Samir M. Elshamy scite author profile

The aim of this research is to investigate experimentally the characteristics of the convective heat transfer and exergy analysis of pure water and water based Al2O3 nanofluid through helical coiled tubes (HCTs) and conical coiled tubes (CCTs) inside shell and coil heat exchangers. HCT and CCT fabricated with different coil torsions (λ) ranges from 0.0202 to 0.052 with different two angles (0° and 45°) while have the same curvature ratio (δ = 0.0564). The effects of mean coil torsion, the cone angle and nanoparticles volume concentration on the thermal performance were investigated. Results indicated that the overall heat transfer coefficient (Uov), convection heat transfer coefficient (ht), the tube side Nusselt number (Nut), effectiveness (ɛ) and exergy efficiency (ηex) of nanofluids are higher than those of the pure water at same flow condition, and this increase goes up with the increase in particle volume concentration (ϕ). The results also showed that Uov, ht, Nut, ɛ and ηex increases by decreasing the coil torsion from 0.052 to 0.0202. Correlations for Nut as a function of the investigated parameters are obtained.

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Utilizing artificial neural networks to predict the thermal performance of conical tubes with pulsating flow

Abdelghany

Elshamy

Sharafeldin

et al. 2023

Applied Thermal Engineering

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Modelling of thermo-hydraulic behavior of a helical heat exchanger using machine learning model and fire hawk optimizer

Mudhsh

El‐Said

Aseeri

et al. 2023

Case Studies in Thermal Engineering

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Samir M. Elshamy

Comparative study based on thermal, exergetic and economic analyses of a tubular solar still with semi-circular corrugated absorber

Performance enhancement of a tubular solar still by utilizing wire mesh packing under harmonic motion

Energy and Exergy Analysis of Shell and Coil Heat Exchanger Using Water Based Al₂O₃ Nanofluid Including Diverse Coil Geometries: An Experimental Study

Utilizing artificial neural networks to predict the thermal performance of conical tubes with pulsating flow

Modelling of thermo-hydraulic behavior of a helical heat exchanger using machine learning model and fire hawk optimizer

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Samir M. Elshamy

Comparative study based on thermal, exergetic and economic analyses of a tubular solar still with semi-circular corrugated absorber

Performance enhancement of a tubular solar still by utilizing wire mesh packing under harmonic motion

Energy and Exergy Analysis of Shell and Coil Heat Exchanger Using Water Based Al2O3 Nanofluid Including Diverse Coil Geometries: An Experimental Study

Utilizing artificial neural networks to predict the thermal performance of conical tubes with pulsating flow

Modelling of thermo-hydraulic behavior of a helical heat exchanger using machine learning model and fire hawk optimizer

Contact Info

Product

Resources

About

Energy and Exergy Analysis of Shell and Coil Heat Exchanger Using Water Based Al₂O₃ Nanofluid Including Diverse Coil Geometries: An Experimental Study