Exergy efficiency analysis of a flat plate solar collector using graphene based nanofluid

Z. Said; M. A. Alim; Isam Janajreh

doi:10.1088/1757-899X/92/1/012015

Exergy efficiency analysis of a flat plate solar collector using graphene based nanofluid

Z. Said, M. A. Alim, Isam Janajreh

Research output: Contribution to journal › Conference article › peer-review

18 Citations (Scopus)

Abstract

The thermal efficiency of a flat plate solar thermal collector is largely affected by the thermal conductivity of the fluid used. In this paper, we theoretically analyzed the heat transfer performance, the entropy generation rate, and the exergy efficiency of the two different graphene based nanofluids (graphene/Acetone and graphene/water). From the analyses, it is revealed that by inserting a small amount of graphene nanoparticles in water, exergy efficiency could be enhanced by 21%, comparing to conventional fluids and entropy generation is decreased by 4%. However, the graphene/water nanofluid shows a lower entropy generation. This characteristic suggests that graphene/water nanofluid is a better candidate for flat solar thermal application.

Original language	English
Article number	012015
Journal	IOP Conference Series: Materials Science and Engineering
Volume	92
Issue number	1
DOIs	https://doi.org/10.1088/1757-899X/92/1/012015
Publication status	Published - Oct 12 2015
Externally published	Yes
Event	International Conference on Advanced Materials, ICAM 2015 - Irbid, Jordan Duration: Apr 27 2015 → Apr 29 2015

ASJC Scopus subject areas

General Materials Science
General Engineering

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10.1088/1757-899X/92/1/012015

Cite this

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title = "Exergy efficiency analysis of a flat plate solar collector using graphene based nanofluid",

abstract = "The thermal efficiency of a flat plate solar thermal collector is largely affected by the thermal conductivity of the fluid used. In this paper, we theoretically analyzed the heat transfer performance, the entropy generation rate, and the exergy efficiency of the two different graphene based nanofluids (graphene/Acetone and graphene/water). From the analyses, it is revealed that by inserting a small amount of graphene nanoparticles in water, exergy efficiency could be enhanced by 21%, comparing to conventional fluids and entropy generation is decreased by 4%. However, the graphene/water nanofluid shows a lower entropy generation. This characteristic suggests that graphene/water nanofluid is a better candidate for flat solar thermal application.",

author = "Z. Said and Alim, {M. A.} and Isam Janajreh",

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AU - Said, Z.

AU - Alim, M. A.

AU - Janajreh, Isam

N1 - Publisher Copyright: © Published under licence by IOP Publishing Ltd.

PY - 2015/10/12

Y1 - 2015/10/12

N2 - The thermal efficiency of a flat plate solar thermal collector is largely affected by the thermal conductivity of the fluid used. In this paper, we theoretically analyzed the heat transfer performance, the entropy generation rate, and the exergy efficiency of the two different graphene based nanofluids (graphene/Acetone and graphene/water). From the analyses, it is revealed that by inserting a small amount of graphene nanoparticles in water, exergy efficiency could be enhanced by 21%, comparing to conventional fluids and entropy generation is decreased by 4%. However, the graphene/water nanofluid shows a lower entropy generation. This characteristic suggests that graphene/water nanofluid is a better candidate for flat solar thermal application.

AB - The thermal efficiency of a flat plate solar thermal collector is largely affected by the thermal conductivity of the fluid used. In this paper, we theoretically analyzed the heat transfer performance, the entropy generation rate, and the exergy efficiency of the two different graphene based nanofluids (graphene/Acetone and graphene/water). From the analyses, it is revealed that by inserting a small amount of graphene nanoparticles in water, exergy efficiency could be enhanced by 21%, comparing to conventional fluids and entropy generation is decreased by 4%. However, the graphene/water nanofluid shows a lower entropy generation. This characteristic suggests that graphene/water nanofluid is a better candidate for flat solar thermal application.

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JO - IOP Conference Series: Materials Science and Engineering

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Exergy efficiency analysis of a flat plate solar collector using graphene based nanofluid

Abstract

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