Keywords: احتراق لیزر; Laser ignition; Laser spark; Diffusion flame; Transport properties; Damköhler number;
مقالات ISI احتراق لیزر (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 لیزر; Compressed natural gas; Laser ignition; Compression ratio; Combustion; Emissions;
Keywords: احتراق لیزر; Lift-Off Length; High-temperature chemiluminescence; Laser induced fluorescence; Laser ignition; Diesel; n-Dodecane;
Keywords: احتراق لیزر; Gold nanoparticles; Laser ignition; Explosives; RDX crystallisation;
Keywords: احتراق لیزر; Laser ignition; Homogeneous and isotropic turbulence; Pulsed jet; Diffusion flame; Minimum ignition energy;
Keywords: احتراق لیزر; Laser ignition; Spatial light modulator; Computer generated hologram; Automotive gasoline engine; Multi-location laser-induced spark;
Numerical simulation of hydrogen combustion process in rotary engine with laser ignition system
Keywords: احتراق لیزر; Rotary engine; Hydrogen; Laser ignition; Combustion process; Transient simulation;
Particulate emissions from laser ignited and spark ignited hydrogen fueled engines
Keywords: احتراق لیزر; Laser ignition; Spark ignition; Particulate number-size distribution; Nucleation and accumulation mode particles; Particulate mass-size distribution;
Keywords: احتراق لیزر; Laser ignition; Laser pulse energy; Hydrogen; Port fuel injection; Combustion characteristics;
Keywords: احتراق لیزر; Metal combustion; Particle combustion; Laser ignition; Burn time;
Keywords: احتراق لیزر; High-nitrogen energetic materials; Flash ignition; Laser ignition; Photochemical effects; Non-contact ignition; Gas generators;
Keywords: احتراق لیزر; Laser ignition; Ignition limit; Scramjet; Gas turbines; Rocket; Plasma ignition; Propulsion
Keywords: احتراق لیزر; Laser ignition; Gas turbine; Minimum ignition energy; Air/fuel ratio
Keywords: احتراق لیزر; Aluminum combustion; Metal combustion; Burn rate; Individual particle experiments; Laser ignition
Keywords: احتراق لیزر; Hydrogen; Laser ignition; Alternate fuels; Combustion; Performance; Emissions;
Keywords: احتراق لیزر; Laser ignition; Hydrogen; Compression ratio; Combustion; Emissions;
Keywords: احتراق لیزر; Boron-based fuel-rich propellant primary combustion products; Amorphous boron; Energy release properties; Laser ignition; Thermal oxidation;
Keywords: احتراق لیزر; Laser ignition; Gas turbine; Time to light; Lean burn limit; Air/fuel ratio
Keywords: احتراق لیزر; Boron; Metal hydride; Burning; Thermal analysis; Laser ignition
Keywords: احتراق لیزر; Boron; Magnesium; Burning characteristics; Thermal analysis; Laser ignition;
Keywords: احتراق لیزر; Laser ignition; Spark ignition; Minimum ignition energy;
Keywords: احتراق لیزر; Laser ignition; Hydrogen-air mixtures; Flame kernel development; Flame speed; In-cylinder pressure; Combustion analysis;
Keywords: احتراق لیزر; Laser ignition; Hydrogen–air mixtures; Flame kernel development; Flame speed; In-cylinder pressure; Combustion analysis
Keywords: احتراق لیزر; Heterogeneous combustion; Gas generators; Energetic materials; Metal combustion; Laser ignition
Keywords: احتراق لیزر; Laser ignition; Spark ignition; Laser pulse energy; Plasma; Compressed natural gas;
Keywords: احتراق لیزر; Laser ignition; Pulse energy; Beam quality factor; Focal length; Flame kernel
Keywords: احتراق لیزر; Laser ignition; Hydrogen-air mixtures; Methane-air mixtures; Flame kernel; Flame speed;
Keywords: احتراق لیزر; Laser ignition; Explosive; PETN; Copper (II) oxide; Heat transfer simulations
Laser initiation of RDX crystal slice under ultraviolet and near-infrared irradiations
Keywords: احتراق لیزر; RDX crystal; Laser ignition; Ultraviolet laser; Near-infrared laser; Ultrafast pump-probe microscopy;
Combustion of Mg and composite Mg·S powders in different oxidizers
Keywords: احتراق لیزر; Metal combustion; Particle combustion; Laser ignition; Burn rate;
Laser ignition in Self-propagating High temperature Synthesis of porous NiTinol Shape Memory Alloy
Keywords: احتراق لیزر; Porous NiTinol; SMA; SHS process; Laser ignition;
Laser ignition of elastomer-modified cast double-base (EMCDB) propellant using a diode laser
Keywords: احتراق لیزر; Laser ignition; Ignition delay; EMCDB propellant;
A study of laser induced ignition of methane-air mixtures inside a Rapid Compression Machine
Keywords: احتراق لیزر; Laser ignition; Rapid Compression Machine; Schlieren imaging; Natural gas;
Microexplosions and ignition dynamics in engineered aluminum/polymer fuel particles
Keywords: احتراق لیزر; Laser ignition; Mechanical activation; Aluminum; Polytetrafluoroethylene; Low-density polyethylene;
Laser ignition and flame kernel characterization of HCNG in a constant volume combustion chamber
Keywords: احتراق لیزر; Constant volume combustion chamber; Laser ignition; HCNG combustion; Shadowgraphy; Flame kernel evolution;
Combustion characteristics of wet ethanol ignited using a focused Q-switched Nd:YAG nanosecond laser
Keywords: احتراق لیزر; Laser ignition; Wet ethanol; Flame propagation; Laser ignition delay; Mass fraction burned;
Evolution of flame-kernel in laser-induced spark ignited mixtures: AÂ parametric study
Keywords: احتراق لیزر; Laser ignition; Flame-kernel; OH PLIF; H-alpha; Laser induced spark;
Hydrogen generation from ammonia borane and water through combustion reactions with mechanically alloyed Al·Mg powder
Keywords: احتراق لیزر; Heterogeneous combustion; Energetic materials; Gas generators; Metal combustion; Laser ignition; Hydrogen
Effect of ignition location on the in-process removal of combustion deposits from the output window of a gas turbine laser ignition system
Keywords: احتراق لیزر; Laser ignition; Selective vaporization; Combustion
Combustion of micron-sized particles of titanium and zirconium
Keywords: احتراق لیزر; Metal combustion; Particle combustion; Laser ignition; Burn time
Ignition and combustion of mechanically alloyed Al–Mg powders with customized particle sizes
Keywords: احتراق لیزر; Metal combustion; Alloys; Particle combustion; Laser ignition; Aerosol combustion
Structure of igniting ethanol and n-heptane spray flames with and without swirl
Keywords: احتراق لیزر; Spark ignition; Laser ignition; Spray flames; Fast-response OH-PLIF; Swirl
Review and recent developments of laser ignition for internal combustion engines applications
Keywords: احتراق لیزر; Laser ignition; Cavity ignition; Multi-point ignition; Lean burn; Large bore engines;
Thermal initiation of consolidated nanocomposite thermites
Keywords: احتراق لیزر; Reactive materials; Energetic materials; Laser ignition; Ignition delay
Flame kernel characterization of laser ignition of natural gas–air mixture in a constant volume combustion chamber
Keywords: احتراق لیزر; Laser ignition; Constant volume combustion chamber; Flame kernel development; Laser beam profile; Plasma formation
Temperature measurements in a decaying laser-induced plasma in air at elevated pressures
Keywords: احتراق لیزر; Temperature measurement; Laser ignition; High pressure gas plasma; Continuum emission; Saha–Boltzmann plot
Aluminum particle ignition in different oxidizing environments
Keywords: احتراق لیزر; Metal ignition; Heterogeneous reaction kinetics; Laser ignition; Aluminum oxidation
Characteristics of plasma induced by interaction of a free-oscillated laser pulse with a coal target in air and combustible gas
Keywords: احتراق لیزر; Plasma; Free-oscillated Nd:YAG laser; Laser ignition; Radical spectrum; Hydrogen-oxygen mixture
Laser-assisted homogeneous charge ignition in a constant volume combustion chamber
Keywords: احتراق لیزر; Homogeneous charge compression ignition; Laser ignition; Plasma; Auto-ignition; Resonant absorption
Characterisation of laser ignition in hydrogen–air mixtures in a combustion bomb
Keywords: احتراق لیزر; Laser ignition; Hydrogen–air mixture; Combustion; Schlieren imaging; Spark Ignition