Keywords: خود اشتعالی یا خودآتشگیری ; Hydrogen; Jet flames; Turbulent combustion; Autoignition;
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Keywords: خود اشتعالی یا خودآتشگیری ; Autoignition; Pressure wave; Detonation; End-gas; Hydrogen/air;
Keywords: خود اشتعالی یا خودآتشگیری ; Gasoline surrogate; Autoignition; Two-stage ignition; Fuel structure; RCM;
Keywords: خود اشتعالی یا خودآتشگیری ; Jet-in-cross-flow; Film-cooling; Diffusion flame; Autoignition; Preferential diffusion
Keywords: خود اشتعالی یا خودآتشگیری ; Unsteady flamelet model; Turbulence-chemistry interaction model; Scalar dissipation rate; Autoignition; Unsteady flame development
Keywords: خود اشتعالی یا خودآتشگیری ; iso-octane; Flame propagation; Autoignition; Spark; Rapid compression facility; Imaging
Keywords: خود اشتعالی یا خودآتشگیری ; Transverse jet; Supersonic crossflow; Shear layer; Autoignition; Flameholding
Keywords: خود اشتعالی یا خودآتشگیری ; Droplet combustion; Autoignition; Nanofluid fuels; Nanoparticles; Aluminum; Kerosene
Keywords: خود اشتعالی یا خودآتشگیری ; Research grade gasoline; Gasoline surrogates; Autoignition; Rapid compression machine; Ignition delays; Low temperature combustion;
Keywords: خود اشتعالی یا خودآتشگیری ; IC engines; Gasoline; Diesel; Autoignition; Preignition;
Keywords: خود اشتعالی یا خودآتشگیری ; Droplet combustion; Autoignition; Nanofluid fuels; Nanoparticles; Aluminium; Heptane
Keywords: خود اشتعالی یا خودآتشگیری ; Turbulent jet ignition; The one-dimensional turbulence model; Autoignition;
Keywords: خود اشتعالی یا خودآتشگیری ; Ethanol; Autoignition; Rapid compression machine
Keywords: خود اشتعالی یا خودآتشگیری ; Spontaneous heating; Dried sludge; Self-heating; Autoignition; Iron/sulphur; Tannery waste
Keywords: خود اشتعالی یا خودآتشگیری ; Diesel combustion; Autoignition; Flame stabilization; Large eddy simulation;
Keywords: خود اشتعالی یا خودآتشگیری ; Turbulent combustion; Nonlinear principal component analysis; Autoignition
Keywords: خود اشتعالی یا خودآتشگیری ; Jet in crossflow; Transverse jet; NOx emissions; Autoignition
Keywords: خود اشتعالی یا خودآتشگیری ; Engine; Spark ignition; Autoignition; Knock; Knock integral method; Detailed chemical kinetics
Keywords: خود اشتعالی یا خودآتشگیری ; ATDC; after top dead centre; CAI; controlled auto ignition; CA10; crank angle of 10% burned mass fraction; CFD; computational fluid dynamics; CI; compression ignition; CMCVs; charge motion control valves; EVC; exhaust valve closing; EVO; exhaust valve ope
Keywords: خود اشتعالی یا خودآتشگیری ; Autoignition; Spray ignition; Biodiesel; Low temperature combustion; Fatty esters;
The use of CO2 as an additive for ignition delay and pollutant control in CH4/air autoignition
Keywords: خود اشتعالی یا خودآتشگیری ; Autoignition; NO; Methane; CSP;
Ignition delay time sensitivity in ignition quality tester (IQT) and its relation to octane sensitivity
Keywords: خود اشتعالی یا خودآتشگیری ; Octane number; Cetane number; Autoignition; Combustion; Ignition delay time; Octane sensitivity;
Autoignition study of binary blends of n-dodecane/1-methylnaphthalene and iso-cetane/1-methylnaphthalene
Keywords: خود اشتعالی یا خودآتشگیری ; Autoignition; n-dodecane; iso-cetane; 1-methylnaphthalene; Diesel surrogates; Rapid compression machine;
Chemical kinetic insights into the ignition dynamics of n-hexane
Keywords: خود اشتعالی یا خودآتشگیری ; CSP; Explosive dynamics; n-hexane; Third sequential O2 addition reactions; Autoignition; Low-temperature oxidation;
Hydrogen shift isomerizations in the kinetics of the second oxidation mechanism of alkane combustion. Reactions of the hydroperoxypentylperoxy OOQOOH radical
Keywords: خود اشتعالی یا خودآتشگیری ; Hydroperoxyalkylperoxy; Autoignition; Quantum chemical calculation; Kinetics;
Multi-environment PDF modeling for n-dodecane spray combustion processes using tabulated chemistry
Keywords: خود اشتعالی یا خودآتشگیری ; Multi-environment probability density function; Flamelet generated manifolds; Diesel spray combustion; Autoignition; Flame liftoff;
Ignition process in a Helmholtz-type valveless self-excited pulse combustor
Keywords: خود اشتعالی یا خودآتشگیری ; Pulse combustion; Ignition process; Valveless self-excited pulse combustor; Autoignition;
Autoignition studies of C5 isomers in a motored engine
Keywords: خود اشتعالی یا خودآتشگیری ; Low temperature oxidation; Autoignition; Pentane isomer; Motored engine;
Doubly conditional moment closure modelling for HCCI with temperature inhomogeneities
Keywords: خود اشتعالی یا خودآتشگیری ; Conditional moment closure; Thermal stratification; Autoignition; HCCI;
LES of Delft Jet-in-Hot Coflow burner to investigate the effect of preferential diffusion on autoignition of CH4/H2 flames
Keywords: خود اشتعالی یا خودآتشگیری ; Turbulent combustion; Large Eddy Simulation; Flamelet Generated Manifolds; Autoignition; Preferential diffusion; Mild combustion;
Relating the octane numbers of fuels to ignition delay times measured in an ignition quality tester (IQT)
Keywords: خود اشتعالی یا خودآتشگیری ; Octane index; Octane numbers; Ignition quality tester; Autoignition; Combustion; Gasoline; Derived cetane number;
Ignition delay time correlation of fuel blends based on Livengood-Wu description
Keywords: خود اشتعالی یا خودآتشگیری ; Ignition delay times; Autoignition; Combustion;
The interactions between IC engine thermodynamics and knock
Keywords: خود اشتعالی یا خودآتشگیری ; IC engines; Thermodynamics; Engine efficiency; Knock; Autoignition;
Turbulence effects on the autoignition of DME in a turbulent co-flowing jet
Keywords: خود اشتعالی یا خودآتشگیری ; Turbulent jet ignition; The one-dimensional turbulence model; Autoignition; DME fuel;
A RANS knock model to predict the statistical occurrence of engine knock
Keywords: خود اشتعالی یا خودآتشگیری ; AI; autoignition; aSOC; After Start of Combustion; aTDC; After Top Dead Centre; BDC; Bottom Dead Centre; bTDC; Before Top Dead Centre; CA; Crank Angle; CCV; cycle-to-cycle variability; CDF; Cumulative Distribution Function; DI; direct injection; DKI; Dime
Flame dynamics in oscillating flows under autoignitive conditions
Keywords: خود اشتعالی یا خودآتشگیری ; Flame dynamics; Nonpremixed coflow flame; Autoignition; Negative temperature coefficient (NTC); Dimethyl ether (DME);
Algorithmic determination of the mechanism through which H2O-dilution affects autoignition dynamics and NO formation in CH4/air mixtures
Keywords: خود اشتعالی یا خودآتشگیری ; Autoignition; NO; Methane; Water dilution; CSP;
Numerical study of laminar nonpremixed methane flames in coflow jets: Autoignited lifted flames with tribrachial edges and MILD combustion at elevated temperatures
Keywords: خود اشتعالی یا خودآتشگیری ; Autoignition; Lifted flame; Tribrachial flame; Mild combustion; Methane
Direct Numerical Simulations of premixed methane flame initiation by pilot n-heptane spray autoignition
Keywords: خود اشتعالی یا خودآتشگیری ; Dual fuel combustion; Autoignition; n-Heptane spray; Premixed methane; Propagation;
LES/PDF modeling of autoignition in a lifted turbulent flame: Analysis of flame sensitivity to differential diffusion and scalar mixing time-scale
Keywords: خود اشتعالی یا خودآتشگیری ; LES/PDF/ISAT simulation; Autoignition; Lifted flame; Differential diffusion; Scalar mixing time-scale
A short mechanism for the low-temperature ignition of n-heptane at high pressures
Keywords: خود اشتعالی یا خودآتشگیری ; Heptane; Chemical mechanism; Autoignition; Low temperature; Modeling
A simplified CMC approach based on tabulated reaction rates applied to a lifted methane-air jet flame
Keywords: خود اشتعالی یا خودآتشگیری ; CMC; Tabulated chemistry; Flamelet; Autoignition;
Chlorine atom-initiated low-temperature oxidation of prenol and isoprenol: The effect of CC double bonds on the peroxy radical chemistry in alcohol oxidation
Keywords: خود اشتعالی یا خودآتشگیری ; Low-temperature oxidation; Autoignition; Alcohols; Resonance stabilization; Peroxy radicals;
Probing the low-temperature chain-branching mechanism of n-butane autoignition chemistry via time-resolved measurements of ketohydroperoxide formation in photolytically initiated n-C4H10 oxidation
Keywords: خود اشتعالی یا خودآتشگیری ; Ketohydroperoxide; n-Butane; Autoignition; Chain branching; Time-resolved;
Stabilization of laminar nonpremixed DME/air coflow flames at elevated temperatures and pressures
Keywords: خود اشتعالی یا خودآتشگیری ; Stabilization; Nonpremixed coflow flame; Autoignition; Negative temperature coefficient (NTC); Dimethyl ether (DME)
LES of knocking in engines using dual heat transfer and two-step reduced schemes
Keywords: خود اشتعالی یا خودآتشگیری ; LES; Knock; Autoignition; Internal combustion engine; Heat transfert;
Combustion regime classification of HCCI/PCCI combustion using Lagrangian fluid particle tracking
Keywords: خود اشتعالی یا خودآتشگیری ; HCCI/PCCI; Autoignition; Direct numerical simulation; Combustion regime classification;
Autoignition-affected stabilization of laminar nonpremixed DME/air coflow flames
Keywords: خود اشتعالی یا خودآتشگیری ; Stabilization; Nonpremixed coflow flame; Autoignition; Negative temperature coefficient (NTC); Dimethyl ether (DME);
Supersonic reaction front propagation initiated by a hot spot in n-heptane/air mixture with multistage ignition
Keywords: خود اشتعالی یا خودآتشگیری ; Autoignition; Detonation; Hot spot; n-Heptane; Multistage ignition;
3D DNS of MILD combustion: A detailed analysis of heat loss effects, preferential diffusion, and flame formation mechanisms
Keywords: خود اشتعالی یا خودآتشگیری ; Direct numerical simulation (DNS); Moderate or intense low-oxygen dilution (MILD); Turbulent non-premixed combustion; Preferential diffusion; Autoignition; Jet in hot coflow (JHC);