Thermal performances of parallelogram channels with skewed ribs and tilted three dimensional fillets

•Thermal performances of parallelogram ribbed channels with tilted fillets are studied.•Effects of fillet arrangement and flow direction on Nu and f properties are examined.•Nu and f correlations for five sets of flow configurations are generated.•Comparative TPF for present compound HTE measure are...

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Bibliographic Details
Published in:International journal of heat and mass transfer 2016-05, Vol.96, p.548-564
Main Authors: Chang, Shyy Woei, Liou, Tong-Miin, Jiang, Yu-Ru
Format: Article
Language:English
Subjects:
Auxiliary fillets
Channels
Compound heat transfer enhancement
Fillets
Fluid dynamics
Fluid flow
Nusselt number
Ribbed parallelogram channel
Ribs
Three dimensional
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Summary:•Thermal performances of parallelogram ribbed channels with tilted fillets are studied.•Effects of fillet arrangement and flow direction on Nu and f properties are examined.•Nu and f correlations for five sets of flow configurations are generated.•Comparative TPF for present compound HTE measure are analyzed. Thermal performance improvements for ribbed channels are attempted by installing auxiliary fillets on ribbed endwalls. Detailed heat transfer distributions over two opposite endwalls enhanced by 45° ribs and a row of tilted three-dimensional fillets of 1/2 rib heights with streamlined shape are measured at five flow configurations using steady-state infrared thermography method. Local, area-averaged and channel-averaged Nusselt numbers (Nu, N‾u and Nu‾‾), Fanning friction factors (f) and thermal performance factors (TPF) for each test channel are examined with Reynolds number (Re) in the range of 5000–15,000. The HTE properties and associated f augmentations for the compound HTE measures are assessed by comparing the N‾u and f data detected from present test channels with the Nusselt numbers (Nu∞) and f factors (f∞) of smooth plain tube. Empirical correlations evaluating N‾u and f factors for present ribbed channels with/without in-lined/staggered fillets are generated. With present in-lined (staggered) fillets on two opposite ribbed endwalls, the HTE ratios in terms of Nu‾‾/Nu∞ are raised to 4.43–4.21 (3.85–4.05) with forward flows and 4.31–4.02 (4.14–4.06) with backward flows at 5000⩽Re⩽15,000; whereas the corresponding f/f∞ ratios and TPF values fall in the respective ranges of 6.5–3.35 and 7.3–3.6 (7.5–5.6 and 9.06–7.39) with forward flows and 2.37–2.81 and 2.22–2.62 (1.97–2.29 and 1.99–2.09) with backward flows. As the Nu‾‾/Nu∞, f/f∞ and TPF values for present ribbed channels with in-lined/staggered fillets are generally raised from the ribbed channel counterparts of 3.93–3.61 (Nu‾‾/Nu∞), 1.63–1.53 (f/f∞) and 2.41–2.35 (TPF), the improved thermal performances by fitting the tilted fillets to enhance the rib-induced vortical flows are demonstrated.
ISSN:0017-9310
1879-2189
DOI:10.1016/j.ijheatmasstransfer.2016.01.062