LEADER 05627nam  2201465z- 450 
001 9910580216703321
005 20231214133601.0
035   $a(CKB)5690000000011920
035   $a(oapen)https://directory.doabooks.org/handle/20.500.12854/87534
035   $a(EXLCZ)995690000000011920
100   $a20202207d2022      |y             0
101 0 $aeng
135   $aurmn|---annan
181   $ctxt$2rdacontent
182   $cc$2rdamedia
183   $acr$2rdacarrier
200 10$aComputational Fluid Dynamics 2020
210   $aBasel$cMDPI - Multidisciplinary Digital Publishing Institute$d2022
215   $a1 electronic resource (412 p.)
311   $a3-0365-2784-2 
311   $a3-0365-2785-0 
330   $aThis book presents a collection of works published in a recent Special Issue (SI) entitled ?Computational Fluid Dynamics?. These works address the development and validation of existent numerical solvers for fluid flow problems and their related applications. They present complex nonlinear, non-Newtonian fluid flow problems that are (in some cases) coupled with heat transfer, phase change, nanofluidic, and magnetohydrodynamics (MHD) phenomena. The applications are wide and range from aerodynamic drag and pressure waves to geometrical blade modification on aerodynamics characteristics of high-pressure gas turbines, hydromagnetic flow arising in porous regions, optimal design of isothermal sloshing vessels to evaluation of (hybrid) nanofluid properties, their control using MHD, and their effect on different modes of heat transfer.   Recent advances in numerical, theoretical, and experimental methodologies, as well as new physics, new methodological developments, and their limitations are presented within the current book. Among others, in the presented works, special attention is paid to validating and improving the accuracy of the presented methodologies. This book brings together a collection of inter/multidisciplinary works on many engineering applications in a coherent manner.
606   $aResearch & information: general$2bicssc
606   $aMathematics & science$2bicssc
610   $ahomogeneous-heterogeneous reactions
610   $aporous medium
610   $afirst slip
610   $asecond slip
610   $aexact solution
610   $afluid structure-interaction
610   $avibration suppression
610   $aentropy generation minimization
610   $asloshing
610   $adamping factor
610   $aporous slider
610   $aMHD flow
610   $areynolds number
610   $avelocity slip
610   $ahomotopy analysis method
610   $aCasson nanoliquid
610   $aMarangoni convection
610   $ainclined MHD
610   $aJoule heating
610   $aheat source
610   $athird-grade liquid
610   $aheat generation/absorption
610   $astretched cylinder
610   $aseries solution
610   $aslip effects
610   $amixed convection flow
610   $across fluid
610   $aDarcy?Forchheimer model
610   $asuccessive local linearization method
610   $aswimming gyrotactic microorganisms
610   $aDarcy law
610   $ananofluid
610   $aunsteady flow
610   $anon-axisymmetric flow
610   $aMHD
610   $ahybrid nanofluid
610   $astagnation-point flow
610   $aferrofluid
610   $aLie group framework
610   $aunsteady slip flow
610   $astretching surface
610   $athermal radiation
610   $alattice Boltzmann method
610   $asmoothed profile method
610   $ahybrid method
610   $anatural convection simulation
610   $aconcentric hexagonal annulus
610   $aCMC-water
610   $aCasson fluid
610   $amixed convection
610   $asolid sphere
610   $ascaling group analysis
610   $aSutterby fluid
610   $amagnetohydrodynamics (MHD)
610   $astability analysis
610   $aentropy
610   $ananoliquid
610   $amoving wall
610   $aunsteady stagnation point
610   $aconvective boundary condition
610   $aHyperloop system
610   $atransonic speed
610   $aaerodynamic drag
610   $adrag coefficient
610   $apressure wave
610   $ashockwave
610   $ananofluids
610   $aheat generation
610   $asphere
610   $aplume
610   $afinite difference method
610   $agas turbine
610   $adamaged rotor blade
610   $aleading-edge modification
610   $aaerodynamic characteristics
610   $amicropolar hybrid nanofluid
610   $adual solution
610   $astretching/shrinking sheet
610   $aSisko fluid flow
610   $agold particles
610   $aradiation effect
610   $aslip effect
610   $acurved surface
610   $aReiner-Rivlin nanofluid
610   $acircular plates
610   $ainduced magnetic effects
610   $aactivation energy
610   $abioconvection nanofluid
610   $asteady flow
610   $aTiwari and Das model
610   $aPrandtl-Eyring nanofluid
610   $aentropy generation
610   $aimplicit finite difference method
615  7$aResearch & information: general
615  7$aMathematics & science
700   $aShadloo$b Mostafa Safdari$4edt$01293861
702   $aShadloo$b Mostafa Safdari$4oth
906   $aBOOK
912   $a9910580216703321
996   $aComputational Fluid Dynamics 2020$93022794
997   $aUNINA