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Maximization of Exergy Gain in High Temperature Solar Thermal Receivers by Choice of Pipe Radius

Maximization of Exergy Gain in High Temperature Solar Thermal Receivers by Choice of Pipe Radius <jats:p>The problem of optimizing the radius of boiler tubes in a radiation-dominated environment such as a solar thermal power receiver is examined. The trade-off between heat transfer and pumping power is investigated, resulting in an explicit expression for the radius that maximizes the net exergy gain under turbulent flow conditions. The effect of the pumping power being generated on site is included, thus making the result particularly applicable to the design of stand-alone power systems. Examples using typical design values for small parabolic dish solar thermal collectors using water and steam as the working fluid are given to illustrate the characteristics of the problem.</jats:p> http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Journal of Heat Transfer CrossRef

Maximization of Exergy Gain in High Temperature Solar Thermal Receivers by Choice of Pipe Radius

Bannister, P.
Journal of Heat Transfer , Volume 113 (2): 337-340 – May 1, 1991
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Maximization of Exergy Gain in High Temperature Solar Thermal Receivers by Choice of Pipe Radius


Abstract

<jats:p>The problem of optimizing the radius of boiler tubes in a radiation-dominated environment such as a solar thermal power receiver is examined. The trade-off between heat transfer and pumping power is investigated, resulting in an explicit expression for the radius that maximizes the net exergy gain under turbulent flow conditions. The effect of the pumping power being generated on site is included, thus making the result particularly applicable to the design of stand-alone power systems. Examples using typical design values for small parabolic dish solar thermal collectors using water and steam as the working fluid are given to illustrate the characteristics of the problem.</jats:p>

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Publisher
CrossRef
ISSN
0022-1481
DOI
10.1115/1.2910566
Publisher site
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Abstract

<jats:p>The problem of optimizing the radius of boiler tubes in a radiation-dominated environment such as a solar thermal power receiver is examined. The trade-off between heat transfer and pumping power is investigated, resulting in an explicit expression for the radius that maximizes the net exergy gain under turbulent flow conditions. The effect of the pumping power being generated on site is included, thus making the result particularly applicable to the design of stand-alone power systems. Examples using typical design values for small parabolic dish solar thermal collectors using water and steam as the working fluid are given to illustrate the characteristics of the problem.</jats:p>

Journal

Journal of Heat TransferCrossRef

Published: May 1, 1991

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