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Indirect evaporative cooling of air to a sub-wet bulb temperature
Ala Hasan
*
*
Corresponding author for this work
Not published at VTT
Aalto University
Research output
:
Contribution to journal
›
Article
›
Scientific
›
peer-review
129
Citations (Scopus)
Overview
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Keyphrases
Indirect Evaporative Cooler
100%
Counterflow
100%
Sub-wet Bulb Temperature
100%
Ambient Air
50%
Single-stage
50%
Parallel Flow
50%
Wet-bulb Temperature
50%
Evaporative Cooler
50%
Industrial Application
25%
Dew Point Temperature
25%
Airflow
25%
Heat Mass Transfer
25%
Cooling Air
25%
Building Cooling
25%
Heat Transfer Process
25%
Mass Transfer Process
25%
Compression Device
25%
Vapor Compression
25%
Regenerative Flow
25%
Wet Bulb
25%
Cooling Effectiveness
25%
Sustainable Method
25%
Main Idea
25%
Precooling
25%
Engineering
Wet-Bulb Temperature
100%
Counterflow
100%
Evaporative Cooler
50%
Ambient Air
50%
Parallel Flow
50%
Industrial Applications
25%
Low-Temperature
25%
Main Idea
25%
Cooling Air
25%
Vapor Compression
25%
Point Temperature
25%
Dew Point
25%
Air Products
25%
Air Flow
25%
Mass Transfer
25%
Heat Transfer
25%
INIS
air
100%
coolers
100%
bulbs
100%
evaporative cooling
100%
cooling
50%
flow counters
50%
applications
12%
constraints
12%
vapors
12%
air flow
12%
heat transfer
12%
compression
12%
dew point
12%
mass transfer
12%
branching ratio
12%