustion concept, mixing processes are a key phenomenon
that significantly effects power, efficiency and emissions. A consequence of fuel-air-mixing is …
that significantly effects power, efficiency and emissions. A consequence of fuel-air-mixing is …
Evaluations of the KH-RT breakup and dynamic structure SGS models for evaporating sprays under diesel engine-like conditions
ABSTRACT The KH-RT (Kelvin-Helholtz-Rayleigh-Taylor) breakup and dynamic structure
subgrid-scale (DS SGS) models have been widely utilized to predict the spray evolutions in …
subgrid-scale (DS SGS) models have been widely utilized to predict the spray evolutions in …