Keywords: لوله شوک; Methane-n-heptane mixtures; Ignition delay time; Shock tube; Chemical kinetics;
مقالات ISI لوله شوک (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: لوله شوک; Methylcyclohexane; Pyrolysis; Shock tube; High pressure; High temperature;
Keywords: لوله شوک; Ignition delay time; Sooting index; Shock tube; Aviation jet fuel; Bio-jet fuel;
Keywords: لوله شوک; Shock tube; Mild ignition; Boundary layer instability; Transient flow;
Keywords: لوله شوک; Ignition delay; Sprays; Shock tube; Jet fuels; Diesel fuels; Derived cetane number (DCN);
Keywords: لوله شوک; Farnesane; Biofuel; Ignition delay time; Laminar flame speed; Shock tube; Reaction modeling;
Keywords: لوله شوک; Polyurea; Concrete; Dynamic glass transition; Blast mitigation; Shock tube;
Keywords: لوله شوک; Laser absorption; Gas chromatography; Shock tube; Ethylene pyrolysis;
Keywords: لوله شوک; Naphtha; Gasoline compression ignition engine; Shock tube; Rapid compression machine; Autoignition;
Keywords: لوله شوک; Droplet breakup; Critical We number; VOF simulations; CAJ; Continuous Air Jet; R-T; Rayleigh-Taylor; ST; Shock tube; TFR; Total Force Ratio; VOF; Volume of Fluid;
Keywords: لوله شوک; Preignition; Ethanol; Shock tube; High-speed imaging; Ignition delay times;
Keywords: لوله شوک; Ignition delay time; Methane; Ethylene; Propene; Shock tube; High pressure;
Keywords: لوله شوک; Cyclohexanone; Biofuel; Shock tube; Ignition delay time; Chemical kinetics;
Keywords: لوله شوک; Shock tube; Blast loading; Concrete slabs; Digital image correlation; Numerical simulations;
Keywords: لوله شوک; Shock tube; Diethyl ether; Ignition delay; High pressure; NTC; Oblique scaling;
Keywords: لوله شوک; Shock tube; Rapid compression machine; Dimethyl carbonate; Oxidation; Kinetic model;
Keywords: لوله شوک; 1,3-butadiene oxidation; Shock tube; Rapid compression machine; Chemical kinetic modeling; Flame speed; Ab initio calculations;
Keywords: لوله شوک; 2-Methylfuran; n-Heptane; Shock tube; Rapid compression machine; Ignition delay; Kinetic model;
Keywords: لوله شوک; Air-blast; Shock tube; Sand;
Keywords: لوله شوک; Ignition delay time; Shock tube; Jet fuel; Rocket propellant; Diesel; Gasoline;
Keywords: لوله شوک; Heat flux measurement; Thermocouple; Response characteristics; Shock tube;
Keywords: لوله شوک; 2,4,4-Trimethyl-1-pentene; Shock tube; Ignition delay time; Chemical kinetic model; Sensitivity analysis;
Keywords: لوله شوک; n-Nonane; Ignition delay time; Negative temperature coefficient; Shock tube;
Keywords: لوله شوک; Soot; Acetylene; Shock tube; Laser absorption; Scattering;
Keywords: لوله شوک; Trans-2-butene; Shock tube; Rapid compression machine; Chemical kinetics; Ignition delay time;
Keywords: لوله شوک; Shock tube; Reflected shock wave; Boundary layer separation; Contact surface; Shock train;
Keywords: لوله شوک; Supersonic flow; Shock tube; Boundary layer; CFD; High-performance computing; Parallel algorithm; Speedup;
Keywords: لوله شوک; Shock tube; Rapid compression machine; Laminar flame speeds; 2-Butyltetrahydrofuran;
Keywords: لوله شوک; Methyl propanoate decomposition; Ab initio calculations; Shock tube; Chemical kinetics;
Keywords: لوله شوک; Primary reference fuel; N-heptane; Iso-octane; Ignition delay times; Shock tube;
Keywords: لوله شوک; Chemical kinetics; Shock tube; Bayesian inference; Rate parameters; Surrogate model; Uncertainty quantification;
Keywords: لوله شوک; Low-temperature oxidation; 2-butanone; Molecular-beam mass spectrometry; Rapid compression machine; Shock tube; Kinetic modeling;
Keywords: لوله شوک; Shock tube; n-Heptane; Laser absorption; Fuel rich; Chemical kinetics;
Keywords: لوله شوک; Cyclopentane; Ignition delay; Shock tube; Rapid compression machine; Kinetic modeling;
Keywords: لوله شوک; Oxygenated gasoline; Ignition delay times; Ethanol; Shock tube; Rapid compression machine;
Keywords: لوله شوک; Alternative jet fuels; Surrogates; Ignition delay time; Shock tube;
Keywords: لوله شوک; 1-Butene; Shock tube; Rapid compression machine; Chemical kinetics; Ignition delay time;
Keywords: لوله شوک; Shock tube; Shock wave; Particle wall; Shock attenuation; Particle cloud; Compressible gas-particle flow;
Keywords: لوله شوک; Hydroxyl radical; Furan; 2-Methyl furan; 2,5-Dimethyl furan; Shock tube; Laser absorption;
Keywords: لوله شوک; Shock tube; Ignition delay time; Fatty Acid Methyl Ester (FAME); Biodiesel surrogate; Correlation
Keywords: لوله شوک; Dynamic calibration; Shock tube; Pressure sensor
Keywords: لوله شوک; Gasoline surrogate; TRF; Shock tube; Ignition delay; Detailed chemical kinetics
Keywords: لوله شوک; Sandwich panel; Hybrid evolutionary algorithm; Blast loading; Corrugated steel core; Polymer foam infill; Shock tube;
Keywords: لوله شوک; Shock tube; Ignition delay time; Laser absorption; oxy-Methane; CH4 concentration;
Keywords: لوله شوک; Dynamic fluid flow; Pore pressure wave; Shock tube; Waterhammer; Wave propagation
Keywords: لوله شوک; Nitromethane; Ignition delay time; L9 Taguchi array; Detailed kinetics modeling; Shock tube;
Keywords: لوله شوک; Shock tube; Rapid compression machine; Kinetic modeling; Alkane; Pentane;
Keywords: لوله شوک; Isobutene oxidation; Shock tube; Rapid compression machine; Chemical kinetics; Flame speed; Ab initio;
Keywords: لوله شوک; Dust explosion hazards; Limestone moisture content; Coal-limestone mixture; Dust layer; Shock tube; High-speed imaging;
Keywords: لوله شوک; Ethyl propionate; Shock tube; Unimolecular decomposition; Retro-ene elimination;