Thermo-Hydraulic Performance of Tubular Heat Exchanger with Opposite-Oriented Trapezoidal Wing Perforated Baffle Plate

Rahman, Md. Atiqur; Hasnain, S. M. Mozammil; Zairov, Rustem

doi:10.31803/tg-20230928070645

Technical Journal, Vol. 19 No. 3, 2025.

Original scientific paper

https://doi.org/10.31803/tg-20230928070645

Thermo-Hydraulic Performance of Tubular Heat Exchanger with Opposite-Oriented Trapezoidal Wing Perforated Baffle Plate

Md. Atiqur Rahman ; Department of Mechanical Engineering, Vignan's Foundation for Science, Technology & Research (Deemed to be University), Vadlamudi, Guntur-522213, Andhra Pradesh, India / Department of Mechanical Engineering, Birla Institute of Technology, Mesra, Ranchi-835215, India *
S. M. Mozammil Hasnain ; Marwadi University Research Centre, Department of Mechanical Engineering, Faculty of Engineering & Technology, Marwadi University, Rajkot, Gujrat-360003, India
Rustem Zairov ; Aleksander Butlerov Institute of Chemistry, Kazan Federal University, 1/29 Lobachevskogo Str., Kazan 420008, Russian Federation

* Corresponding author.

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APA 6th Edition

Rahman, M.A., Hasnain, S.M.M. & Zairov, R. (2025). Thermo-Hydraulic Performance of Tubular Heat Exchanger with Opposite-Oriented Trapezoidal Wing Perforated Baffle Plate. Tehnički glasnik, 19 (3), 350-358. https://doi.org/10.31803/tg-20230928070645

MLA 8th Edition

Rahman, Md. Atiqur, et al. "Thermo-Hydraulic Performance of Tubular Heat Exchanger with Opposite-Oriented Trapezoidal Wing Perforated Baffle Plate." Tehnički glasnik, vol. 19, no. 3, 2025, pp. 350-358. https://doi.org/10.31803/tg-20230928070645. Accessed 3 Jun. 2026.

Chicago 17th Edition

Rahman, Md. Atiqur, S. M. Mozammil Hasnain and Rustem Zairov. "Thermo-Hydraulic Performance of Tubular Heat Exchanger with Opposite-Oriented Trapezoidal Wing Perforated Baffle Plate." Tehnički glasnik 19, no. 3 (2025): 350-358. https://doi.org/10.31803/tg-20230928070645

Harvard

Rahman, M.A., Hasnain, S.M.M., and Zairov, R. (2025). 'Thermo-Hydraulic Performance of Tubular Heat Exchanger with Opposite-Oriented Trapezoidal Wing Perforated Baffle Plate', Tehnički glasnik, 19(3), pp. 350-358. https://doi.org/10.31803/tg-20230928070645

Vancouver

Rahman MA, Hasnain SMM, Zairov R. Thermo-Hydraulic Performance of Tubular Heat Exchanger with Opposite-Oriented Trapezoidal Wing Perforated Baffle Plate. Tehnički glasnik [Internet]. 2025 [cited 2026 June 03];19(3):350-358. https://doi.org/10.31803/tg-20230928070645

IEEE

M.A. Rahman, S.M.M. Hasnain and R. Zairov, "Thermo-Hydraulic Performance of Tubular Heat Exchanger with Opposite-Oriented Trapezoidal Wing Perforated Baffle Plate", Tehnički glasnik, vol.19, no. 3, pp. 350-358, 2025. [Online]. https://doi.org/10.31803/tg-20230928070645

Abstract

A detailed experimental study explored a new axial heat exchanger with swirling air over heated tubes. This heat exchanger features circular baffle plates with perforations and trapezoidal air deflectors at different angles. The tubes are aligned parallel to the airflow, and the deflectors create intense air turbulence, which improves heat transfer. The heat flux on the tubes is kept constant, and each baffle plate has eight deflectors positioned in reverse to induce swirling air within a circular duct that contains the hot water tubes. The baffle plates are spaced with varying pitch ratios, and the Reynolds number ranges from 16,000 to 30,000. The study found that the heat exchanger's performance highly depends on the pitch ratio and deflector angle, with the highest thermal enhancement factor (TEF) of 2.48 achieved at a 30° deflector angle and a pitch ratio of 1.2. These findings highlight the importance of optimizing design parameters to improve heat exchanger performance, offering valuable insights for better thermal management in industrial and environmental applications.

Keywords

deflector inclination angle; discontinuous swirl flow; flow recirculation; relative flow resistance; trapezoidal deflector; thermo-fluid performance

Hrčak ID:

332160

URI

https://hrcak.srce.hr/332160

Publication date:

15.9.2025.

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Technical Journal, Vol. 19 No. 3, 2025.

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