Effect of γ-Al2O3/water nanofluid on the thermal performance of shell and coil heat exchanger with different coil torsions
Heat and Mass Transfer • 2017
Publication Information
Authors
K.M. Elshazly; R.Y. Sakr; R.K. Ali; M.R. Salem
Keywords
Heat exchanger; Nanofluid; Helically Coiled Tube; Torsion; Friction
Journal
Heat and Mass Transfer
Publisher
Springer Berlin Heidelberg
Volume
53
Issue
6
Pages
1893–1903
publication.type
International
Paper Link
Open Link
Supplementary Materials
Mohamed Reda Aly Abd-Elhamid Salem_5 Effect of γ-Al2O3Water Nanofluid on the Thermal Performance of Shell and Coil Heat Exchanger with Different Coil Torsions.pdf
Abstract
This work investigated experimentally the thermal performance of shell and coil heat exchanger with different coil torsions (λ) for γ-Al2O3/water nanofluid flow. Five helically coiled tube (HCT) with 0.0442 ≤ λ ≤ 0.1348 were tested within turbulent flow regime. The average size of γ-Al2O3 particles is 40 nm and volume concentration (φ) is varied from 0 to 2%. Results showed that reducing coil torsion enhances the heat transfer rate and increases HCT-friction factor (fc). Also, it is noticed that HCT average Nusselt number (Nut) and fc of nanofluids increase with increasing γ-Al2O3 volume concentration. The thermal performance index, TPI = (ht,nf/ht,bf)/(ΔPc,nf/ΔPc,bf). increases with increasing nanoparticles concentration, coil torsion, HCT-side inlet temperature and nanofluid flow rate. Over the studied range of HCT-Reynolds number, the average value of TPI is of 1.34 and 2.24 at φ = 0.5% and φ = 2%, respectively. The average value of TPI is of 1.64 at λ = 0.0442 while its average value at λ = 0.1348 is of 2.01. One of the main contributions is to provide heat equipments designers with Nut and fc correlations for practical configurations shell and coil heat exchangers with a wide range of nanofluid concentration.
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