Analyses of entropy generation and pressure drop for a conventional flat plate solar collector using different types of metal oxide nanofluids
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Date
2013
Authors
M. A. Alim
Z. Abdin
R. Saidur
A. Hepbasli
M. A. Khairul
N. A. Rahim
Journal Title
Journal ISSN
Volume Title
Publisher
ELSEVIER SCIENCE SA
Open Access Color
Green Open Access
Yes
OpenAIRE Downloads
OpenAIRE Views
Publicly Funded
No
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Impulse
Top 10%
Influence
Top 10%
Popularity
Top 1%
Abstract
This paper theoretically analyzes entropy generation heat transfer enhancement capabilities and pressure drop of an absorbing medium with suspended nanoparticles (Al2O3 CuO SiO2 TiO2 dispersed in water) inside a flat plate solar collector. Steady laminar axial flow of a nanofluid is considered. These nanofluids considered have different nanoparticles volume fractions and volume flow rates in the range of 1-4% and 1-4 L/min respectively. Based on the analytical results the CuO nanofluid could reduce the entropy generation by 4.34% and enhance the heat transfer coefficient by 22.15% theoretically compared to water as an absorbing fluid. It also has a small penalty in the pumping power by 1.58%. (C) 2013 Elsevier B.V. All rights reserved.
Description
Keywords
Solar collector, Nanofluid, Entropy generation, Pressure drop, Pumping power, CONVECTIVE HEAT-TRANSFER, THERMAL-CONDUCTIVITY, EXERGY ANALYSIS, AIR HEATER, FLOW, ENERGY, OPTIMIZATION, VISCOSITY, Pressure Drop, Entropy Generation, Pumping Power, Solar Collector, Nanofluid, solar collectors, nanofluids, XXXXXX - Unknown, entropy
Fields of Science
0211 other engineering and technologies, 0202 electrical engineering, electronic engineering, information engineering, 02 engineering and technology
Citation
WoS Q
Scopus Q
OpenCitations Citation Count
140
Source
Energy and Buildings
Volume
66
Issue
Start Page
289
End Page
296
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Citations
CrossRef : 54
Scopus : 155
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Mendeley Readers : 178
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