Vapor space condensation with surface modifications

Loading...
Thumbnail Image
Authors
Chatterjee, Abhra
Issue Date
2013-08
Type
Electronic thesis
Thesis
Language
ENG
Keywords
Mechanical engineering
Research Projects
Organizational Units
Journal Issue
Alternative Title
Abstract
For the completely hydrophilic surface, the highest heat transfer coefficient was about 12400 W/m2K and that of the completely hydrophobic surface was around 31500 W/m2K, which is about 2.5 times higher than that for the hydrophilic surface with all other parameters unaltered. On the other hand, the surface with a pattern of distinct hydrophobic and hydrophilic regions showed that heat transfer coefficients were higher than that of the hydrophilic surface. However, depending on the type of patterns on the condensation surface, the heat transfer coefficients were either higher or lower than that of the completely hydrophobic surface. Among all the surfaces, the highest heat transfer coefficient (34000 W/m2K) was observed the patterned surface with hydrophilic island diameter of 0.25 mm. With the patterned and the completely hydrophobic surfaces, the heat transfer coefficient was observed to increase significantly with mass flux, while for the completely hydrophilic surface, the heat transfer coefficient was observed to be affected much less by the mass flux. In all cases, the heat transfer coefficients increased with increasing heat flux and decreased with increasing wall sub-cooling. The effect of average quality of the steam showed little effect on the heat transfer coefficients for the hydrophilic surface while an increasing trend of heat transfer coefficient was observed with increasing quality for the completely hydrophobic and patterned surfaces.
Description
August 2013
School of Engineering
Full Citation
Publisher
Rensselaer Polytechnic Institute, Troy, NY
Terms of Use
Journal
Volume
Issue
PubMed ID
DOI
ISSN
EISSN