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Dr. Mohamed Reda Aly Abd-Elhamid Salem :: Publications:

Title:
Effect of γ-Al2O3/water nanofluid on the thermal performance of shell and coil heat exchanger with different coil torsions
Authors: K.M. Elshazly; R.Y. Sakr; R.K. Ali; M.R. Salem
Year: 2017
Keywords: Heat exchanger; Nanofluid; Helically Coiled Tube; Torsion; Friction
Journal: Heat and Mass Transfer
Volume: 53
Issue: 6
Pages: 1893–1903
Publisher: Springer Berlin Heidelberg
Local/International: International
Paper Link:
Full paper 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
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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