Heat exchanger design: Optimal uniform separation between rectangular fins protruding from a vertical rectangular base

C. W. Leung; S. D. Probert; M. J. Shilston

doi:10.1016/0306-2619(85)90003-0

Heat exchanger design: Optimal uniform separation between rectangular fins protruding from a vertical rectangular base

C. W. Leung
, S. D. Probert
, M. J. Shilston

School of Professional Education and Executive Development (SPEED)

Research output: Contribution to journal › Article › peer-review

37 Citations (Scopus)

Abstract

Steady-state rates of heat loss, from an array of 3 mm thick, 250 mm long, horizontal rectangular duralumin fins extending 60 mm perpendicularly out of a 250 mm × 190 mm vertical rectangular duralumin base, have been measured. With the base, at a uniform temperature of between 40°C and 80°C, in a 20°C ambient environment, two separations of the parallel fins, corresponding to maxima in the rate of heat loss versus fin separation curves ensued, respectively at 12 ± 1 mm and 38 ± 1 mm. The use of the latter maxima (i.e. the optimal separation) leads to the higher rate of heat loss. The heat transfer performances of vertical and horizontal rectangular fin arrays on a vertical rectangular base are compared: using the same geometrical configuration and identical base temperatures in both cases, the vertical fin orientation has the more rapid, steady-state heat loss.

Original language	English
Pages (from-to)	287-299
Number of pages	13
Journal	Applied Energy
Volume	19
Issue number	4
DOIs	https://doi.org/10.1016/0306-2619(85)90003-0
Publication status	Published - 1985

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title = "Heat exchanger design: Optimal uniform separation between rectangular fins protruding from a vertical rectangular base",

abstract = "Steady-state rates of heat loss, from an array of 3 mm thick, 250 mm long, horizontal rectangular duralumin fins extending 60 mm perpendicularly out of a 250 mm × 190 mm vertical rectangular duralumin base, have been measured. With the base, at a uniform temperature of between 40°C and 80°C, in a 20°C ambient environment, two separations of the parallel fins, corresponding to maxima in the rate of heat loss versus fin separation curves ensued, respectively at 12 ± 1 mm and 38 ± 1 mm. The use of the latter maxima (i.e. the optimal separation) leads to the higher rate of heat loss. The heat transfer performances of vertical and horizontal rectangular fin arrays on a vertical rectangular base are compared: using the same geometrical configuration and identical base temperatures in both cases, the vertical fin orientation has the more rapid, steady-state heat loss.",

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T1 - Heat exchanger design

T2 - Optimal uniform separation between rectangular fins protruding from a vertical rectangular base

AU - Leung, C. W.

AU - Probert, S. D.

AU - Shilston, M. J.

PY - 1985

Y1 - 1985

N2 - Steady-state rates of heat loss, from an array of 3 mm thick, 250 mm long, horizontal rectangular duralumin fins extending 60 mm perpendicularly out of a 250 mm × 190 mm vertical rectangular duralumin base, have been measured. With the base, at a uniform temperature of between 40°C and 80°C, in a 20°C ambient environment, two separations of the parallel fins, corresponding to maxima in the rate of heat loss versus fin separation curves ensued, respectively at 12 ± 1 mm and 38 ± 1 mm. The use of the latter maxima (i.e. the optimal separation) leads to the higher rate of heat loss. The heat transfer performances of vertical and horizontal rectangular fin arrays on a vertical rectangular base are compared: using the same geometrical configuration and identical base temperatures in both cases, the vertical fin orientation has the more rapid, steady-state heat loss.

AB - Steady-state rates of heat loss, from an array of 3 mm thick, 250 mm long, horizontal rectangular duralumin fins extending 60 mm perpendicularly out of a 250 mm × 190 mm vertical rectangular duralumin base, have been measured. With the base, at a uniform temperature of between 40°C and 80°C, in a 20°C ambient environment, two separations of the parallel fins, corresponding to maxima in the rate of heat loss versus fin separation curves ensued, respectively at 12 ± 1 mm and 38 ± 1 mm. The use of the latter maxima (i.e. the optimal separation) leads to the higher rate of heat loss. The heat transfer performances of vertical and horizontal rectangular fin arrays on a vertical rectangular base are compared: using the same geometrical configuration and identical base temperatures in both cases, the vertical fin orientation has the more rapid, steady-state heat loss.

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U2 - 10.1016/0306-2619(85)90003-0

DO - 10.1016/0306-2619(85)90003-0

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SN - 0306-2619

VL - 19

SP - 287

EP - 299

JO - Applied Energy

JF - Applied Energy

IS - 4

ER -

Heat exchanger design: Optimal uniform separation between rectangular fins protruding from a vertical rectangular base

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