This paper presents three-dimensional numerical simulation results of the effect of surface tension on two-phase flow over unglazed collector covered with a wire screen. The homogenous model is used to simulate the flow with and without the effect of porous material of wire screen and surface tension. The Eulerian-Eulerian multiphase flow approach was used in this study. The phases are completely stratified, the interphase is well defined (free surface flow), and interphase transfer rate is very large. The liquid–solid interface, gas–liquid interface, and the volume fraction for both phases were considered as boundaries for this model. The results show that the use of porous material of wire screen will reduce the velocity of water flow and help the water flow to distribute evenly over unglazed plate collector. The possibility of forming any hot spot region on the surface was reduced. The water velocity with the effect of surface tension was found higher than the one without this effect, due to the extra momentum source added by surface tension in longitudinal direction. The use of porous material of wires assures an evenly distribution flow velocity over the inclined plate, therefore helps a net enhancement of heat transfer mechanism for unglazed solar water collector application.
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June 2019
Research-Article
Numerical Investigation of Two-Phase Flow Over Unglazed Plate Collector Covered With Porous Material of Wire Screen for Solar Water Heater Application
T. Salameh,
T. Salameh
Department of Sustainable and
Renewable Energy Engineering,
College of Engineering,
University of Sharjah,
Sharjah, United Arab Emirates
Renewable Energy Engineering,
College of Engineering,
University of Sharjah,
Sharjah, United Arab Emirates
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Y. Zurigat,
Y. Zurigat
Department of Mechanical Engineering,
University of Jordan,
Amman, Jordan
University of Jordan,
Amman, Jordan
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A. Badran,
A. Badran
Department of Mechanical Engineering,
Philadelphia University,
Amman, Jordan
Philadelphia University,
Amman, Jordan
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C. Ghenai,
C. Ghenai
Department of Sustainable and Renewable
Energy Engineering,
College of Engineering,
University of Sharjah,
Sharjah, United Arab Emirates
Energy Engineering,
College of Engineering,
University of Sharjah,
Sharjah, United Arab Emirates
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M. El Haj Assad,
M. El Haj Assad
Department of Sustainable and Renewable
Energy Engineering,
College of Engineering,
University of Sharjah,
Sharjah, United Arab Emirates
Energy Engineering,
College of Engineering,
University of Sharjah,
Sharjah, United Arab Emirates
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Khalil Khanafer,
Khalil Khanafer
Mechanical Engineering Department,
Australian College of Kuwait,
Mishref, Kuwait;
Advanced Manufacturing Lab (AML),
School of Engineering,
University of Guelph,
Guelph, ON N1G 2W1, Canada
Australian College of Kuwait,
Mishref, Kuwait;
Advanced Manufacturing Lab (AML),
School of Engineering,
University of Guelph,
Guelph, ON N1G 2W1, Canada
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Kambiz Vafai
Kambiz Vafai
Mechanical Engineering Department,
University of California,
Riverside, CA 92521
e-mail: vafai@engr.ucr.edu
University of California,
Riverside, CA 92521
e-mail: vafai@engr.ucr.edu
Search for other works by this author on:
T. Salameh
Department of Sustainable and
Renewable Energy Engineering,
College of Engineering,
University of Sharjah,
Sharjah, United Arab Emirates
Renewable Energy Engineering,
College of Engineering,
University of Sharjah,
Sharjah, United Arab Emirates
Y. Zurigat
Department of Mechanical Engineering,
University of Jordan,
Amman, Jordan
University of Jordan,
Amman, Jordan
A. Badran
Department of Mechanical Engineering,
Philadelphia University,
Amman, Jordan
Philadelphia University,
Amman, Jordan
C. Ghenai
Department of Sustainable and Renewable
Energy Engineering,
College of Engineering,
University of Sharjah,
Sharjah, United Arab Emirates
Energy Engineering,
College of Engineering,
University of Sharjah,
Sharjah, United Arab Emirates
M. El Haj Assad
Department of Sustainable and Renewable
Energy Engineering,
College of Engineering,
University of Sharjah,
Sharjah, United Arab Emirates
Energy Engineering,
College of Engineering,
University of Sharjah,
Sharjah, United Arab Emirates
Khalil Khanafer
Mechanical Engineering Department,
Australian College of Kuwait,
Mishref, Kuwait;
Advanced Manufacturing Lab (AML),
School of Engineering,
University of Guelph,
Guelph, ON N1G 2W1, Canada
Australian College of Kuwait,
Mishref, Kuwait;
Advanced Manufacturing Lab (AML),
School of Engineering,
University of Guelph,
Guelph, ON N1G 2W1, Canada
Kambiz Vafai
Mechanical Engineering Department,
University of California,
Riverside, CA 92521
e-mail: vafai@engr.ucr.edu
University of California,
Riverside, CA 92521
e-mail: vafai@engr.ucr.edu
1Corresponding author.
Contributed by the Solar Energy Division of ASME for publication in the JOURNAL OF SOLAR ENERGY ENGINEERING: INCLUDING WIND ENERGY AND BUILDING ENERGY CONSERVATION. Manuscript received April 3, 2018; final manuscript received October 2, 2018; published online November 14, 2018. Assoc. Editor: M. Keith Sharp.
J. Sol. Energy Eng. Jun 2019, 141(3): 031009 (9 pages)
Published Online: November 14, 2018
Article history
Received:
April 3, 2018
Revised:
October 2, 2018
Citation
Salameh, T., Zurigat, Y., Badran, A., Ghenai, C., El Haj Assad, M., Khanafer, K., and Vafai, K. (November 14, 2018). "Numerical Investigation of Two-Phase Flow Over Unglazed Plate Collector Covered With Porous Material of Wire Screen for Solar Water Heater Application." ASME. J. Sol. Energy Eng. June 2019; 141(3): 031009. https://doi.org/10.1115/1.4041737
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