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Journal of Hazardous Materials, ISSN 0304-3894, 2010, Volume 174, Issue 1, pp. 548 - 555
An experimental study on pressure evolution during closed vessel explosions of propane–air mixtures was performed, for systems with various initial... 
Explosion time | Explosion pressure | Closed vessel | Propane | VELOCITY | COMBUSTION | INITIAL PRESSURES | FLAMMABILITY | PARAMETERS | MIXTURES | HYDROGEN | ENVIRONMENTAL SCIENCES | ENGINEERING, CIVIL | METHANE | ENGINEERING, ENVIRONMENTAL | TURBULENCE | Temperature | Air | Pressure | Propane - chemistry
Journal Article
Journal of Hazardous Materials, ISSN 0304-3894, 2009, Volume 165, Issue 1, pp. 1248 - 1252
The experimental study of explosive combustion of LPG (liquefied petroleum gas)–air mixtures at ambient initial temperature was performed in two closed vessels... 
Rate of pressure rise | Explosion time | Combustion | Closed vessel | Explosion pressure | LPG (liquefied petroleum gas) | PRESSURE | ENVIRONMENTAL SCIENCES | FLAMMABILITY | ENGINEERING, ENVIRONMENTAL | LAMINAR BURNING VELOCITIES | Explosive Agents | Time Factors | Explosions | Air | Pressure | Research Design | Butanes | Petroleum | Propane | Analysis
Journal Article
Journal of Hazardous Materials, ISSN 0304-3894, 2006, Volume 135, Issue 1, pp. 58 - 65
Journal Article
Revue Roumaine de Chimie, ISSN 0035-3930, 01/2010, Volume 55, Issue 1, pp. 55 - 61
The normal burning velocities for the deflagration of propane-air mixtures were determined from pressure-time records, in experiments performed in a spherical... 
AIR MIXTURES | CFD | COMBUSTION | STABILITY | CHEMISTRY, MULTIDISCIPLINARY | burning velocities | overall activation energies | propane-air mixtures | TEMPERATURE | GAS | deflagration | PROPYLENE | overall reaction orders | PRESSURE EVOLUTION
Journal Article
Journal of Hazardous Materials, ISSN 0304-3894, 2011, Volume 190, Issue 1, pp. 891 - 896
The maximum rates of pressure rise during closed vessel explosions of propane–air mixtures are reported, for systems with various initial concentrations,... 
Explosion | Spherical vessel | Deflagration index | Propane | Maximum rate of pressure rise | COMBUSTION | LAMINAR BURNING VELOCITY | CONSTANT | PARAMETERS | HYDROGEN | ENVIRONMENTAL SCIENCES | ENGINEERING, CIVIL | METHANE | ENGINEERING, ENVIRONMENTAL | GAS | TURBULENCE | PROPYLENE | Thermodynamics | Temperature | Explosions | Air | Kinetics | Pressure | Initial pressure | Deflagration | Mathematical analysis | Vessels | Ignition | Combustion | Burning rate
Journal Article
Revue Roumaine de Chimie, ISSN 0035-3930, 07/2012, Volume 57, Issue 7-8, pp. 675 - 681
The burning velocities, temperature and concentration profiles of various chemical species in the flame front of free laminar premixed flames propagating in... 
Flames | Combustion | Modeling | Propane | Burning velocity | OXIDATION | PRESSURE | modeling | combustion | TEMPERATURE | MECHANISM | propane | burning velocity | IGNITION | flames | CHEMISTRY, MULTIDISCIPLINARY
Journal Article
Revista de Chimie, ISSN 0034-7752, 2012, Volume 63, Issue 3, pp. 289 - 292
The study of spherically expanding flames in closed vessels affords the calculation of propagation velocity S-s for deflagrations of flammable gaseous... 
Propagation velocity | Deflagration | Propane | Burning velocity | MIXTURES | ENGINEERING, CHEMICAL | VESSEL | EXPLOSIONS | COMBUSTION | METHANE | propane | deflagration | burning velocity | propagation velocity | CHEMISTRY, MULTIDISCIPLINARY
Journal Article
Revista de Chimie, ISSN 0034-7752, 2007, Volume 58, Issue 12, pp. 1170 - 1175
.... The deflagration index K-G, characteristic to deflagrations in vessels with volume V and central ignition, is calculated as K-G = (dp/dt)(max)(.3... 
Combustion | N-butane | Explosion pressure | Deflagration | Maximum rate of pressure rise | AIR MIXTURES | FLAMMABILITY | LAMINAR BURNING VELOCITIES | maximum rate of pressure rise | PROPANE | n-butane | CHEMISTRY, MULTIDISCIPLINARY | ENGINEERING, CHEMICAL | METHANE | combustion | EXPLOSION PARAMETERS | TEMPERATURE | explosion pressure | deflagration | PROPYLENE | FLAME PROPAGATION
Journal Article
Energy Conversion and Management, ISSN 0196-8904, 2010, Volume 51, Issue 12, pp. 2979 - 2984
The laminar burning velocities of propane/air mixtures with various initial concentrations, pressures and temperatures ([C 3H 8] = 2.50–6.20 vol.%, p 0 =... 
Early stage | Closed vessel | Propane | Burning velocity | FLAMES | ENERGY & FUELS | PHYSICS, NUCLEAR | SPHERICAL-VESSEL | PRESSURE | HYDROGEN | MECHANICS | THERMODYNAMICS | TEMPERATURE | Correlation | Initial pressure | Computation | Mathematical analysis | Ignition | Premixed flames | Combustion | Laminar
Journal Article
Energy & Fuels, ISSN 0887-0624, 02/2012, Volume 26, Issue 2, pp. 901 - 909
The flame propagation during the deflagration of the propane–air mixtures with variable initial concentration, pressure, and temperature ([C3H8] = 2.60–6.20... 
ENGINEERING, CHEMICAL | CONSTANT VOLUME COMBUSTION | BOMB TECHNIQUE | TEMPERATURE-DEPENDENCE | HYDROCARBONS | ENERGY & FUELS | METHANE-AIR | ELEVATED PRESSURES | GAS | N-2 DILUTION | MARKSTEIN LENGTHS | FLAME SPEEDS | Laminar flames | Deflagration | Vessels | Ignition | Mathematical models | Combustion | Flame propagation | Power law | Atmospherics
Journal Article
Energy & Fuels, ISSN 0887-0624, 03/2010, Volume 24, Issue 3, pp. 1487 - 1494
The burning velocities of liquefied petroleum gas (LPG)−air and LPG−air−exhaust mixtures were calculated from pressure−time records obtained in a spherical... 
Catalysis and Kinetics | HYDROGEN-OXYGEN | FLAMES | ENGINEERING, CHEMICAL | PRESSURE | COMBUSTION | METHANE | TEMPERATURE | ETHER | ENERGY & FUELS | RECIRCULATION | IGNITION | PROPANE-AIR MIXTURES
Journal Article
Journal of Loss Prevention in the Process Industries, ISSN 0950-4230, 2009, Volume 22, Issue 4, pp. 463 - 468
Measurements on pressure evolution during the deflagrative combustion of liquefied petroleum gas (LPG)–air gaseous mixtures in the presence of their own... 
Exhaust gas | Closed vessel | Deflagration | LPG (liquefied petroleum gas) | ENGINEERING, CHEMICAL | EXHAUST-GAS | PRESSURE | EXPLOSIONS | LPG | VESSELS | LAMINAR BURNING VELOCITIES | PROPYLENE | Liquefied petroleum gas | Combustion
Journal Article
Fuel, ISSN 0016-2361, 2007, Volume 86, Issue 12, pp. 1865 - 1872
The pressure–time evolution during the deflagration of gaseous propylene–air mixtures in the presence of their own exhaust gas was experimentally investigated... 
Propylene | Exhaust gas | Closed vessel combustion | closed vessel combustion | HYDROGEN-OXYGEN | FLAMES | VELOCITY | propylene | ENERGY & FUELS | exhaust gas | ENGINEERING, CHEMICAL | PRESSURE | EXPLOSIONS | METHANE | TEMPERATURE | IGNITION | Chemical reactions
Journal Article
Revista de Chimie, ISSN 0034-7752, 2011, Volume 62, Issue 2, pp. 201 - 205
The flame propagation during deflagration of the stoichiometric propane-air mixture ([C3H8] = 4.02 vol.%), considered as a reference test mixture, in a... 
Closed vessel | Propagation | Deflagration | Flame radius | Burning velocity | FLAMES | COMBUSTION | PRESSURES | LAMINAR BURNING VELOCITIES | closed vessel | burning velocity | MARKSTEIN LENGTHS | CHEMISTRY, MULTIDISCIPLINARY | ENGINEERING, CHEMICAL | propagation | GAS | flame radius | deflagration
Journal Article
Revista de Chimie, ISSN 0034-7752, 2009, Volume 60, Issue 8, pp. 750 - 754
...: a spherical vessel (V = 0.52 L) and a cylindrical vessel (V = 1.12 L; diameter/height = 1.5) using mixtures with variable fuel content... 
Explosion time | Rate of pressure rise | Closed vessels | LPG (Liquefied Petroleum Gas) | Explosion pressure | ENGINEERING, CHEMICAL | rate of pressure rise | closed vessels | explosion pressure | explosion time | CHEMISTRY, MULTIDISCIPLINARY
Journal Article
Revista de Chimie, ISSN 0034-7752, 2011, Volume 62, Issue 4, pp. 376 - 379
Computed adiabatic flame temperatures for several fuel-air mixtures with variable initial concentration, pressure and temperature, obtained by means of... 
Combustion | Adiabatic explosion pressure | Adiabatic flame temperature | Flame | ENGINEERING, CHEMICAL | BURNING VELOCITY | adiabatic flame temperature | combustion | flame | adiabatic explosion pressure | CHEMISTRY, MULTIDISCIPLINARY
Journal Article
Journal Article
Oncology Letters, ISSN 1792-1074, 05/2019, Volume 17, Issue 5, pp. 4155 - 4161
Melanoma is the most severe type of skin cancer and its incidence has increased in the last decades. In the United States, it is the 6th most common cancer in... 
Immunoediting | Immunogenic tumor | Dendritic cells | Melanoma | DOWN-REGULATION | melanoma | CD4(+) T-CELLS | MALIGNANT-MELANOMA | CANCER | immunogenic tumor | dendritic cells | IMMUNE-SYSTEM | MICROENVIRONMENT | ONCOLOGY | CUTANEOUS MELANOMA | BLOCKADE | EXPRESSION | immunoediting
Journal Article
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