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西北工业大学 国内
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科研成果
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刘 殊远
Professor
航天学院
h-index
490
引用
12
H-指数
根据储存在 Pure 的刊物以及来自 Scopus 的引用文献数量计算
2017
2025
每年的科研成果
综述
指纹
网络
科研成果
(50)
相似简介
(1)
指纹
深入其中 Shuyuan Liu 为活跃的研究主题。这些主题标签来自此人的成果。它们共同形成唯一的指纹。
分类
加权
按字母排序
Engineering
Aero-Engines
18%
Aerosol Dynamics
22%
Boundary Layer
68%
Burn Time
18%
Burning Surface
50%
Catalytic Steam Reforming
58%
Coating Structure
18%
Combined Cycle
18%
Combustion Chamber
16%
Composite Powder
18%
Computational Fluid Dynamics
18%
Cooling Channel
69%
Cooling Performance
18%
Cooling System
22%
Dynamic Process
21%
Exhaust Hood
18%
Experimental Result
21%
Filled Particle
18%
Finite Element Analysis
18%
Flight Altitude
18%
Flow Distribution
23%
Flow Velocity
31%
Fossil Fuel
75%
Heat Flux
18%
Heat Release
19%
Heat Transfer Coefficient
36%
Heated Wall
18%
Ignition
18%
Load Transfer
18%
Methane
24%
Multi-Hole Injector
18%
Multistage
18%
Numerical Study
58%
Oil Droplet
18%
Oxidizer
55%
Pyrolysis
18%
Reacting Flow
43%
Response Characteristic
18%
Rocket Engine
26%
Secondary Flow
31%
Simulation Result
20%
Solid Fuel
24%
Steam Gasification
19%
Steam Reforming
33%
Supercritical Condition
18%
Taylor Expansion
18%
Theoretical Study
18%
Thermal Performance
20%
Transients
25%
Two Dimensional
19%
Chemical Engineering
Aerosol Dynamics
18%
Butene
9%
Chemical Kinetics Characteristics
11%
Coke Deposition
85%
Coke Formation
40%
Core Flow
30%
Deposition Rate
18%
Energy Balance
9%
Enthalpy
66%
Fluid Flow
9%
Gasification
18%
Heat Convection
33%
Heat Flux
36%
Heat Transfer Coefficient
100%
Heating Rate
18%
Nanoparticle
36%
Olefin
9%
Polycyclic Aromatic Hydrocarbon
18%
Pyrolysis
99%
Pyrolysis Reaction
9%
Sulfuric Acid
9%
Thermal Conductivity
22%
Thermal Stratification
9%
Urea Oxidation Reaction
18%
Water Content
25%
Chemistry
3-Methyl-1-Butyne
18%
Ab Initio Calculation
10%
Aldehyde
27%
Alkane
9%
Alkene
9%
Alkyne
9%
Biofuel
9%
Calculation Method
18%
CCSD
10%
Chemical Kinetics Characteristics
10%
Chemistry
40%
Combustion Kinetics
18%
Coupled Cluster Theory
6%
Desulfurization
9%
DFT-B3LYP Calculation
9%
Dissociation Energy
9%
Energetics
24%
Enthalpy
18%
Heat Capacity
9%
Hydrogen
18%
Hydrogen Atom
36%
Ionic Liquid
12%
Ketones
9%
k·p perturbation theory
9%
Methyl Group
18%
Molecular dynamics simulation
18%
Møller-Plesset Perturbation Theory
9%
Natural Gas
9%
Nitrocyclohexane
18%
Nitrogen Dioxide
34%
Organic Compound
9%
Perturbation Theory
9%
Potential Energy
18%
Pyrolysis
18%
QCISD(T)
9%
Quantum Chemistry
9%
Reaction Enthalpy
24%
Shock Tubes
18%
Sulfur Dioxide
9%
Thermochemistry
18%
Toxic Gas
9%
Transition State Theory
9%
Vibrational Frequency
15%
