Heat Transfer in Turbulent Centrifugal How between Rotating Discs with Flow Swirling at the Inlet

Igor V. Shevchuk; Artem Khalatov; H.  Karabay; J. M. Owen

doi:10.1615/HeatTransRes.v29.i6-8.30

Heat Transfer Research

編集長s: Zhixiong Guo (open in a new tab) Oleg G. Penyazkov (open in a new tab)

Regional Editor (India): Partha S. Ghoshdastidar (open in a new tab)

Regional Editor (China/Asia): Ya-Ling He (open in a new tab)

Regional Editor (Europe): Bengt Sunden (open in a new tab)

Regional Editor (USA): Xinwei Wang (open in a new tab)

編集マネージャー: Natalia K. Shveyeva (open in a new tab)

創設編集者s: James P. Hartnett (open in a new tab) Thomas F. Irvine, Jr. (open in a new tab) Oleg G. Martynenko (open in a new tab)

年間 18 号発行

ISSN 印刷: 1064-2285

ISSN オンライン: 2162-6561

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Heat Transfer in Turbulent Centrifugal How between Rotating Discs with Flow Swirling at the Inlet

巻 29, 発行 6-8, 1998, pp. 383-390

DOI: 10.1615/HeatTransRes.v29.i6-8.30

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Igor V. Shevchuk
TH Köln - University of Applied Sciences

Artem Khalatov
Institute of Engineering Thermophysics of NAS of Ukraine

H. Karabay
University of Bath, UK

J. M. Owen
School of Mechanical Engineering, University of Bath Claverton Down Bath BA2 7AY United Kingdom; Thermo-Fluid Mechanics Research Centre, School of Engineering and Applied Sciences, University of Sussex, Brighton, BN1 9QT, England

要約

Consideration is given to the heat transfer and hydrodynamics in a centrifugal flow between parallel rotating discs in the case when the tangential inlet flow velocity is larger than the tangential disc velocity (flow swirling). The problem is solved using the integral method and numerically by integrating the elliptic Reynolds equations. Calculated results are analyzed, and deficiencies and demerits of the two methods are discussed.

によって引用された

Shevchuk Igor V., Mathematical Modeling of Convective Heat Transfer in Rotating-Disk Systems, in Modelling of Convective Heat and Mass Transfer in Rotating Flows, 2016. Crossref
Turkyilmazoglu Mustafa, On the fluid flow and heat transfer between a cone and a disk both stationary or rotating, Mathematics and Computers in Simulation, 177, 2020. Crossref
Gul Taza, Gul Raja Shahzad, Noman Waqas, Saeed A, Mukhtar Safyan, Alghamdi Wajdi, Alrabaiah Hussam, CNTs-Nanofluid flow in a Rotating system between the gap of a disk and cone, Physica Scripta, 95, 12, 2020. Crossref
Gul Taza, Ahmed Zeeshan, Jawad Muhammad, Saeed Anwar, Alghamdi Wajdi, Bio-convectional Nanofluid Flow Due to the Thermophoresis and Gyrotactic Microorganism Between the Gap of a Disk and Cone, Brazilian Journal of Physics, 51, 3, 2021. Crossref
Upadhya S. Mamatha, Raju C. S. K., Vajravelu K., Sathy Suresh, Farooq Umer, Significance of radiative magnetohydrodynamic flow of suspended PEG based ZrO2 and MgO2 within a conical gap, Waves in Random and Complex Media, 2022. Crossref
Wang Fuzhang, Rani S. Prasanna, Sarada Konduru, Punith Gowda R.J., Umair khan , Zahran Heba Y., Mahmoud Emad E., The effects of nanoparticle aggregation and radiation on the flow of nanofluid between the gap of a disk and cone, Case Studies in Thermal Engineering, 33, 2022. Crossref

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Heat Transfer in Turbulent Centrifugal How between Rotating Discs with Flow Swirling at the Inlet

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