Spray–turbulence–chemistry interactions under engine-like conditions
Turbulent multiphase combustion plays an important role in both nature (eg, volcanos and
pool fires) and industry (eg, industrial furnaces, aeroengines, and internal combustion …
pool fires) and industry (eg, industrial furnaces, aeroengines, and internal combustion …
A compact skeletal mechanism for n-dodecane with optimized semi-global low-temperature chemistry for diesel engine simulations
A skeletal mechanism with 54 species and 269 reactions was developed to predict pyrolysis
and oxidation of n-dodecane as a diesel fuel surrogate involving both high-temperature …
and oxidation of n-dodecane as a diesel fuel surrogate involving both high-temperature …
Large eddy simulation of a reacting spray flame with multiple realizations under compression ignition engine conditions
An n-dodecane spray flame (Spray A from Engine Combustion Network) was simulated
using a δ function combustion model along with a dynamic structure large eddy simulation …
using a δ function combustion model along with a dynamic structure large eddy simulation …
Turbulent combustion of sprays: from dilute to dense
AR Masri - Combustion Science and Technology, 2016 - Taylor & Francis
This article presents an overview of the current understanding of the structure of turbulent
sprays flames, both dilute and dense. Dilute sprays are addressed first with respect to recent …
sprays flames, both dilute and dense. Dilute sprays are addressed first with respect to recent …
A multicomponent blend as a diesel fuel surrogate for compression ignition engine applications
A mixture of n-dodecane and m-xylene is investigated as a diesel fuel surrogate for
compression ignition (CI) engine applications. Compared to neat n-dodecane, this binary …
compression ignition (CI) engine applications. Compared to neat n-dodecane, this binary …
[HTML][HTML] Large-eddy simulation of dual-fuel spray ignition at different ambient temperatures
Here, a finite-rate chemistry large-eddy simulation (LES) solver is utilized to investigate dual-
fuel (DF) ignition process of n-dodecane spray injection into a methane–air mixture at …
fuel (DF) ignition process of n-dodecane spray injection into a methane–air mixture at …
Experimental study of the effect of physical and chemical properties of alcohols on the spray combustion characteristics of alcohol-diesel blended fuels
To reveal the effect of different long carbon-chain alcohols blended into diesel on
combustion characteristics and soot emissions under different ambient temperatures, the …
combustion characteristics and soot emissions under different ambient temperatures, the …
An analysis of the structure of an n-dodecane spray flame using TPDF modelling
With a view to understanding ignition and combustion behaviours in diesel engines, this
study investigates several aspects of ignition and combustion of an n-dodecane spray in a …
study investigates several aspects of ignition and combustion of an n-dodecane spray in a …
Influence of the n-dodecane chemical mechanism on the CFD modelling of the diesel-like ECN Spray A flame structure at different ambient conditions
F Payri, JM García-Oliver, R Novella… - Combustion and …, 2019 - Elsevier
Encouraged by the diversity of n-dodecane chemical mechanisms currently available, this
investigation focuses on analysing the impact of using different fuel oxidation schemes on …
investigation focuses on analysing the impact of using different fuel oxidation schemes on …
Regimes of premixed turbulent spontaneous ignition and deflagration under gas-turbine reheat combustion conditions
We address the problem of turbulent spontaneous ignition vs. deflagration propagating
against a mean residence time gradient, particularly relevant to the stabilization of quasi …
against a mean residence time gradient, particularly relevant to the stabilization of quasi …