Engineering
Asphaltenes
100%
Pyrolysis
100%
Saturates
50%
Elemental Composition
50%
Flame Ionization Detector
50%
Processing Method
50%
Aromatics
50%
Ultrasonics
50%
Numerical Model
50%
Source Term
50%
Heavy Oil
50%
Couplings
41%
Surfactant
33%
Chemical Structure
29%
Oil Sample
25%
Sonotrode
25%
Liquid Gas
25%
Volume of Fluid Method
25%
Acoustic Field
25%
Dynamic Models
25%
Flow Field
25%
Main Flow
25%
Numerical Approach
25%
Computational Fluid Dynamics
25%
Demonstrates
25%
Convective
25%
Liquid Medium
25%
Diffusive
25%
Thermal Degradation
16%
Kinetic Model
16%
Residual Oil
16%
Kinetic Parameter
16%
Heavy Fuel Oil
16%
Experimental Technique
16%
Linear Combination
16%
Market Share
16%
Droplet Size Distribution
16%
Breakage
16%
Fossil Fuel
16%
Energy Carrier
16%
Free Carbon
16%
Key Parameter
16%
Reducing Emission
16%
Beneficial Effect
16%
Carrier Liquid
16%
Energy Market
12%
Bio-Oil
12%
Renewable Energy
12%
Two Dimensional Gas Chromatography
12%
Impact Ionization
12%
Material Science
Asphaltenes
100%
Residual Fuel
75%
Chemiluminescence
50%
Data Processing
50%
Time-of-Flight Mass Spectrometry
50%
Film
50%
Structure (Composition)
41%
Surface Active Agent
33%
Chemical Decomposition
25%
Fuel Oil
25%
Thermal Degradation
25%
Two Dimensional Gas Chromatography
16%
Fossil Fuel
16%
Scanning Electron Microscopy
16%
Keyphrases
Heavy Oil Processing
50%
Pyrolysate
50%
GC×GC
50%
Sulfur Chemiluminescence Detector
50%
Sonoprocessing
50%
Cavitation Reactor
50%
Vapor Cavity
14%
In-house Experiment
12%
Degradation Distribution
12%