Keywords: حداقل انرژی احتراق; Minimum ignition energy; Dust explosion; Hybrid explosion; Kühner MIKE3 MIE device;
مقالات ISI حداقل انرژی احتراق (ترجمه نشده)
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Keywords: حداقل انرژی احتراق; Minimum ignition energy; Partial inerting; Dust explosion;
Keywords: حداقل انرژی احتراق; Laser ignition; Homogeneous and isotropic turbulence; Pulsed jet; Diffusion flame; Minimum ignition energy;
Keywords: حداقل انرژی احتراق; Micron-size conveyor rubber dust; Hartmann tube; Maximum rate of pressure rise; Explosion severity; Particle size; Minimum ignition energy;
Keywords: حداقل انرژی احتراق; Ignition; Plasma assisted combustion; Non-equilibrium plasma; Spark; Minimum ignition energy;
Keywords: حداقل انرژی احتراق; Dust explosion; Minimum explosible concentration; Minimum ignition energy; Cellulosic materials; Moisture adsorption ability;
Keywords: حداقل انرژی احتراق; Minimum ignition energy; Methane; Experimental; Elevated temperatures; Elevated pressures;
Keywords: حداقل انرژی احتراق; Minimum ignition energy; Minimum ignition temperature; Dust explosion; Ignition sensitivity; Inert materials;
Keywords: حداقل انرژی احتراق; Electrostatic discharges; Minimum ignition energy; Inerting; Nitrogen; Dust explosions
Keywords: حداقل انرژی احتراق; Electrostatic discharges; Minimum ignition energy; Nitrogen; Dust explosions;
Keywords: حداقل انرژی احتراق; Laser ignition; Gas turbine; Minimum ignition energy; Air/fuel ratio
Keywords: حداقل انرژی احتراق; Minimum ignition energy; Dust mixtures; Dust explosion;
Keywords: حداقل انرژی احتراق; Spark discharge; Discharge energy; Integration method; Inductance load; Minimum ignition energy
Keywords: حداقل انرژی احتراق; Low GWP alternatives; Refrigerants; Quenching distance; Minimum flame radius; Minimum ignition energy; Burning velocity; Microgravity
Keywords: حداقل انرژی احتراق; Grinding; Nanoparticle; Minimum ignition energy; Nano-titanium; Nano-iron
Keywords: حداقل انرژی احتراق; Flame propagation; Iron dust cloud; Heterogeneous combustion; Thermal model; Minimum ignition energy; Discrete heat sources
Keywords: حداقل انرژی احتراق; Laser ignition; Spark ignition; Minimum ignition energy;
Keywords: حداقل انرژی احتراق; Minimum ignition energy; Dust explosion; Hybrid mixture explosion; Likelihood of explosion; Gas explosion; Ignition sensitivity
Analysis of disproportionation process of trifluoroethylene using high power spark ignitions over 5 J
Keywords: حداقل انرژی احتراق; Hydrofluoroolefin; Disproportionation; Trifluoroethylene; Low GWP refrigerant; Minimum ignition energy;
Ignition of hydrogen/air mixtures by a heated kernel: Role of Soret diffusion
Keywords: حداقل انرژی احتراق; Minimum ignition energy; Soret diffusion; Hydrogen;
Combustion properties of titanium alloy powder in ALM processes: Ti6Al4V
Keywords: حداقل انرژی احتراق; Titanium alloy; Minimum ignition energy; Dust explosion; Temperature;
Fast prediction of minimum ignition energy from molecular structure using simple QSPR model
Keywords: حداقل انرژی احتراق; Minimum ignition energy; Quantitative structure-property relationship; Density functional theory; Semi-empirical calculations; Gaussian 09;
Effects of water vapor dilution on the minimum ignition energy of methane, n-butane and n-decane at normal and reduced pressures
Keywords: حداقل انرژی احتراق; Water vapor; Minimum ignition energy; Dilution limit; Pressure;
Multi-Walled Carbon Nanotubes (MWCNTs) bonded with Ferrocene particles as ignition agents for air-fuel mixtures
Keywords: حداقل انرژی احتراق; MWCNTs; Multi-Walled Carbon Nanotubes; SWCNTs; Single-Walled Carbon Nanotubes; CNTs; Carbon Nano-Tubes; nSMs; nano Structured Materials; nIAs; nano-Ignition Agents; PTI; Photo-Thermal Ignition; SI; Spark Ignition; HCCI; Homogeneously-Charged Compression-I
Explosibility, flammability and the thermal decomposition of Bisphenol A, the main component of epoxy resin
Keywords: حداقل انرژی احتراق; Bisphenol A; Epoxy resin; Dust explosion; Thermal analysis; Minimum ignition energy; Deflagration index;
Laminar flame propagation and ignition properties of premixed iso-octane/air with hydrogen addition
Keywords: حداقل انرژی احتراق; Iso-octane/hydrogen blends; Laminar flame speed; Markstein length; Minimum ignition energy;
Influence of particle size on the explosion parameters in two-phase vapor–liquid n-hexane/air mixtures
Keywords: حداقل انرژی احتراق; Vapor–liquid two-phase n-hexane/air mixtures; Particle size distribution; Explosion parameters; Lower flammability limit; Minimum ignition energy; Spray and turbulence
Experimental investigation of spark ignition energy in kerosene, hexane, and hydrogen
Keywords: حداقل انرژی احتراق; Gas explosion; Spark ignition; Minimum ignition energy; Hydrogen; Hexane; Kerosene
Determination of the minimum ignition energy on the basis of a statistical approach
Keywords: حداقل انرژی احتراق; Minimum ignition energy; Ignition probability; Hydrogen; Ethene; Propane
Experimental study of minimum ignition energy of lean H2-N2O mixtures
Keywords: حداقل انرژی احتراق; Spark ignition; Minimum ignition energy; Hydrogen; Nitrous oxide; Nuclear waste safety
Explosibility of micron- and nano-size titanium powders
Keywords: حداقل انرژی احتراق; Nano-titanium; Maximum pressure; Maximum rate of pressure rise; Minimum ignition energy; Minimum explosible concentration; Minimum ignition temperature
Study on the influence of material thermal characteristics on dust explosion parameters of three long-chain monobasic alcohols
Keywords: حداقل انرژی احتراق; Minimum Ignition Temperature; Minimum Ignition Energy; Minimum Explosible Concentration; Electrical Resistivity; Maximum Explosion Pressure; Deflagration Index
High pressure ignition kernel development and minimum ignition energy measurements in different regimes of premixed turbulent combustion
Keywords: حداقل انرژی احتراق; High pressure turbulent ignition; Minimum ignition energy; Flame kernel development; Ignition transition; Reaction zone Péclet number
Effects of humidity on minimum ignition energy of gaseous epoxypropane/air mixtures
Keywords: حداقل انرژی احتراق; Minimum ignition energy; Gaseous epoxypropane; Humidity; Gas explosion;
Partial inerting – A possible means of eliminating the brush-discharge-ignition hazard with explosive gases and vapours?
Keywords: حداقل انرژی احتراق; Gas explosions; Partial inerting; Minimum ignition energy; Electrostatic brush discharge; Equivalent energy
Ignition study of acetone/air mixtures by using laser-induced spark
Keywords: حداقل انرژی احتراق; Acetone; Laser breakdown; Ignition probability; Minimum ignition energy; Laminar burning velocity;
Effects of diluents on the ignition of premixed H2/air mixtures
Keywords: حداقل انرژی احتراق; Ignition; H2/air/diluent; Minimum ignition energy; Dilution limit
Prediction of minimum ignition energy of aerosols using flame kernel modeling combined with flame front propagation theory
Keywords: حداقل انرژی احتراق; Minimum ignition energy; Aerosols; Flame kernel modeling; Flame front propagation theory
Influence of nitromethane concentration on ignition energy and explosion parameters in gaseous nitromethane/air mixtures
Keywords: حداقل انرژی احتراق; Gaseous nitromethane; Minimum ignition energy; Gas explosions; Combustion;
Numerical study on the spark ignition characteristics of hydrogen–air mixture using detailed chemical kinetics
Keywords: حداقل انرژی احتراق; Spark ignition; Hydrogen–air mixture; Minimum ignition energy; Equivalence ratio; Detailed chemical kinetics
Study on safe air transporting velocity of nanograde aluminum, iron, and titanium
Keywords: حداقل انرژی احتراق; Nanograde metal; 20-l-Apparatus; Minimum ignition energy
On the minimum ignition energy (MIE) for propane/air
Keywords: حداقل انرژی احتراق; Gas explosions; Ignition sources; Minimum ignition energy; Ignition probability;
Case study of a nylon fibre explosion: An example of explosion risk in a textile plant
Keywords: حداقل انرژی احتراق; Flock fibre explosion; Minimum ignition energy; Explosion case study
Numerical study on the spark ignition characteristics of a methane–air mixture using detailed chemical kinetics: Effect of equivalence ratio, electrode gap distance, and electrode radius on MIE, quenching distance, and ignition delay
Keywords: حداقل انرژی احتراق; Spark ignition; Methane–air mixture; Minimum ignition energy; Equivalence ratio; Numerical analysis; Detailed chemical kinetics; Quenching distance; Spark duration; Ignition delay time
Ignition transition in turbulent premixed combustion
Keywords: حداقل انرژی احتراق; Ignition transition; Minimum ignition energy; Turbulent Karlovitz number; Equivalence ratio; Reaction zone Péclet number
Research of minimum ignition energy for nano Titanium powder and nano Iron powder
Keywords: حداقل انرژی احتراق; Minimum ignition energy; Nanopowder; Dust explosion
MIKE 3 versus HARTMANN apparatus: Comparison of measured minimum ignition energy (MIE)
Keywords: حداقل انرژی احتراق; Minimum ignition energy; HARTMANN apparatus; MIKE 3 apparatus; Explosion tube; Electrostatic ignition; Spark;
Electrostatic spark ignition of sensitive dust clouds of MIE<1 mJ
Keywords: حداقل انرژی احتراق; Dust explosion; Minimum ignition energy; Electric spark triggering
Measurement of minimum ignition energies of dust clouds in the <1Â mJ region
Keywords: حداقل انرژی احتراق; Minimum ignition energy; Dust explosion; Spark generator;
Initiation of dust explosions by electric spark discharges triggered by the explosive dust cloud itself
Keywords: حداقل انرژی احتراق; Dust explosion; Minimum ignition energy; Spark triggering