Keywords: زمان تأخیر جابجایی; Ethanol; Detailed kinetics mechanism; Shock tube; Ignition delay time; Laminar flame speed;
مقالات ISI زمان تأخیر جابجایی (ترجمه نشده)
مقالات زیر هنوز به فارسی ترجمه نشده اند.
در صورتی که به ترجمه آماده هر یک از مقالات زیر نیاز داشته باشید، می توانید سفارش دهید تا مترجمان با تجربه این مجموعه در اسرع وقت آن را برای شما ترجمه نمایند.
در صورتی که به ترجمه آماده هر یک از مقالات زیر نیاز داشته باشید، می توانید سفارش دهید تا مترجمان با تجربه این مجموعه در اسرع وقت آن را برای شما ترجمه نمایند.
Keywords: زمان تأخیر جابجایی; Laminar flame speed; Ignition delay time; Reaction order; Sensitivity analysis; Elevated pressures and temperatures; Correlation;
Keywords: زمان تأخیر جابجایی; Ignition delay time; Oxidation; Shock tube; Rapid compression machine; Diethyl carbonate; Jet-stirred reactor
Keywords: زمان تأخیر جابجایی; Shock tube; Biomass synthesis gas; Ignition delay time; Sensitivity analysis; Reaction pathway analysis;
Keywords: زمان تأخیر جابجایی; Ethylamine; NH2 time-history; OH time-history; Ignition delay time
Keywords: زمان تأخیر جابجایی; Diesel; Hydroprocessed fuels; Ignition delay time; Shock tube;
Keywords: زمان تأخیر جابجایی; Aerosol shock tube; Very-low-vapor-pressure; Biodiesel surrogate; Fatty Acid Methyl Ester (FAME); Ignition delay time;
Keywords: زمان تأخیر جابجایی; Hydrogen enriched combustion; Ignition delay time; Laminar flame speed; Flame front stability; Pollutant emission;
Keywords: زمان تأخیر جابجایی; Cetane number (CN); Aromatic content; 90% Distillation temperature (T90); Ignition delay time; Low-temperature diesel combustion (LTC);
Keywords: زمان تأخیر جابجایی; Ignition delay time; Hydrogen; Shock tube; Chemical kinetics
A simplified chemical reaction mechanism for two-component RP-3 kerosene surrogate fuel and its verification
Keywords: زمان تأخیر جابجایی; Two-component surrogate fuel; Simplified mechanism; Ignition delay time; Bunsen burner; RP-3 kerosene;
Ignition delay time sensitivity in ignition quality tester (IQT) and its relation to octane sensitivity
Keywords: زمان تأخیر جابجایی; Octane number; Cetane number; Autoignition; Combustion; Ignition delay time; Octane sensitivity;
Theory of first-stage ignition delay in hydrocarbon NTC chemistry
Keywords: زمان تأخیر جابجایی; Hydrocarbon; Low temperature chemistry; First-stage ignition; Ignition delay time;
Effects of hydrogen peroxide addition on combustion characteristics of n-decane/air mixtures
Keywords: زمان تأخیر جابجایی; Hydrogen peroxide addition; n-Decane; Ignition delay time; Laminar flame speed; Extinction limit; Emissions;
Predicting ignition delay times of C1-C3 alkanes/hydrogen blends at gas engine conditions
Keywords: زمان تأخیر جابجایی; Gas engines; Gas turbines; Correlation; Blends; Hydrogen; Natural gas; Ignition delay time;
A composite-fuel additive design method for n-decane low-temperature ignition enhancement
Keywords: زمان تأخیر جابجایی; Liquid hydrocarbon; Composite fuel additive; Design method; Droplet; Ignition temperature; Ignition delay time;
A rapid compression machine study of autoignition, spark-ignition and flame propagation characteristics of H2/CH4/CO/air mixtures
Keywords: زمان تأخیر جابجایی; Natural gas; Dedicated-EGR; Hydrogen; Ignition delay time; Flame speed; Rapid compression machine;
Ignition delay times of decalin over low-to-intermediate temperature ranges: Rapid compression machine measurement and modeling study
Keywords: زمان تأخیر جابجایی; Decalin; Ignition delay time; Rapid compression machine; NTC behavior; Mechanism simulation;
Experimental and modeling study on the effects of dimethyl methylphosphonate (DMMP) addition on H2, CH4, and C2H4 ignition
Keywords: زمان تأخیر جابجایی; DMMP; Sarin surrogate; Fire suppressant; Ignition delay time; Shock tube;
Ignition delay times of Jet A-1 fuel: Measurements in a high-pressure shock tube and a rapid compression machine
Keywords: زمان تأخیر جابجایی; Jet fuel; Rapid compression machine; Shock tube; Ignition delay time; Fuel surrogate;
Shock-tube water time-histories and ignition delay time measurements for H2S near atmospheric pressure
Keywords: زمان تأخیر جابجایی; Shock tube; H2S; Ignition delay time; Water; Laser absorption;
High temperature ignition delay time of DME/n-pentane mixture under fuel lean condition
Keywords: زمان تأخیر جابجایی; DME; n-Pentane; Fuel blends; Ignition delay time; Chemical kinetic;
Measurements and interpretation of shock tube ignition delay times in highly CO2 diluted mixtures using multiple diagnostics
Keywords: زمان تأخیر جابجایی; CO2; Shock tube; Bifurcation; Ignition delay time; Chemical kinetics;
Shock tube measurement and simulation of DME/n-butane/air mixtures: Effect of blending in the NTC region
Keywords: زمان تأخیر جابجایی; DME; n-Butane; Binary fuel; Ignition delay time; Chemical kinetic;
Comparative study on chemical kinetic schemes for dual-fuel combustion of n-dodecane/methane blends
Keywords: زمان تأخیر جابجایی; Dual-fuel n-dodecane/methane; RCCI; Ignition delay time; Chemical mechanisms; Laminar flame speed; Mechanism comparison;
Development of a two-part n-heptane oxidation mechanism for two stage combustion process in internal combustion engines
Keywords: زمان تأخیر جابجایی; n-Heptane mechanism; Two-part mechanism; Ignition delay time; Low temperature combustion; Diesel engine;
Ignition delay times of single kerosene droplets based on formaldehyde LIF detection
Keywords: زمان تأخیر جابجایی; Droplet ignition; Ignition delay time; GTL kerosene; Formaldehyde; Laser-induced fluorescence
Relationship between ignition delay time and cell size of H2-Air detonation
Keywords: زمان تأخیر جابجایی; H2-air detonation; Chemical reaction kinetics; Ignition delay time; Triple-shock point;
Autoignition study of ULSD#2 and FD9A diesel blends
Keywords: زمان تأخیر جابجایی; Diesel; ULSD#2 diesel; FD9A diesel; Rapid compression machine; Ignition delay time; Low temperature combustion
Towards a kinetic understanding of the NOx promoting-effect on ignition of coalbed methane: A case study of methane/nitrogen dioxide mixtures
Keywords: زمان تأخیر جابجایی; Shock tube; CH4; NO2; Ignition delay time; Kinetic model
An ignition delay time and kinetic study of 2-methyltetrahydrofuran at high temperatures
Keywords: زمان تأخیر جابجایی; Ignition delay time; 2-Methyltetrahydrofuran; Kinetic model;
Construction of one-step H2/O2 reaction mechanism for predicting ignition and its application in simulation of supersonic combustion
Keywords: زمان تأخیر جابجایی; One-step mechanism; Ignition delay time; Hydrogen combustion; Supersonic mixing layer; CFD;
Interpretation of auto-ignition delays from RCM in the presence of temperature heterogeneities: Impact on combustion regimes and negative temperature coefficient behavior
Keywords: زمان تأخیر جابجایی; RCM; Ignition delay time; Auto-ignition; n-Hexane; Methyl-cyclohexane; Reaction fronts propagation;
Ignition delay times and chemical kinetics of diethoxymethane/O2/Ar mixtures
Keywords: زمان تأخیر جابجایی; Diethoxymethane; Shock tube; Ignition delay time; Kinetic mechanism;
A shock tube study of the autoignition characteristics of RP-3 jet fuel
Keywords: زمان تأخیر جابجایی; RP-3 jet fuel; Heated shock tube; Ignition delay time; Surrogate;
Ignition delay time measurements behind reflected shock-waves for a representative coal-derived syngas with and without NH3 and H2S impurities
Keywords: زمان تأخیر جابجایی; Syngas; Coal; Ignition delay time; Shock-tube; High pressure;
Experimental study of the effect of CF3I addition on the ignition delay time and laminar flame speed of methane, ethylene, and propane
Keywords: زمان تأخیر جابجایی; Halon 13001; Ignition delay time; Laminar flame speed; Kinetic;
Ignition and combustion characteristics of various biodiesel fuels (BDFs)
Keywords: زمان تأخیر جابجایی; Biodiesel fuel; Diesel oil; Constant-volume vessel; Ignition delay time; Heat release rate;
Constrained reaction volume shock tube study of n-heptane oxidation: Ignition delay times and time-histories of multiple species and temperature
Keywords: زمان تأخیر جابجایی; Constrained reaction volume; Ignition delay time; Species time-history; Temperature time-history; n-Heptane;
Shock tube and modeling study of 2,7-dimethyloctane pyrolysis and oxidation
Keywords: زمان تأخیر جابجایی; 2,7-Dimethyloctane; Ignition delay time; NTC region; Fuel time-history; Ethylene time-history;
An experimental and kinetic modeling study of n-hexane oxidation
Keywords: زمان تأخیر جابجایی; n-hexane; Oxidation; Shock tube; Rapid compression machine; Ignition delay time;
Experimental and modeling study on the high-temperature oxidation of Ammonia and related NOx chemistry
Keywords: زمان تأخیر جابجایی; Ammonia; Ignition delay time; Shock tube; High pressure; Detailed kinetics modeling
Shock-induced ignition of methane sensitized by NO2 and N2O
Keywords: زمان تأخیر جابجایی; Ignition delay time; High pressure; NOx; Detailed kinetics modeling
An experimental and kinetic modeling study of the pyrolysis and oxidation of n-C3C5 aldehydes in shock tubes
Keywords: زمان تأخیر جابجایی; Aldehydes; Shock tube; Kinetic modeling; Ignition delay time; Pyrolysis
Shock tube measurements of branched alkane ignition delay times
Keywords: زمان تأخیر جابجایی; Branched alkanes; Ignition delay time; Shock tube; Structure effects;
Effects of buffer gas composition on low temperature ignition of iso-octane and n-heptane
Keywords: زمان تأخیر جابجایی; Buffer gas; Ignition delay time; Rapid compression machine; Iso-octane; n-Heptane
Shock tube and kinetic study of C2H6/H2/O2/Ar mixtures at elevated pressures
Keywords: زمان تأخیر جابجایی; Ignition delay time; Ethane; Hydrogen; Shock tube; Chemical kinetics;
Experimental and kinetic study on ignition delay times of DME/H2/O2/Ar mixtures
Keywords: زمان تأخیر جابجایی; Ignition delay time; Hydrogen blending ratio; Shock tube; Non-linear effect; Chemical kinetics
Effects of H2S addition on hydrogen ignition behind reflected shock waves: Experiments and modeling
Keywords: زمان تأخیر جابجایی; H2S; Hydrogen; Ignition delay time; Shock tube; High pressure
Chemical kinetics modeling of n-nonane oxidation in oxygen/argon using excited-state species time histories
Keywords: زمان تأخیر جابجایی; OH* time histories; Chemical kinetics modeling; Shock tube; n-Nonane; Ignition delay time