Symmetry and Fluid Mechanics

Buch | Softcover

446 Seiten

2020
MDPI (Verlag)
978-3-03928-426-9 (ISBN)

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Since the 1980s, attention has increased in the research of fluid mechanics due to its wide application in industry and phycology. Major advances have occurred in the modeling of key topics such Newtonian and non-Newtonian fluids, nanoparticles, thermal management, and physiological fluid phenomena in biological systems, which have been published in this Special Issue on symmetry and fluid mechanics for Symmetry. Although, this book is not a formal textbook, it will be useful for university teachers, research students, and industrial researchers and for overcoming the difficulties that occur when considering the nonlinear governing equations. For such types of equations, obtaining an analytic or even a numerical solution is often more difficult. This book addresses this challenging job by outlining the latest techniques. In addition, the findings of the simulation are logically realistic and meet the standard of sufficient scientific value.

Erscheinungsdatum	30.03.2020
Verlagsort	Basel
Sprache	englisch
Maße	170 x 244 mm
Themenwelt	Sachbuch/Ratgeber ► Natur / Technik
	Naturwissenschaften ► Physik / Astronomie ► Allgemeines / Lexika
	Technik
Schlagworte	Activation Energy • Al2O3 nanoparticles • analytical technique • APCM technique • aqueous suspensions of CNT’s • arched surface • Artificial Neural Networks • Caputo–Fabrizio time-fractional derivative • Carreau fluid • Casson Fluid • Casson fluid model • Cattaneo–Christov heat flux • Cattaneo–Christov heat flux model • chemical reaction • classical and fractional order problems • CNTs (MWCNTs and SWCNTs) • compressible viscous flow • convective boundary condition • Convective Heat and Mass Transfer • convective heat boundary condition • Couette–Poiseuille flow • couple stress fluid • Cylinder • Darcy–Brinkman porous medium • Darcy Forchheimer model • dual solution • exponential sheet • FDE-12 numerical method • Finite Volume Method • forced convection • Fractional Order Differential Equations • generalized finite difference scheme • GO-W/GO-EG nanofluids • Hafnium particles • Ham • heat generation • heat source/sink • heat transfer • homogeneous-heterogeneous reactions • homogeneous/heterogeneous reactions • homogeneous–heterogeneous reactions • inclined stretching sheet • integer and non-integer order derivatives • Isotherms • Jefferey, Maxwell and Oldroyd-B fluids • Jeffrey fluid • Keller-Box Method • kernel gradient free • Knudsen number • Lagrangian Approach • Laminar Flow • laminar g-Jitter flow • Laplace and Fourier transformations • Magnetic field • magnetohydrodynamic (MHD) • Magnetohydrodynamics (MHD) • Marangoni Convection • MHD • Microchannel • microducts • Mixed convection • molecular diameter • multiphase flow simulations • MWCNTs • Nanofluid • Nanofluids • nanofluids and particle shape effects • nanofuid • Nanoparticle • nanoparticles • Newtonian and non-Newtonian fluids • Newtonian heating • nonlinear hydroelastic waves • nonlinear stretching cylinder • nonlinear thermal radiation • numerical solution • Numerical technique • Nusselt number • OHAM • Oil/MWCNT nanofluid • oscillating shear stress • Particle swarm optimization • Peristalsis • Peristaltic Transport • permeable sheet • Permeable walls • physiological fluid phenomena in biological systems • PLK method • porous dissipation • Porous Medium • RK scheme • rotating rigid disk • rotating system • Shooting Method • side walls • SLIP • slip coefficient • slip conditions • smart pumping for hemodialysis • solitary waves • Stability Analysis • stagnation point flow • steady and unsteady flow problems • steady laminar flow • Streamlines • stretchable rotating disk • stretched surface • Stretching sheet • Suction/Injection • SWCNT/MWCNT nanofluid • SWCNTs • symmetric linear equations • tapered channel • temperature dependent thermal conductivity • thermal radiation • thermodynamics • thin elastic plate • thin needle • uniform current • unsteady rotating flow • velocity slip • Viscous Dissipation • viscous dissipation effect • Viscous Fluid
ISBN-10	3-03928-426-6 / 3039284266
ISBN-13	978-3-03928-426-9 / 9783039284269
Zustand	Neuware