Heat Transfer Enhancement in Laminar Pipe Flow Using Al2O3–Water Nanofluid and Twisted Tape Inserts

Purpose Nowadays fossil fuel prices have increased; therefore, consumption of energy reduction has become a significant issue. Hence, this study aims to explore energy-efficient mechanical devices and their energy management. Design/methodology/approach This study focused on numerical analysis of various factors, including pressure drop, sensitivity, heat transfer and friction factor. This study compared the performance of two different arrangements of the heat exchanger: flat tube and staggered circular tube. This study also investigated the impact of varying coolant volume fractions. Findings This numerical analysis compares the geometric properties of flat and circular tube cross-sections while considering the flow of nanofluid inside and air outside. The current experimental investigation specifically examines the temperature-dependent characteristics (specific heat capacity, viscosity, density and thermal conductivity) of the stable ternary hybrid nanofluid mixture composed of Al2O3, CuO and TiO2. Originality/value While several researchers have conducted numerical investigations on laminar flow in circular tubes, only a few studies are available on flat tube heat exchangers that use nanofluids just for internal flow. Furthermore, there is no simultaneous study on internal and exterior flow. Therefore, more investigation is necessary to examine the combined three-dimensional examination of shapes and their thermal-hydraulic influence using hybrid nanofluids.

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Effect of Variation of the Aspect Ratio of Rectangular Twisted Tapes Inserted in a Circular Pipe on the Thermal Performance

Paul,

Pradhan,

Mandal

2024

Journal of Thermal Science and Engineering Applications

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This study aims to determine the effect of the aspect ratio of the cross-section of a rectangular twisted tape on the laminar heat transfer characteristics inside an isothermally heated circular pipe. Detailed three-dimensional simulations reveal facts that would be difficult to estimate otherwise. A novel study of the evolution of the axial and secondary velocity fields as well as the temperature field within the pipe is presented to understand the flow physics behind the heat transfer enhancement. The three-dimensional simulation results are used to accurately calculate the portion of the total energy of the flow that is converted to secondary kinetic energy. In addition to the Nusselt number and friction factor, three parameters, viz. relative increase in heat transfer coefficient, relative increase in pressure drop, and thermo-hydraulic performance factor are used to quantify the effect of the twisted tape. While both the heat transfer and the pressure drop increase with a decrease in the TR, the THPF is found to become almost independent of TR as AR decreases to low values. It is inferred from the present results that although a twisted tape with a small pitch and large aspect ratio enhances heat transfer performance, a lower aspect ratio may provide a better option from a power requirement perspective. Hence, this work shows, for the first time, that a square-like cross-section of the twisted tape could be advantageous.

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Heat Transfer Enhancement in Laminar Pipe Flow Using Al2O3–Water Nanofluid and Twisted Tape Inserts

Cited by 5 publications

References 28 publications

Energy, exergy-emission performance investigation of heat exchanger with Turbulators inserts and ternary hybrid nanofluid

Energy, exergy-emission performance investigation of heat exchanger with Turbulators inserts and ternary hybrid nanofluid

Thermo-hydraulic performance of air heat exchanger using prepared ternary HNF: a CFD analysis

Effect of Variation of the Aspect Ratio of Rectangular Twisted Tapes Inserted in a Circular Pipe on the Thermal Performance

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