Constructal dendritic configuration for the radiation heating of a solid stream

dc.contributor.author

Kang, DH

dc.contributor.author

Lorente, S

dc.contributor.author

Bejan, A

dc.date.accessioned

2011-04-15T16:46:42Z

dc.date.issued

2010-06-01

dc.description.abstract

Here we show that the configuration of a slender enclosure can be optimized such that the radiation heating of a stream of solid is performed with minimal fuel consumption at the global level. The solid moves longitudinally at constant rate through the enclosure. The enclosure is heated by gas burners distributed arbitrarily, in a manner that is to be determined. The total contact area for heat transfer between the hot enclosure and the cold solid is fixed. We find that minimal global fuel consumption is achieved when the longitudinal distribution of heaters is nonuniform, with more heaters near the exit than the entrance. The reduction in fuel consumption relative to when the heaters are distributed uniformly is of order 10%. Tapering the plan view (the floor) of the heating area yields an additional reduction in overall fuel consumption. The best shape is when the floor area is a slender triangle on which the cold solid enters by crossing the base. These architectural features recommend the proposal to organize the flow of the solid as a dendritic design, which enters as several branches, and exits as a single hot stream of prescribed temperature. The thermodynamics of heating is presented in modern terms in the Sec. (exergy destruction, entropy generation). The contribution is that to optimize "thermodynamically" is the same as reducing the consumption of fuel. © 2010 American Institute of Physics.

dc.description.version

Version of Record

dc.identifier.issn

0021-8979

dc.identifier.uri

https://hdl.handle.net/10161/3379

dc.language.iso

en_US

dc.publisher

AIP Publishing

dc.relation.ispartof

Journal of Applied Physics

dc.relation.isversionof

10.1063/1.3429195

dc.relation.journal

Journal of Applied Physics

dc.title

Constructal dendritic configuration for the radiation heating of a solid stream

dc.type

Journal article

duke.date.pubdate

2010-6-1

duke.description.issue

11

duke.description.volume

107

pubs.begin-page

114910

pubs.issue

11

pubs.organisational-group

Duke

pubs.organisational-group

Mechanical Engineering and Materials Science

pubs.organisational-group

Pratt School of Engineering

pubs.publication-status

Published

pubs.volume

107

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