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Effect of transmembrane pressure, linear velocity, and temperature on permeate water flux of high-density vertically aligned carbon nanotube membranes
Kwang Jin Lee,
Hee-Deung Park
School of Civil, Environmental and Architectural Engineering
Research output
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Contribution to journal
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Article
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peer-review
9
Citations (Scopus)
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Dive into the research topics of 'Effect of transmembrane pressure, linear velocity, and temperature on permeate water flux of high-density vertically aligned carbon nanotube membranes'. Together they form a unique fingerprint.
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Earth & Environmental Sciences
carbon nanotube
100%
water flux
87%
membrane
56%
water temperature
31%
temperature
31%
energy consumption
24%
effect
19%
used water
9%
ultrafiltration
9%
heating
6%
engineering
5%
water
5%
comparison
3%
parameter
3%
Engineering & Materials Science
Carbon nanotubes
87%
Membranes
69%
Fluxes
67%
Water
45%
Temperature
33%
Energy utilization
17%
Ultrafiltration
11%
Transport properties
10%
Permeation
9%
Polyurethanes
8%
Heating
5%
Chemical Compounds
Velocity
69%
Carbon Nanotube
60%
Pressure
48%
Energy Consumption
45%
Purity
13%
Ultrafiltration
13%
Transport Property
13%