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Impacts of chemical reactions on inclined isothermal vertical plate

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
An accurate parameterization of an irregular surge across a continuously propelled circulation through an endless isothermal inclined plate has been investigated in the presence of a first-degree uniform chemical reaction. Both the plate’s temperature and the proximal intensity are increased systematically. To evaluate non-dimensional equations, the Laplace transform is utilized. The effect of velocity components on a range of physical parameters is investigated which include Sc, Pr, Gr, Gc, α, K and t. A proportionate increase of velocity with Gr and Gc was prominent. τ and Sh were mathematically determined.
Rocznik
Strony
64--76
Opis fizyczny
Bibliogr. 34 poz., tab., wykr.
Twórcy
  • Department of Mathematics, Panimalar Engineering College, Poonamallee, Chennai 600123, Tamil Nadu, INDIA
autor
  • Department of Mathematics, Panimalar Engineering College, Poonamallee, Chennai 600123, Tamil Nadu, INDIA
  • Department of Mathematics Panimalar Engineering College Chennai City Campus, Nelson Manickam Road, Chennai 600029, Tamil Nadu, INDIA
  • Department of Applied Mathematics, Sri Venkateswara College of Engineering, Sriperumbudur 602117, Tamil Nadu, INDIA
Bibliografia
  • [1] Apelblat A. (1980): Mass transfer with a chemical reaction of the first order.– Che. Eng. J., vol.19, pp.19-37.
  • [2] Das U.N., Deka R. and Soundalgekar V.M. (1994): Effects of mass transfer on flow past an impulsively started infinite vertical plate with constant heat flux and chemical reaction.– Forschung Im Ingeieurwesen – Engineering Research bd, vol.60, No.10, pp.284-287.
  • [3] Das U.N., Deka R.K and Soundalgekar V.M. (1998): Effects of mass transfer on flow past an impulsively started infinite vertical plate with chemical reaction.– The Bulletin, Guwahati University Mathematical Association (GUMA), vol.5, pp.13-20.
  • [4] Muthucumaraswamy R. and Janakiraman B. (2008): Mass transfer effects on isothermal vertical oscillating plate in the presence of chemical reaction.– International Journal of Applied Mathematics and Mechanics, vol.4, No.1, pp.66-74.
  • [5] Bég O.A, Bég T.A, Bakier A.Y, and Prasad V.R. (2009): Chemically-reacting mixed convective heat and mass transfer along inclined and vertical plates with Soret and Dufour effects: Numerical solutions.– Int. J. of Appl. Math. and Mech., vol.5, No.2, pp.39-57.
  • [6] Muthucumaraswamy R., Sundar Raj M. and Subramanian V.S.A. (2009): Heat and mass transfer effects on flow past an accelerated vertical plate with variable mass diffusion.– International Journal of Applied Mathematics and Engineering Sciences, vol.3, pp.55-60.
  • [7] Muthucumaraswamy R., Nagarajan G. and Subramanian V.S.A. (2011): Chemical reaction and radiation effects on vertical oscillating plate with variable temperature and mass diffusion.– International Journal of Applied Mechanics and Engineering, vol.16, pp. 435-446.
  • [8] Bisht V, Kumar M. and Uddin Z. (2011): Effects of variable thermal conductivity and chemical reaction on steady mixed convection boundary layer flow with heat and mass transfer inside a cone due to a point sink.– Journal of Applied and Fluid Mechanics, vol.4, pp. 59-63.
  • [9] Kesavaiah D.C., Satyanarayana P.V. and Venkataramana S. (2011): Effects of the chemical reaction and radiation absorption on an unsteady MHD convective heat and mass transfer flow past a semi-infinite vertical permeable moving plate embedded in a porous medium with heat source and suction.– International Journal of Applied Mathematics and Mechanics, vol.7, pp. 52-69.
  • [10] Bhattacharya K. (2011): Effects of heat source/sink on MHD flow and heat transfer over a shrinking sheet with mass suction.– ChemEng Res Bull, vol.15, pp. 12-17. DOI:10.3329/cerb.v15i1.6524.
  • [11] Shivaiah S. and Anandrao J. (2011): Chemical reaction effect on an unsteady MHD free convection flow past a vertical porous plate in the presence of suction or injection.– Theoretical and Applied Mechanics, vol.39, pp.185-208.
  • [12] Muthucumaraswamy R., Sundar Raj M. and Subramanian V.S.A. (2012): Magnetic field effects on flow past an accelerated isothermal vertical plate with heat and mass diffusion.– Annals of Faculty of Engineering Hunedoara-International Journal of Engineering, vol.10, pp.177-180.
  • [13] Makinde O.D. (2012): Chemically reacting hydromagnetic unsteady flow of a radiating fluid past a vertical plate with constant heat flux.– Z. Naturforsch; vol.67a, pp.239-247.
  • [14] Barik R.N. (2013): Mass transfer and radiation effect on MHD flow past an impulsively started exponentially accelerated inclined porous plate with variable temperature in the presence of heat source and chemical reaction.– Asian Journal of Current Engineering and Maths, vol.2, No.2, pp.106-114.
  • [15] Barik R.N., Dash G.C. and Rath P.K. (2014): Thermal radiation effect on an unsteady MHD flow past inclined porous heated plate in the presence of chemical reaction and viscous-dissipation.– Appl. Math. Comput. vol.226, No.1, pp.423-434.
  • [16] Animasaun I.L. (2015): Effects of thermophoresis, variable viscosity and thermal conductivity on free convective heat and mass transfer of non-Darcian MHD dissipative Casson fluid flow with suction and nth order of chemical reaction.– Journal of the Nigerian Mathematical Society vol. 34, pp.11-31, http://dx.doi.org/10.1016/j.jnnms.2014.10.008.
  • [17] Sathies Kumar P. and Gangadhar K. (2015): Effect of chemical reaction on slip flow of MHD Casson fluid over a stretching sheet with heat and mass transfer.– Advances in Applied Science Research, vol.6, No.8, pp.205-223.
  • [18] Narahari M., Tippa S., Pendyala R. and Nayan M.Y. (2015): Ramped temperature effect on unsteady MHD natural convection flow past an infinite inclined plate in the presence of radiation, heat source and chemical reaction.– Recent Advances in Applied and Theoretical Mechanics, pp.126-137 , ISBN: 978-1-61804-304-7.
  • [19] Prabhakara Reddy V., Kiran Kumar R.V.M.S.S., Viswanatha Reddy G., Durga Prasad P. and Varma S.V.K. (2015): Free convection heat and mass transfer flow of chemically reactive and radiation absorption fluid in an aligned magnetic field.– Procedia Eng., vol.127, pp.575-582, doi:10.1016/j.proeng.2015.11.347.
  • [20] Harinath Reddy S, Rajua M.C., and Keshava Reddy E. (2016): Radiation absorption and chemical reaction effect on MHD flow of heat generating Casson fluid past oscillating vertical porous plate-Frontiers in Heat and Mass Transfer (FHMT), vol. 7, no.21, DOI: 10.5098/hmt.7.21.
  • [21] Rajput U S and Gaurav Kumar (2016): Chemical reaction effect on unsteady MHD flow past an exponentially accelerated inclined plate with variable temperature and mass diffusion in the presence of hall current.– Analele Universităţiief Timie Murgu Reşiţa, vol.1, pp.305-319.
  • [22] Khalid S., Kamal M.A., Rasheed U. Farooq S., Kussain S. and Waqas H. (2017): Buoyancy and the chemical reaction effects on MI-ID flow of Casson fluids through a porous medium due to a porous shrinking sheet.– Appl. Environ. Biol. Sci., vol.7, No.5, pp.154-165.
  • [23] Gopal D., Kishan N. and Raju C.S.K. (2017): Viscous and Joule's dissipation on Casson fluid over a chemically reacting stretching sheet with inclined magnetic field and multiple slips.– Informatics in Medicine Unlocked, vol.9, pp.154-160, https://doi.org/10.1016/j.imu.2017.08.003.
  • [24] Jyotsna Rani Pattnaik., Gouranga Charan Dash. and Suprava Singh. (2017): Radiation and mass transfer effects on MHD flow through porous medium past an exponentially accelerated inclined plate with variable temperature.– Ain Shams Engineering Journal, vol.8, No.1, pp.67-75.
  • [25] Mohan S.R., Reddy G.V. and Balakrishna S. (2018): An unsteady MHD free convection flow of Casson fluid past an exponentially accelerated infinite vertical plate through porous media in the presence of thermal radiation.– Chemical Reaction and Heat Source or Sink, Int. J. Eng. Techniques, vol.4 , pp.16-27.
  • [26] Venkateswarlu M., Bhaskar P., and Venkata Lakshmi D. (2019): Soret and Dufour effects on radiative hydromagnetic flow of a chemically reacting fluid over an exponentially accelerated inclined porous plate in presence of heat absorption and viscous dissipation.– J. Korean Soc. Ind. Appl. Math, vol.23, No.3, pp.157-178.
  • [27] Kataria H.R., and Patel H.R. (2019): Effects of chemical reaction and heat generation/absorption on magnetohydrodynamic (MHD) Casson fluid flow over an exponentially accelerated vertical plate embedded in a porous medium with ramped wall temperature and ramped surface concentration.– Propulsion and Power Research, vol.8, No.1, pp. 35-46, 10.1016/j.jppr.2018.12.001.
  • [28] Usharani V., Selvaraj A., Constance Angela R. and Armstrong N.A. (2020): Impact of MHD stream pastan exponentially inclined vertical plate of first-order chemical response with variable mass diffusion and thermal radiation.– Mathematical Modelingand Computational Science, Advances in Intelligent Systems and Computing, vol.1292, pp.485-497.
  • [29] Prusty L.T.K.K and Senapati M. (2020): Unsteady MHD heat and mass transfer flow of a radiating fluid past an accelerated inclined porous plate in presence of Hall current with chemical reaction.– International Journal of Engineering Research and Applications, vol.10, no.7, pp.49-66.
  • [30] Riaz M.B., Atanganaa A. and Saeed S.T. (2020): MHD free convection flow over a vertical plate with ramped wall temperature and chemical reaction in view of non-singular kernel.– Wiley, pp.253-279, DOI: 10.1002/9781119654223.ch10.
  • [31] Sweta Matta., Bala Siddulu Malga., Lakshmi Appidi. and Pramod Kumar P. (2021): Chemical reaction and heat source effects on MHD free convective flow over a linearly accelerated moving vertical porous plate.– Indian Journal of Science and Technology, vol.14, No.13, pp.1044-1055.
  • [32] Bilal Kanayo S., Asogwa Hammad Alotaibi K. and Malik Ilyas Khan M.Y. (2021): Analytical treatment of radiative Casson fluid over an isothermal inclined Riga surface with aspects of chemically reactive species.– Alexandria Engineering Journal, vol.60, No.5, pp.4243-4253.
  • [33] Bejawada S.G. and Yanala D.R. (2021): Finite element Soret Dufour effects on an unsteady MHD heat and mass transfer flow past an accelerated inclined vertical plate.– Heat Transf., vol.50, pp. 8553-8578.
  • [34] Shankar Goud Bejawada, Wasim Jamshed, Rabia Safdar, Yanala Dharmendar Reddy, Meznah M. Alanazi, Heba Y. Zahran and Mohamed R. Eid (2022): Chemical reactive and viscous dissipative flow of magneto nanofluid via natural convection by employing Galerkin finite element technique.– MDPI, vol.12, pp.151.
Uwagi
PL
Opracowanie rekordu ze środków MNiSW, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2024)
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-0488b3a0-d9bf-4ec2-9a1f-1fea69d47f1c
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