Engineering
Drop Size Distribution
100%
Multistage
78%
Dispersed Phase
73%
Continuous Phase
69%
Contactor
65%
Ultrasonics
60%
Hydrodynamics
60%
Extractor
60%
Drop Size
52%
Composite Material
52%
Kinetic Study
52%
Breakage
43%
Acid Solution
39%
Transmissions
34%
Flow Channel
34%
Diesel Fuel
32%
Solvent Extraction
32%
Impeller Speed
30%
Fluid Viscosity
30%
Concentration Distribution
26%
Liquid Stirred Tank
26%
Fouling
26%
Optimal Policy
26%
Simulation Model
26%
Transesterification
26%
Biodiesel Production
26%
Ferric Sulfate
26%
Cogeneration
26%
Impeller Region
26%
Impeller
26%
Liquid System
26%
Echo Pulse
26%
Phase-Inversion
26%
Outlet Concentration
26%
Metal Recovery
26%
Ignition Engine
26%
Compression Ignition
26%
Rate Data
26%
Extraction System
26%
Protonation
26%
Interfacial Region
26%
Air System
26%
Corona Discharge
26%
Supercritical Carbon Dioxide
26%
Indoor Air
26%
Multiphase System
26%
Chemical System
26%
Initial Value
26%
Reversible Reaction
26%
Circulation Time
26%
Keyphrases
Organo
65%
Metal Ions
58%
Ceramic Matrix Composites
52%
Cellular Column
52%
Stirred Cell Reactor
52%
Drop Size Distribution
52%
Extractor
52%
Water Stream
46%
Linalool
41%
Dispersed Phase Holdup
34%
Distribution Profile
34%
Particle Size Distribution
31%
Phase Chemistry
31%
Silane
28%
Optimal Policy
26%
Catalyst Decay
26%
Concentration-independent
26%
Turbine Impeller
26%
8-Hydroxyquinoline
26%
Aqueous Phase
26%
Ionic Equilibrium
26%
Sulfuric Acid Solution
26%
Drop Breakage
26%
Frequency Formula
26%
Stirred Tank
26%
Biodiesel
26%
Concentration Gradient
26%
Nonlinear Isotherms
26%
Liquid-liquid
26%
Power (co-) Generation
26%
Simulation Analysis
26%
Equilibrium Studies
26%
Micromixing
26%
Xylene
26%
Sulfuric Acid
26%
Alkenyl
26%
Supercritical Biodiesel Production
26%
Chemical Equilibrium
26%
Silica Aerogel
26%
Liquid-liquid System
26%
Synthesized Adsorbents
26%
Cobalt Extraction
26%
Di-(2-ethylhexyl) Phosphoric Acid (D2EHPA)
26%
Metal Separation
26%
Hexadecane
26%
Local Volume Fraction
26%
Pulse-echo Ultrasonic
26%
Vertical pipe
26%
Combustion Technology
26%
Thermophysical Properties
26%