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The effect of mixing rates on the formation and growth of condensation aerosols in a model stagnation flow
Amjad Alshaarawi, Fabrizio Bisetti
Mechanical Engineering
Physical Sciences and Engineering
Research output
:
Contribution to journal
›
Article
›
peer-review
4
Scopus citations
Overview
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Dive into the research topics of 'The effect of mixing rates on the formation and growth of condensation aerosols in a model stagnation flow'. Together they form a unique fingerprint.
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Engineering
Flow Time
100%
Mixing Layer
100%
Number Density
100%
Particle Concentration
100%
Numerical Study
50%
Gas-Phase
50%
Length Scale
50%
Scavenging
50%
Mass Transfer
50%
Flow Configuration
50%
Particle Phase
50%
Illustrates
50%
Heat Transfer
50%
Polydispersity
50%
Earth and Planetary Sciences
Stagnation Flow
100%
Concentration (Composition)
66%
Aerosol
33%
Mass Transfer
33%
Scavenging
33%
Nucleation
33%
Vapor Phase
33%
Keyphrases
Stagnation Point Flow
100%
Density Fractions
16%
Supersaturated Vapor
16%
Condensation Regime
16%
Aerosol Phase
16%
Gas Phase Transport
16%
Time Fraction
16%
Particle Phase
16%
Mean Droplet Diameter
16%
Heat Transport
16%
Fast Mixing
16%
Chemical Engineering
Mass Transfer
100%