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Conformerisation Phenomena in Fuel Droplet Hydrocarbon
Rasoul Nasiri
University of Brighton
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Dive into the research topics of 'Conformerisation Phenomena in Fuel Droplet Hydrocarbon'. Together they form a unique fingerprint.
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Keyphrases
Fuel Droplet
100%
Evaporation Coefficient
100%
Condensation Coefficient
100%
Hydrocarbons
100%
Thermal Evaporation
100%
Thermal Condensation
100%
ReaxFF
60%
Molecular Dynamics Simulation
40%
N-Dodecane
40%
Nanodroplets
40%
Reactive Force Field
40%
Temperature Effect
20%
Gas Phase
20%
Temperature Gradient
20%
Kinetic Model
20%
Highly Flexible
20%
Equations of Motion
20%
Prediction Accuracy
20%
Gibbs Free Energy
20%
Model Calculation
20%
Simulation Techniques
20%
Kinetic Energy
20%
Evaporation-condensation
20%
Quantum Chemical Calculations
20%
Condensation Process
20%
Molecular Dynamics
20%
Interfacial Layer
20%
Strongly Coupled
20%
Weakly Coupled
20%
Liquid-vapor Interface
20%
Thermostat
20%
Flexible Molecules
20%
Non-steady
20%
Chemical Bond
20%
Continuum Solvent Model
20%
Quasi-equilibrium State
20%
Molecular Dynamics Method
20%
Temperature Jump
20%
Berendsen Thermostat
20%
Non-reactivity
20%
Verlet Algorithm
20%
Microcanonical
20%
Non-equilibrium Molecular Dynamics Simulation
20%
Non-equilibrium Molecular Dynamics
20%
Bond Energy
20%
Engineering
Energy Engineering
100%
Nonequilibrium
66%
Transients
66%
Computer Simulation
66%
Gas-Phase
33%
Accurate Prediction
33%
Internals
33%
Interfacial Layer
33%
Driving Force
33%
Evaporation/Condensation Process
33%
Constant Time
33%
Conformers
33%
Dynamic Method
33%
Temperature Jump
33%
Berendsen Thermostat
33%
Form Finding
33%
Equilibrium State
33%
Simulation Mode
33%
Harmonics
33%
Gibbs Free Energy
33%
Material Science
Chemical Bonding
100%
Chemical Engineering
Gibbs Free Energy
100%
Chemistry
Kinetic Energy
16%
Chemical Bond
16%
Physics
Kinetic Energy
16%
Gibbs Free Energy
16%