Keywords: شیمی کاهش یافته; Ethanol combustion; Reduced chemistry;
مقالات ISI شیمی کاهش یافته (ترجمه نشده)
مقالات زیر هنوز به فارسی ترجمه نشده اند.
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Keywords: شیمی کاهش یافته; Reduced chemistry; Genetic algorithm; Numerical simulation; Turbulent combustion;
Keywords: شیمی کاهش یافته; Surface reaction; Methanol; Auto-ignition; Low temperature; Reduced chemistry;
Keywords: شیمی کاهش یافته; Flamelets; Manifolds; Reduced chemistry; Flame stretch; Preferential diffusion;
Keywords: شیمی کاهش یافته; Dimethyl ether; Ignition delay time; Reduced chemistry; Analytical solution;
Keywords: شیمی کاهش یافته; Hydrogen combustion; Flammability limits; Reduced chemistry; Crossover temperature
Impact of direct integration of Analytically Reduced Chemistry in LES of a sooting swirled non-premixed combustor
Keywords: شیمی کاهش یافته; Large Eddy Simulation; Chemical kinetics; Reduced chemistry; Gas Turbines; Soot;
Prediction of flame structure and pollutant formation of Sandia flame D using Large Eddy Simulation with direct integration of chemical kinetics
Keywords: شیمی کاهش یافته; Pollutant prediction; Reduced chemistry; Large Eddy Simulation;
Including real fuel chemistry in LES of turbulent spray combustion
Keywords: شیمی کاهش یافته; Large Eddy Simulation; Spray combustion; Fuel effects; Gas turbines; Reduced chemistry;
Large Eddy Simulation of an industrial gas turbine combustor using reduced chemistry with accurate pollutant prediction
Keywords: شیمی کاهش یافته; Large Eddy Simulation; Reduced chemistry; Pollutant emissions; Dynamic Thickened Flame model;
Auto-thermal reforming (ATR) of natural gas: An automated derivation of optimised reduced chemical schemes
Keywords: شیمی کاهش یافته; Methane reforming; Hydrogen production; Reduced chemistry; Genetic algorithm; Numerical simulation;
A multi-timescale and correlated dynamic adaptive chemistry and transport (CO-DACT) method for computationally efficient modeling of jet fuel combustion with detailed chemistry and transport
Keywords: شیمی کاهش یافته; Combustion modeling; Correlated dynamic adaptive chemistry and transport; Multi-timescale modeling; Transport properties; Reduced chemistry;
Rate-Controlled Constrained Equilibrium (RCCE) simulations of turbulent partially premixed flames (Sandia D/E/F) and comparison with detailed chemistry
Keywords: شیمی کاهش یافته; RCCE; Reduced chemistry; Turbulent flames; PDF methods;
The chemistry involved in the third explosion limit of H2–O2 mixtures
Keywords: شیمی کاهش یافته; Hydrogen ignition; Explosion diagram; Third explosion limit; Reduced chemistry; Crossover temperature; Activation-energy asymptotics
Four-step and three-step systematically reduced chemistry for wide-range H2–air combustion problems
Keywords: شیمی کاهش یافته; Autoignition; Reduced chemistry; Hydrogen
Explicit analytic prediction for hydrogen–oxygen ignition times at temperatures below crossover
Keywords: شیمی کاهش یافته; Hydrogen ignition; Reduced chemistry; Induction time; Crossover temperature; Activation-energy asymptotics
Simulation of a supersonic hydrogen–air autoignition-stabilized flame using reduced chemistry
Keywords: شیمی کاهش یافته; Turbulent autoignition; Hydrogen; Reduced chemistry; Supersonic flame
Flammability conditions for ultra-lean hydrogen premixed combustion based on flame-ball analyses
Keywords: شیمی کاهش یافته; Hydrogen; Flammability limit; Ultra-lean combustion; Reduced chemistry; Flame balls;
Large Eddy Simulation of combustion instabilities in a lean partially premixed swirled flame
Keywords: شیمی کاهش یافته; 10.03; 20.02; 20.1; 20.12; 70.05; 70.11Gas turbines; Turbulent non-perfectly premixed combustion; Large Eddy Simulation; Reduced chemistry; Thermo-acoustic instabilities
A four-step reduced mechanism for syngas combustion
Keywords: شیمی کاهش یافته; Syngas; Reduced chemistry; Burning rate; Induction times; Gas-turbine combustion
An explicit reduced mechanism for H2H2–air combustion
Keywords: شیمی کاهش یافته; Autoignition; Reduced chemistry; Hydrogen
A path flux analysis method for the reduction of detailed chemical kinetic mechanisms
Keywords: شیمی کاهش یافته; PFA; Chemical kinetic mechanism; Reduced chemistry; n-decane; n-heptane
Skeletal mechanism generation with CSP and validation for premixed n-heptane flames
Keywords: شیمی کاهش یافته; Reduced chemistry; Computational singular perturbation; n-Heptane oxidation; Premixed flame;
Skeletal mechanism generation and analysis for n-heptane with CSP
Keywords: شیمی کاهش یافته; Reduced chemistry; Computational Singular Perturbation; n-Heptane oxidation
Application of the ICE-PIC method for the dimension reduction of chemical kinetics coupled with transport
Keywords: شیمی کاهش یافته; Dimension reduction; Reduced chemistry; Low-dimensional manifold; Transport-chemistry coupling
Unsteady extinction mechanism of nonpremixed flame interacting with a vortex
Keywords: شیمی کاهش یافته; Extinction; Nonpremixed flame; Counterflow; Flame–vortex interaction; Reduced chemistry; Simulation
A flamelet analysis of the burning velocity of premixed turbulent expanding flames
Keywords: شیمی کاهش یافته; Turbulent premixed flames; Flamelets; Burning velocity; Reduced chemistry;
Two-step chemical-kinetic descriptions for hydrocarbon–oxygen-diluent ignition and detonation applications
Keywords: شیمی کاهش یافته; Detonation; Ignition; Hydrocarbons; Reduced chemistry