Keywords: احتراق مضر; Dual fuel; Turbulent combustion; Sprays; Heptane; Methane; Gas turbine; IRZ; inner recirculation zone; ORZ; outer recirculation zone; PDF; probability density function;
مقالات ISI احتراق مضر (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: احتراق مضر; Dynamic adaptive combustion model; Chemical explosive mode analysis; Turbulent combustion; Large eddy simulation; Lifted diesel spray flame; n-dodecane;
Keywords: احتراق مضر; Longitudinal combustion instability; Liquid rocket engine; Turbulent combustion; Compressible flamelet progress variable; Detached eddy simulation;
Keywords: احتراق مضر; Slot burner; Turbulent combustion; Gaseous fuels; Inhomogeneous mixtures; OH-PLIF; C2Hx-PLIF;
Keywords: احتراق مضر; Natural gas; Lean burn combustion; Turbulent combustion; Stratified charge combustion; LES combustion modeling; LES injection modeling;
Keywords: احتراق مضر; Diesel engine; Eulerian Stochastic Field; Probability density function; Spray flame; Turbulent combustion;
Keywords: احتراق مضر; Turbulent combustion; Direct numerical simulation; PLIF; Laser diagnostics; Heat release rate measurement;
Keywords: احتراق مضر; Conditional Source-Term Estimation; Conditional Moment Closure; Turbulent combustion; Numerical simulation;
Control of methane flame properties by hydrogen fuel addition: Application to power plant combustion chamber
Keywords: احتراق مضر; Turbulent combustion; Hydrogen/methane flame; Power plant burner; Computational fluid computational;
Keywords: احتراق مضر; Bioethanol distillation; Aqueous ethanol; Pollutant emission; Swirl burner; Emission standard; Turbulent combustion;
Keywords: احتراق مضر; Plasma-assisted combustion; Large eddy simulations; Laser-induced fluorescence; Turbulent combustion;
Keywords: احتراق مضر; Intermittency; Turbulent combustion; Flame dynamics; Reactive; Flow dynamics;
Keywords: احتراق مضر; Detailed numerical simulation; Turbulent combustion; Flame stretch; Markstein number; OpenFOAM;
Keywords: احتراق مضر; Spray jets; Spray flames; Turbulent combustion; Atomization; Droplet dynamics;
Keywords: احتراق مضر; Pintle injector; Liquid rocket engine; Numerical simulation; Turbulent combustion; Combustion characteristics;
Keywords: احتراق مضر; Liquid rocket engine; Turbulent combustion; Regenerative cooling; Thrust chamber; Injector recess; Heat transfer;
Keywords: احتراق مضر; Turbulent combustion; Large eddy simulation; Second-order moment closure; Sandia flame D; Swirling non-premixed flame;
Large eddy simulation of reacting flow in a hydrogen jet into supersonic cross-flow combustor with an inlet compression ramp
Keywords: احتراق مضر; Large eddy simulation; Turbulent combustion; Hydrogen jet in supersonic cross-flow; Supersonic combustion; Flame structure;
Keywords: احتراق مضر; Turbulent combustion; Partially premixed combustion; Inhomogeneous jet; Large-eddy simulation;
Keywords: احتراق مضر; Turbulent combustion; Lean stratified combustion; Co-annular bluff body burner; Laser Doppler anemometry; Particle image velocimetry; Velocity field;
Keywords: احتراق مضر; Multiple mapping conditioning; PDF mixing model; Turbulent combustion;
Keywords: احتراق مضر; Turbulent combustion; RANS; Reynolds stress; Jet-stirred reactor; Fan-stirred reactor;
Keywords: احتراق مضر; Turbulent combustion; Premixed flames; Numerical simulations;
Keywords: احتراق مضر; Explosion; Dynamic modeling; Turbulent combustion; Large eddy simulation; Thickened flame model;
Keywords: احتراق مضر; Turbulent combustion; Flamelet analysis; Curvature effects; In-situ trajectory tracking;
Keywords: احتراق مضر; Large-eddy simulation; Turbulent combustion; Deconvolution; Regularization; Partially-premixed combustion;
Keywords: احتراق مضر; Combustion mode; Laminar flamelet model; Menter's SST k-Ï model; Scramjet; Turbulent combustion;
Keywords: احتراق مضر; Turbulent combustion; Turbulent jet ignition; Rapid compression machine; LES;
Keywords: احتراق مضر; Turbulent combustion; Direct numerical simulation; Tabulated chemistry; Premixed flames; Stratified flames;
Keywords: احتراق مضر; Reduced chemistry; Genetic algorithm; Numerical simulation; Turbulent combustion;
Keywords: احتراق مضر; Interpolation; Turbulent combustion; Premixed flame; Spatial resolution; Large eddy simulation;
Keywords: احتراق مضر; Turbulent combustion; High-speed flow; Supersonic combustion; Distributed reaction; Computational fluid dynamics;
Keywords: احتراق مضر; Drift term; Pareto-efficient combustion framework; Combustion modeling; Turbulent combustion; Combustion regime;
Keywords: احتراق مضر; Surface fire; Numerical simulation; Turbulent combustion; Brazilian Amazon; Rate of spread
Keywords: احتراق مضر; Dynamic modeling; Turbulent combustion; Jet flame; Large eddy simulation; TFLES;
Keywords: احتراق مضر; Spark ignition engine; Turbulent combustion; 0D three zone model; Experimental validation; Flame visualization;
Keywords: احتراق مضر; Liquid rocket engine; Shear coaxial injector; Turbulent combustion; Non-intrusive optical diagnostics;
Keywords: احتراق مضر; turbulent combustion; porous media; flame thickness; Damköhler number; EDC model;
Keywords: احتراق مضر; Planar laser-induced fluorescence; Distributed reaction zone; CH and HCO radicals; Turbulent combustion; Premixed methane/air flame;
Keywords: احتراق مضر; Turbulent combustion; Inhomogeneous boundary conditions; Flame stabilization;
Keywords: احتراق مضر; Turbulent combustion; Premixed hydrogen flames; Low Mach number combustion;
Keywords: احتراق مضر; One-dimensional turbulence; Turbulent combustion; Coal combustion; Oxy-coal combustion; Devolatilization;
Keywords: احتراق مضر; Large eddy simulation; Filter density function; Turbulent combustion; Monte Carlo methods;
Keywords: احتراق مضر; Large-eddy simulation; Gas turbine combustor; Turbulence/chemistry interaction; Flamelet modeling; Turbulent combustion;
Keywords: احتراق مضر; Stratified combustion; Partially premixed; Heat release rate; Turbulent combustion; V-flame; Equivalence ratio gradient; Back-support;
Keywords: احتراق مضر; Hydrogen; Jet flames; Turbulent combustion; Autoignition;
Keywords: احتراق مضر; Turbulent combustion; Direct numerical simulation; Flame speed; Thin reaction zones; Lean premixed; Natural gas;
Keywords: احتراق مضر; Turbulent combustion; Compressible flow; Supersonic combustion; Scramjet; Flamelet
Keywords: احتراق مضر; Turbulent combustion; Lean stratified combustion; Laser diagnostics; Bluff-body stabilized flame; Surface density function; Scalar dissipation rate;
Keywords: احتراق مضر; Multiple inlets; Nonpremixed flames; Turbulent combustion; MILD combustion