PL EN


Preferencje help
Widoczny [Schowaj] Abstrakt
Liczba wyników
Tytuł artykułu

The Hall effect on MHD 2-fluid unsteady heat transfer flow of plasma in a rotating system via a straight channel between conducting plates

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Hall currents are used to investigate MHD unsteady two fluid flows and heat transport of plasma along a straight channel of conducting plates. In the two liquid zones, the velocity and temperature fields for the case of conducting side plates are obtained by solving the governing equations using a two-term series under the specified conditions. The distribution profiles are graphically resolved and examined. The distributions are thought to be dependent on the electron-to-total pressure ratio. The flow and heat transfer factors are also influenced by other parameters such as the Hartmann number, Hall parameter, rotation parameter, thermal conductivity and viscosity ratio.
Rocznik
Strony
137--162
Opis fizyczny
Bibliogr. 43 poz., wykr.
Twórcy
  • Department of Engineering Mathematics, AUCE (A), Andhra University, Visakhapatnam Andhra Pradesh, Pin code- 530003, INDIA
  • Department of Engineering Mathematics, AUCE (A), Andhra University, Visakhapatnam Andhra Pradesh, Pin code- 530003, INDIA
Bibliografia
  • [1] Blum Ya. E. (1967): Heat and Mass Transfer in Magnetic Field.– Magneto hydrodynamics, vol.11, No.1, pp.27-36.
  • [2] Ryabinin A.G. and Khozhainov A.I. (1967): Exact and approximate formulations of problems for unsteady flows of conducting fluids in MHD channels.– Fluid Dyn., vol.2, No.4, pp.107-109. https://doi.org/10.1007/BF01019553.
  • [3] Cramer Kenneth R. and Pai Shih I. (1973): Magneto Fluid Dynamics for Engineers and Applied Physicists.– McGraw-Hill Company, New York.
  • [4] Debnath L. (1975): Inertial oscillations and hydro magnetic multiple boundary layers in a rotating fluid.– ZAMM (Zeitschrift Fur AngewandteMathematik and Mechanik), vol.55, No.3, pp.141-147. https://doi.org/10.1002/zamm.19750550303.
  • [5] Mazumder B.S. (1977): Effect of wall conductances on hydro magnetic flow and heat transfer in a rotating channel.– ActaMechanica, vol.28, No.1, pp.85-99. https://doi.org/10.1007/BF01208791.
  • [6] Shercliff J.A.(1979):Thermoelectric magneto hydrodynamics.– J.Fluid Mechanics,vol.91, No.2, pp.231-251. DOI: https://doi.org/10.1017/S0022112079000136.
  • [7] Chen L., Gong J., Sun F. and Wu C. (2002): Heat transfer effect on the performance of MHD power plant.– Energy Conversion and Management, vol.43, No.15, pp.2085-2095.
  • [8] Morley N.B., Malang S. and Kirillov I. (2005): Thermo fluid magneto hydrodynamic issues for liquid breeders.– Fusion Science and Technology, vol.47, pp.488-501.
  • [9] Hardianto T., Sakamoto N. and Harada N. (2008): Computational study of diagonal channel magneto hydrodynamic power generation.– Int. J. Energy Tech. Policy, vol.6, pp.96-111.
  • [10] Soward A.M. and Dormy E. (2010): Shear-layers in magneto hydrodynamic spherical Couette flow with conducting walls.– Journal of Fluid Mechanics, vol.645, pp.145-185.
  • [11] Seth G.S., Mahto N., Ansari S. and Nandkeolyar, R. (2010): Combined free and forced convection flow in a rotating channel with arbitrary conducting walls.– International Journal of Engineering, Science and Technology, vol.2, No.5, pp.184-197.
  • [12] Kabeel A.E., Emad EI-Said M.S. and Dafea S.A. (2015): A review of magnetic fields effects on flow and heat transfer in liquids: Present status and future potential for studies and applications.– Renewable and Sustainable Energy Reviews, vol.45, pp.830-837.
  • [13] Das S., Jana R.N. and Makinde O.D. (2016): Transient hydro magnetic reactive Couette flow and heat transfer in a rotating frame of reference.– Alexandria Engg. Journal, vol.58, pp.635-644.
  • [14] Sato H. (1961): The Hall effect in the viscous flow of ionized gas between parallel plates under transverse magnetic field.– J. Phys. Soc. Japan, vol.16, No.7, pp.1427-1433. https://doi.org/10.1143/JPSJ.16.1427.
  • [15] Tani I.(1962): Steady flow of conducting fluids in channels under transverse magnetic fields, with consideration of Hall effect.– Journal of the Aerospace Sciences,vol.29, No.3, pp.297-305.
  • [16] Pop I. and Soundalgekar V.M. (1977): The Hall effect on an unsteady flow due to a rotating infinite disc.– Nuclear Engineering and Design,vol.44, No.3, pp.309-314.
  • [17] Niranjan S.S., Soundalgekar V.M. and Takhar, H.S. (1990): Free convection effects on MHD horizontal channel flow with Hall currents.– Plasma Sci. IEEE Trans, vol.18,No.2, pp.177-183.
  • [18] Linga Raju T. and Ramana Rao V.V. (1992): Hall effect in the viscous flow of an ionized gas between two parallel walls under transverse magnetic field in a rotating system.– Acta Physica Hungarica (Springer), vol.72, No.1, pp.23-45. https://doi.org/10.1007/BF03177494.
  • [19] Linga Raju T. and Ramana Rao V.V.(1993): Hall effects on temperature distribution in a rotating ionized hydro magnetic flow between parallel walls.– Int. J. Engg. Sci., vol.31, No.7, pp.1073-1091. https://doi.org/10.1016/0020-7225(93)90115-B.
  • [20] Attia H.A. (1998): Hall current effects on the velocity and temperature fields of an unsteady Hartmann flow.– Can. J. Phys, vol.76, No.9, pp.739-746.
  • [21] Ghosh S.K. and Pop I. (2004): Hall effects on MHD plasma Couette flow in rotating environment.– Int. J. Appl. Mech. and Engg, vol.9, pp.293-305.
  • [22] Ghosh S.K., Beg O.A. and Narahari M. (2009): Hall effects on MHD flow in a rotating system with heat transfer characteristics.– Mecanica, vol.44, pp.741-765.
  • [23] Jha B.K. and Apere C.A. (2010): Combined effects of Hall and ion-slip currents on unsteady MHD Couette flows in a rotating system.– J. Phys. Soc. Japan, vol.79. DOI:10.1143/JPSJ.79.104401.
  • [24] Singh J.K., Begum S.G. and Seth G.S. (2018): Influence of Hall current and wall conductivity on hydro magnetic mixed convective flow in a rotating Darcian channel.– Physics of Fluids, vol.30, No.11, pp.113602-1 to 12.
  • [25] Shail R. (1973): On laminar two-phase flows in magneto hydrodynamics.– Int. J. Engg. Sci., vol.11, pp.1103-1109. https://doi.org/10.1016/0020-7225(73)90111-0
  • [26] Chawla T.C. and Ishii M. (1980): Two-Fluid model of two-phase flow in a pin bundle of a Nuclear Reactor.– Int. J. Heat Mass Transfer, vol.23, No.7, pp.991-1001.
  • [27] Lohrasbi J. and Sahai V. (1988): Magneto hydrodynamic heat transfer in two phase flow Between parallel plates.– Appl. Sci. Res. vol.45, pp.53-66.
  • [28] Malashetty M.S. and Leela V. (1992): Magneto hydrodynamic heat transfer in two phase flow.– Int. J. of Engg. Sci. vol.30, No.3, pp.371-377. https://doi.org/10.1016/0020-7225(92)90082-R.
  • [29] Chamkha A.J. (1995): Hydro magnetic two-phase flow in a channel.– Int. J. Engg. Sci., vol.33, No.3, pp.437-446. https://doi.org/10.1016/0020-7225(93)E0006-Q.
  • [30] Hyun S. and Kennel C.F. (2009): Small amplitude waves in a hot relativistic two-fluid plasma.– J. Plasma Phy., vol.20, No.2, pp.281-287.
  • [31] Linga Raju T. (2019): MHD heat transfer two-ionized fluids flow between two parallel plates with Hall currents.– Results in Engineering, vol.4, 100043, Elsevier BV,http://doi.org/10.1016/j.rineng.2019.100043.
  • [32] Linga Raju T. (2021): Electro-magneto hydrodynamic two fluid flow of ionized-gases with Hall and rotation effects.– Int. J. Appl. Mech., vol.26, No.4, pp.128-144. DOI: 10.2478/ijame-2021-0054.
  • [33] Mitra P. (1982): Unsteady flow of two electrically conducting fluids between two rigid parallel plates.– Bulletin of the Calcutta Mathematical Society, vol.74, pp.87-95.
  • [34] Hasnain Qaisrani M., ZhenWei Xia and Dandan Zou (2005): Statistical properties of three-Dimensional two-fluid plasma model.– Phys. Plasmas, vol.22, 092303,https://doi.org/10.1063/1.4928900.
  • [35] Umavathi J.C., Mateen A., Chamkha A.J. and Mudhaf A.A. (2006): Oscillatory Hartmann two-fluid flow and heat transfer in a horizontal channel.– Int. J. Appl. Mech. and Engg., vol.11, No.1, pp.155-178.
  • [36] Linga Raju T. and Sreedhar S. (2009):Unsteady two-fluid flow and heat transfer of conducting fluids in channels under transverse magnetic field.– Int. J. Appl. Mech. and Engg., vol.14, No.4, pp.1093-1114.
  • [37] Linga Raju T. and Nagavalli M. (2014): MHD two-layered unsteady fluid flow and heat transfer through a horizontal channel between parallel plates in a rotating system.– Int. J. Appl. Mech. and Engg., vol.19, No.1, pp.97-121.
  • [38] Sharma P.R. and Sharma K. (2014): Unsteady MHD two-fluid flow and heat transfer through a horizontal channel.– Int. J. of Engineering Science Invention Research and Development, vol.1, No.3, pp.65-72.
  • [39] Gireesha B.J., Mahantesh B., Thammanna G.T. and Sampathkumar P.B.(2018): Hall effects on dusty nano-fluid two-phase transient flow past a stretching sheet using KVL model.– Jour. of Molecular Liquids, vol.256, pp.139- 147,https://doi.org/10.1016/j.molliq.2018.01.186.
  • [40] Sivakamini L and Govindarajan A. (2019): Unsteady MHD flow of two immiscible fluids under chemical reaction in a horizontal channel.– AIP conference proceedings 2112, 020157, https://doi.org/10.1063/1.5112342, published online: 24 June 2019.
  • [41] AbdElmaboud Y, Abdesalam Sara I, Mekheimer Kh.S. and Kambiz Vafai (2019): Electromagnetic flow for two-layer immiscible fluids.– Engineering Science and Technology an International Journal, vol.22, pp.237-248, https://doi.org/10.1016/j.jestch.2018.07.018.
  • [42] Linga Raju T. and GowriSankara Rao V. (2021): Effect of Hall current on unsteady magneto hydro dynamic two-ionized fluid flow and heat transfer in a channel.– Int. J. of Applied Mechanics and Engg., vol.26, No. 2, pp.84- 106,DOI: 10.2478/ijame-2021-0021.
  • [43] Linga Raju T. and Venkat Rao B.(2022): Unsteady electro-magneto hydrodynamic flow and heat transfer of two ionized fluids in a rotating system with Hall currents.– Int. J. Appl. Mech., vol.27, No.1, pp.125-145.
Uwagi
PL
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023)
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-3c3abd87-e51b-4895-81ae-cee956a01869
JavaScript jest wyłączony w Twojej przeglądarce internetowej. Włącz go, a następnie odśwież stronę, aby móc w pełni z niej korzystać.