 |
 |
 |
 |
 |
 |
Sains Malaysiana 51(8)(2022):
http://doi.org/10.17576/jsm-2022-5108-25
Radiative
Non-Coaxial Rotating Flow for Viscous Fluid over Accelerated Disk with MHD and
Porosity Effects
(Aliran Beradiasi yang Berputar Tidak Sepaksi bagi Bendalir Likat Melepasi Cakera Bergerak dengan Kesan Magnetohidrodinamik dan Keliangan)
WAN
NURA’IN NABILAH NORANUAR1, AHMAD QUSHAIRI MOHAMAD1,*,
LIM YEOU JIANN1, SHARIDAN SHAFIE1 & DENNIS LING
CHUANG CHING2
1Department of
Mathematical Sciences, Faculty of Science, Universiti Teknologi Malaysia, 81310 Johor Bahru, Johor Darul Takzim, Malaysia
2Department of
Fundamental and Applied Sciences, Universiti Teknologi PETRONAS, Seri Iskandar, 32610 Tronoh, Perak Darul Ridzuan, Malaysia
Diserahkan: 25 Oktober 2021/Diterima:
25 Januari 2022
Abstract
An
analytical solution to analyze the effects of radiation, magnetic, and permeability in an
accelerating non-coaxial rotation phenomenon is not yet reported in the
previous studies. Therefore, a radiative mixed convection flow for non-coaxial
rotating MHD viscous fluid in a porous medium past an accelerated disk is
studied. The fluid motion in this problem is induced by two sources which are
rotating and buoyancy force. The dimensional coupled differential equations
subjected to initial and accelerated boundary conditions are transformed to the
dimensionless equations by utilizing appropriate dimensionless variables. The
Laplace transform technique is applied to generate the closed form analytical
solution for this problem. The impacts of Prandtl number, Grashof number, radiation, magnetic, porosity, and accelerated parameters on the
temperature and velocity fields are illustrated graphically. The velocity and
temperature profiles satisfy both the initial and boundary conditions, and the
present results are found in accordance to the published work. The velocity is
improved with the assistance of acceleration, radiation and porosity, while the
implementation of magnetic field causes the opposite effect. Increasing
radiation leads to the growth of the thermal boundary layer as well as reducing
the heat transmission rate. This result can significantly contribute to the
designing of heating systems because the imposition of radiation able to
sustain an environment for a specific temperature. The obtained analytical
solution can be used to check the correctness of the solution obtained from the
numerical and experimental studies.
Keywords: Accelerated disk; heat transfer; Laplace transform;
non-coaxial
rotation; radiation
Abstrak
Penyelesaian analitik untuk menganalisis kesan radiasi, magnetik dan keliangan dalam fenomena putaran tidak sepaksi yang terpecut belumpernah dilaporkan dalam kajian terdahulu. Oleh itu, aliran olakan campuran beradiasi bagi bendalir likat magnetohidrodinamik yang berputar tidak sepaksi di dalam bahantara berliang melepasi cakera terpecutkan dikaji. Pergerakan bendalir untuk masalah ini adalah disebabkan oleh dua sumber iaitu kesan daya putaran dan daya apungan. Persamaan pembezaan gandingan bermatra tertakluk kepada syarat awal dan syarat sempadan terpecutkan dijelmakan kepada persamaan tak bermatra dengan menggunakan pemboleh ubah tanpa matra yang sesuai. Teknik penjelmaan Laplace digunakan untuk menghasilkan penyelesaian analitik tertutup bagi masalah ini. Kesan nombor Prandtl, nombor Grashof, radiasi, magnet, keliangan dan
parameter terpecutkan terhadap profil suhu dan halaju diilustrasikan dalam bentuk graf. Profil halaju dan suhu memenuhi kedua-dua syarat awal dan syarat sempadan dan keputusan kajian ini didapati selari dengan hasil kajian terdahulu. Halaju dipertingkatkan dengan bantuan pecutan, radiasi dan keliangan, manakala kehadiran medan magnet menyebabkan kesan sebaliknya. Peningkatan radiasi membawa kepada pertumbuhan lapisan sempadan haba serta mengurangkan kadar pemindahan haba. Keputusan ini boleh menyumbang dengan ketara dalam mereka
bentuk sistem pemanasan kerana pengenalan sinaran mampu mengekalkan
persekitaran untuk suhu tertentu. Penyelesaian analitik yang diperoleh boleh
digunakan untuk menyemak ketepatan penyelesaian yang diperoleh daripada kajian
berangka dan uji kaji.
Kata kunci: Cakera terpecutkan; pemindahan haba, penjelmaan Laplace; putaran tak sepaksi; radiasi
RUJUKAN
Amin,
W.N.Z., Mohamad, A.Q., Shafie, S. & Qasim, M. 2020. G-Jitter fully developed heat and mass
transfer by mixed convection flow between two parallel plates with constant
heat flux. Sains Malaysiana 49(5): 1201-1208.
Asghar,
S., Hanif, K., Hayat, T. & Khalique, C.M. 2007.
MHD non-Newtonian flow due to non-coaxial rotations of an accelerated disk and
a fluid at infinity. Communications in Nonlinear Science and Numerical
Simulation 12(4): 465-485.
Bakar,
N.A., Roslan, R., Karimipour,
A. & Hashim, I. 2019. Mixed convection in lid-driven cavity with inclined
magnetic field. Sains Malaysiana 48(2): 451-471.
Berker, R. 1963. Handbook of Fluid Dynamics. Berlin:
Springer.
Das,
S. & Jana, R.N. 2014. Hall effects on unsteady hydromagnetic flow induced
by an eccentric-concentric rotation of a disk and a fluid at infinity. Ain
Shams Engineering Journal 5(4): 1325-1335.
Das,
S., Maji, S.L., Ghara, N. & Jana R.N. 2012.
Combined effects of Hall currents and slip condition on steady flow of a
viscous fluid due to non-coaxial rotation of a porous disk and a fluid at infinity. Journal of Mechanical Engineering Research 4(5): 175-184.
Erdogan,
M.E. 2000. Flow induced by non-coaxial rotation of a disk executing
non-torsional oscillations and a fluid rotating at infinity. International
Journal of Engineering Science 38(2): 175-196.
Ersoy, H.V. 2017. Unsteady flow due to a disk executing
non-torsional oscillation and a Newtonian fluid at infinity rotating about
non-coaxial axes. Sādhanā 42(3):
307-315.
Guria, M. 2018. Unsteady MHD flow due to non-coaxial
rotations of a porous disk and a fluid at infinity subjected to a periodic
suction. International Journal of Applied Mechanics and Engineering 23(3): 623-633.
Guria, M., Das, S. & Jana, R.N. 2007. Hall effects on
unsteady flow of a viscous fluid due to non-coaxial rotation of a porous disk
and a fluid at infinity. International Journal of Non-Linear Mechanics 42(10): 1204-1209.
Guria, M., Kanch, A.K., Das, S.
& Jana, R.N. 2009. Effects of Hall current and slip condition on unsteady
flow of a viscous fluid due to non-coaxial rotation of a porous disk and a
fluid at infinity. Meccanica 45(1): 23-32.
Hayat,
T., Ellahi, R. & Asghar, S. 2008. Hall effects on
unsteady flow due to non-coaxially rotating disk and a fluid at infinity. Chemical
Engineering Communications 195(8): 958-976.
Hussain,
S.M., Johsi, H.J. & Seth, G.S. 2018. Radiation
effect on MHD convective flow of nanofluids over an exponentially accelerated
moving ramped temperature plate. In Applications of Fluid Dynamics, edited
by Singh, M., Kushvah, B., Seth, G. & Prakash, J.
Lecture Notes in Mechanical Engineering. Singapore: Springer. pp. 31-43. https://doi.org/10.1007/978-981-10-5329-0_3
Ishak,
A. 2011. MHD boundary layer flow due to an exponentially stretching sheet with
radiation effect. Sains Malaysiana 40(4): 391-395.
Mahanthesh, B., Brizlyn,
T., Shehzad, S.A. & Gireesha, B.J. 2019.
Nonlinear thermo-solutal convective flow of Casson fluid over an oscillating plate due to non-coaxial
rotation with quadratic density fluctuation. Multidiscipline Modeling in
Materials and Structures 15(4): 818-842.
Maji,
L., Manna, G., Guria, M. & Jana, R.N. 2010.
Unsteady flow due to non-coaxial rotation of a porous disk and a fluid at
infinity through porous medium. Chemical Engineering Communications 197(6):
791-803.
Mohamad,
A.Q., Ismail, Z., Omar, N.F.M., Qasim, M., Zakaria,
M.N., Shafie, S., Jiann,
L.Y. 2020. Exact solutions on mixed convection flow of accelerated non-coaxial
rotation of MHD viscous fluid with porosity effect. Defect and Diffusion
Forum 399: 26-37.
Mohamad,
A.Q., Khan, I., Ismail, Z. & Shafie, S. 2016.
Exact solutions for unsteady free convection flow over an oscillating plate due
to non-coaxial rotation. Springerplus 5(1):
2090.
Mohamad,
A.Q., Khan, I., Jiann, L.Y., Shafie,
S., Isa, Z.M. & Ismail, Z. 2018. Double convection of unsteady MHD
non-coaxial rotation viscous fluid in a porous medium. Bulletin of the
Malaysian Mathematical Sciences Society 41(4): 2117-2139.
Mohamad,
A.Q., Khan, I., Zin, N.A.M., Isa, Z.M., Shafie, S.
& Ismail, Z. 2017. Mixed convection flow on MHD non-coaxial rotation of
second grade fluid in a porous medium. AIP Conference Proceedings 1830(1):
020044.
Noranuar, W.N.N., Mohamad, A.Q., Shafie, S. & Khan, I. 2021. Accelerated non-coaxial
rotating flow of MHD viscous fluid with heat and mass transfer. IOP
Conference Series: Materials
Science and Engineering 1051(1): 012044.
Noranuar, W.N.N., Mohamad, A.Q., Shafie, S., Khan, I. & Jiann,
L.Y. 2020. Radiative non-coaxial rotation of magnetohydrodynamic Newtonian
carbon nanofluid flow in porous medium with heat and mass transfer effects. Journal
of Nanofluids 9(4): 321-335.
Pandit,
K.K., Singh, S.I. & Sarma, D. 2018. Heat and mass
transfer analysis of an unsteady MHD flow past an impulsively started vertical
plate in presence of thermal radiation. International Journal of Fluid
Mechanics & Thermal Sciences 4(2): 18-26.
Rafiq,
S., Nawaz, M. & Mustahsan, M. 2018. Casson fluid flow due to non-coaxial rotation of a porous
disk and the fluid at infinity through a porous medium. Journal of Applied
Mechanics and Technical Physics 59(4): 601-607.
Rana,
S., Iqbal, M.Z., Nawaz, M., Khan, H.Z.I., Alebraheem,
J. & Elmoasry, A. 2020. Influence of chemical
reaction on heat and mass transfer in MHD radiative flow due to non-coaxial
rotations of disk and fluid at infinity. Theoretical Foundations of Chemical
Engineering 54(4): 664-674.
Seth,
G.S., Sarkar, S. & Hussain, S.M. 2014. Effects of Hall current, radiation
and rotation on natural convection heat and mass transfer flow past a moving
vertical plate. Ain Shams Engineering Journal 5(2): 489-503.
Srivastava,
N. 2017. MHD flow between two non-coaxial disks rotating at different speeds. Rendiconti del Circolo Matematico di Palermo 67: 173-184.
Zainuddin, N., Hashim, I., Saleh, H. & Roslan, R. 2016. Effects of radiation on free convection
from a heated horizontal circular cylinder in the presence of heat generation. Sains Malaysiana45(2):
315-321.
*Pengarang untuk surat-menyurat; email: ahmadqushairi@utm.my
|
|||
|
