Influence of the twisting and nano fluids on performance of a triangular double tube heat exchanger

Abdul Razzaq, Ali K.; Mushatet, Khudheyer S.

doi:10.1515/kern-2023-0132

Kerntechnik

2024

DOI: 10.1515/kern-2023-0132

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Influence of the twisting and nano fluids on performance of a triangular double tube heat exchanger

Ali K. Abdul Razzaq,

Khudheyer S. Mushatet

Abstract: The hydraulic and thermals performance of flow in a double-tube heat exchanger with an inner twisted triangle tube of length L = 1 m has been studied numerically. Equations for energy, turbulence, and Navier–Stokes were used to model the fluid flow and heat transfer in a double-tube heat exchanger with an inner twisted triangle tube. The Reynolds number range was 5000–30,000 for nanofluid (water-Al2O3) as a working fluid under a turbulent flow regime. The considered configuration was examined by varying the vo… Show more

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Assessment the thermal performance of square twisted double tube heat exchanger with Al₂O₃ nanofluid

Abdul Razzaq,

Mushatet

2024

Chemical Product and Process Modeling

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The effect of a twisting parameter on heat transport in a square-sectioned twisted tube was studied. One definition of a twisting parameter is the ratio of the hydraulic diameter to the length of the tube at the point when it completed a full 360-degree twist. The twist parameters that were selected are 5, and they were compared to the Double Twisted Square Tube heat exchanger (DTSTHE). Transient flow was taken into account when evaluating the sets of Reynolds numbers. On the other hand, there are four different concentration volumes of nano fluid amounts of 0.005, 0.01, 0.025, and 0.04 for turbulent flow, and the Reynolds number ranges from 5,000 to 25,000. An examination was conducted into the effect of the twist parameter on the convective heat transfer coefficient through turbulent flow. The finite volume approach and the conventional − turbulence model were used to conduct numerical simulations of three-dimensional, steady-state incompressible flow in body-fitted coordinates. It was found that as the twist parameter is decreased, the heat transmission coefficient increases. What this means for the created span-wise swirling flow is unclear. With increasing distance from the tube center towards the walls, the whirling causes the cross-flow velocity vectors to increase. The boundary layer has good thermal properties because it thins out at the tube wall as the near-wall velocity increases. Internal thermal balance is further improved by spinning since it increases the mixing process. A higher Reynolds number, along with larger velocity components, results in a higher heat transfer coefficient.

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Assessment the thermal performance of square twisted double tube heat exchanger with Al₂O₃ nanofluid

Abdul Razzaq,

Mushatet

2024

Chemical Product and Process Modeling

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show abstract

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Influence of the twisting and nano fluids on performance of a triangular double tube heat exchanger

Cited by 1 publication

References 17 publications

Assessment the thermal performance of square twisted double tube heat exchanger with Al₂O₃ nanofluid

Assessment the thermal performance of square twisted double tube heat exchanger with Al₂O₃ nanofluid

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Influence of the twisting and nano fluids on performance of a triangular double tube heat exchanger

Cited by 1 publication

References 17 publications

Assessment the thermal performance of square twisted double tube heat exchanger with Al2O3 nanofluid

Assessment the thermal performance of square twisted double tube heat exchanger with Al2O3 nanofluid

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Product

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Assessment the thermal performance of square twisted double tube heat exchanger with Al₂O₃ nanofluid

Assessment the thermal performance of square twisted double tube heat exchanger with Al₂O₃ nanofluid