Keywords: انفجار گرد و غبار; Minimum ignition energy; Dust explosion; Hybrid explosion; Kühner MIKE3 MIE device;
مقالات ISI انفجار گرد و غبار (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: انفجار گرد و غبار; Burns; Dust explosion; Resource management; Intensive care; Mass casualty; Massive burns injury;
Keywords: انفجار گرد و غبار; Dust explosion; 20â¯l sphere; CFD; Pressure; MEC;
Keywords: انفجار گرد و غبار; Dust explosion; Deflagration flame; Flame propagation behavior; Oxygen concentration;
Keywords: انفجار گرد و غبار; Dust explosion; Hybrid mixtures; Explosion severity; Lycopodium; Polyethylene;
Keywords: انفجار گرد و غبار; Dust explosion; Hybrid mixture; Venting; Maximum reduced pressure; External flame;
Keywords: انفجار گرد و غبار; Dust explosion; CFD; Euler-Lagrange; Powder dispersion; Agglomeration;
Keywords: انفجار گرد و غبار; Dust explosion; Dust layer; Sample orientation; Fire hazard; Electric spark;
Keywords: انفجار گرد و غبار; Dust explosion; Layer fire; Dust layer; Metallic dust; Flame spread velocity;
Keywords: انفجار گرد و غبار; Dust explosion; Skewness; Polydispersity; Particle size distribution; PSD;
Keywords: انفجار گرد و غبار; Minimum ignition energy; Partial inerting; Dust explosion;
Keywords: انفجار گرد و غبار; Gas explosion; Dust explosion; Flame propagation; Flame spreading; Flame front instability;
Keywords: انفجار گرد و غبار; Oil shale dusts; Dust explosion; Hybrid mixtures; Explosion sensitivity;
Keywords: انفجار گرد و غبار; Dust explosion; Hybrid explosion; Closed volume explosion; 20-L chamber; Explosion regime diagram;
Keywords: انفجار گرد و غبار; Dust explosion; Combustion flame; Explosion suppression; Granular composition;
Keywords: انفجار گرد و غبار; Dedusting; Airduct; Ventilation; Heading face; Dust explosion; ATEX;
Keywords: انفجار گرد و غبار; Nanoparticles; Hybrid mixtures; Dust explosion; Flame velocity; Laminar burning velocity;
Keywords: انفجار گرد و غبار; Dust explosion; Corn starch; Open space; Flame propagation; Dust transient movement;
Keywords: انفجار گرد و غبار; Silo; Dust explosion; Venting; Explosion loads; Structural design; Eurocode 1;
Keywords: انفجار گرد و غبار; Dust explosion; Burning velocity; Hybrid mixtures; Turbulence; Flame propagation; Flame stretching;
Keywords: انفجار گرد و غبار; Flammability test; Speedy explosibility test; Mechanical workings; Metallic Dust; Dust Esplosibility; Dust Explosion;
Keywords: انفجار گرد و غبار; Dust explosion; Deflagration index; Explosion severity; Modeling; Experimental KSt data;
Keywords: انفجار گرد و غبار; Dust explosion; Particle size distribution; Flame structure; Ion current probe;
Keywords: انفجار گرد و غبار; Spent coffee grounds; Jatropha; Biomass; Dust explosion; Thermal behavior; Flow properties;
Keywords: انفجار گرد و غبار; Dust explosion; MIE; MIT; Metal dust; Inert; Machining industry;
Keywords: انفجار گرد و غبار; Dust explosion; Minimum explosible concentration; Minimum ignition energy; Cellulosic materials; Moisture adsorption ability;
Keywords: انفجار گرد و غبار; Dust explosion; Nuclear safety; Combustion; Turbulence;
Keywords: انفجار گرد و غبار; Dust explosion; 20-L standard explosion apparatus; Dispersion system; De-agglomeration (particle-breakage); Particle size distribution; Nanomaterial;
Keywords: انفجار گرد و غبار; Minimum ignition energy; Minimum ignition temperature; Dust explosion; Ignition sensitivity; Inert materials;
Keywords: انفجار گرد و غبار; Dust explosion; Hybrid mixture explosion; Minimum ignition temperature; Dust and hybrid mixture models;
Keywords: انفجار گرد و غبار; MIT; Hybrid mixture explosion; Dust explosion; Gas explosion; MIT of hybrid mixture explosion;
Keywords: انفجار گرد و غبار; Silo; Dust explosion; Venting; Maize starch; Wheat flour
Keywords: انفجار گرد و غبار; Dust explosion; Hybrid mixture explosion; 20-L sphere; Maximum pressure; Maximum rate of pressure rise; Lycopodium; Nicotinic acid; Methane;
Keywords: انفجار گرد و غبار; Dust explosion; Mining; Explosion prevention; Particle size; Specific surface area
Keywords: انفجار گرد و غبار; Minimum ignition energy; Dust mixtures; Dust explosion;
Keywords: انفجار گرد و غبار; Dust explosion; Explosion vessel; Standard tests; Particle breakage
Keywords: انفجار گرد و غبار; Flame propagation; Dust explosion; Pressure dependence;
Keywords: انفجار گرد و غبار; Dust explosion; Nano powder; Ignition; Explosion protection;
Keywords: انفجار گرد و غبار; Dust explosion; Hybrid mixtures; Ignition energy; Turbulence; Lower flammability limit;
Keywords: انفجار گرد و غبار; CFD; Dust explosion; Dust concentration; Gas–solid flow; Silo
Keywords: انفجار گرد و غبار; Dust explosion; Coal; Shock-flame complex; Numerical simulation;
Keywords: انفجار گرد و غبار; Dust explosion; Biomass; Torrefaction; Reactivity; Combustion;
Keywords: انفجار گرد و غبار; Dust explosion; Particle thermal characteristics; Particle size distributions; Flame propagation mechanisms;
Keywords: انفجار گرد و غبار; Dust explosion; Flameless venting;
Keywords: انفجار گرد و غبار; Powder mixtures; Dust explosion; Textile; Flame retardant; Impregnation process; Polymer
Keywords: انفجار گرد و غبار; Dust explosion; Hybrid mixture explosion; Gas/vapor explosion; Explosion limits; Explosion pressure rise;
Keywords: انفجار گرد و غبار; Thermal radiation; Flame acceleration; Detonation; Dust explosion; Hydrogen safety
Keywords: انفجار گرد و غبار; Dust explosion; Dust mixtures; Maximum rate of pressure rise; Maximum pressure; Lycopodium; Catalytic reaction;
Keywords: انفجار گرد و غبار; Dust explosion; Data analysis; Accidents analysis; Dust explosion hazards; Safety management; Statistical features;
Keywords: انفجار گرد و غبار; Dust explosion; Maximum rate of pressure rise; Computational method; Recursive fitting method