Keyphrases
Chemical Potential
100%
Complex Molecules
100%
N-Dodecane
100%
Quantum Chemistry
100%
Droplet Evaporation
100%
Evaporation Process
100%
Fuel Droplet
100%
Molecular Dynamics Simulation
100%
Complex Hydrocarbon
66%
Potential Energy
66%
Droplet Heating
66%
Kinetic Model
66%
MD Calculation
33%
Interaction Energy
33%
Time-dependent Schrödinger Equation
33%
Hybrid Quantum
33%
National Academy of Sciences of Ukraine
33%
Classical Potential
33%
Engineering Institutes
33%
Quantitative Kinetics
33%
Power Engineering
33%
Approximate Method
33%
Kiev
33%
Interatomic Distance
33%
Quantum Molecular Dynamics
33%
Hydrocarbon Molecules
33%
Classical MD
33%
PR China
33%
Temperature Gradient
33%
Two-species
33%
Engine-relevant Condition
33%
Liquid-gas Interface
33%
Internal Combustion Engine
33%
Heat Flux
33%
Two-component
33%
Internal Degrees of Freedom
33%
Bing
33%
Background Gas
33%
Numerical Code
33%
H Atoms
33%
Diesel Engine
33%
Hybrid Model
33%
Engine Conditions
33%
Ukraine
33%
Liquid Phase
33%
Molecular Dynamics Model
33%
Air-fuel Mixture
33%
Hydrocarbon Fuel
33%
Tsinghua University
33%
Fuel Vapor
33%
Diesel Droplet
33%
Temperature Effect
33%
Gas Phase
33%
Principal Investigator
33%
Kinetic Algorithms
33%
Surface Chemistry
33%
Heating Process
33%
Range of Applicability
33%
Equilibrium Geometry
33%
Recirculation
33%
Physical Model
33%
Royal Society
33%
Interfacial Phenomena
33%
Collaborative Projects
33%
Moving Boundary
33%
Kinetic Effects
33%
Boltzmann Equation
33%
Automotive Applications
33%
Project Member
33%
Numerical Algorithms
33%
Engineering
Chemical Potential
100%
Kinetic Model
100%
Potential Application
100%
Potential Energy
100%
Computer Simulation
100%
Degree of Freedom
50%
Joints (Structural Components)
50%
Boltzmann Equation
50%
Dynamic Models
50%
Internal Degree
50%
Fossil Fuel
50%
Thermal Gradient
50%
Diesel Fuel
50%
Automotive Application
50%
Molecular Mechanics
50%
Power Engineering
50%
Interaction Energy
50%
Liquid Phase
50%
Approximate Method
50%
Hybrid Model
50%
Heat Flux
50%
Applicability
50%
Gas-Phase
50%
Physical Model
50%
Heikal
50%
Internal Combustion Engine
50%
Liquid Gas
50%
Diesel Engine
50%
Temperature Gradients
50%