Selected Problems in Fluid Flow and Heat Transfer

Fluid flow and heat transfer processes play an important role in many areas of science and engineering, from the planetary scale (e.g., influencing weather and climate) to the microscopic scales of enhancing heat transfer by the use of nanofluids; understood in the broadest possible sense, they also...

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Bibliographic Details
Main Author:	Jaworski, Artur J. (auth)
Format:	Book Chapter
Published:	MDPI - Multidisciplinary Digital Publishing Institute 2019
Subjects:	n/a thermal performance microbubble pump particle deposition flow oscillation orthogonal jet flat plate gas turbine engine air heater flow behavior transonic compressor friction factor nonlinear thermal radiation oscillators porous cavity POD turbulent flow thermosyphon turbulence mass transfer tip leakage flow capture efficiency pipe flow correlation decomposition dimensionalities heat transfer pressure loss CANDU-6 numerical modeling CFD magnetic field boundary layer two-phase flow heat transfer performance Colebrook-White computational burden phase change surrogate model Padé polynomials traveling-wave heat engine flow regime numerical simulation energetics ( A g ? F e 3 O 4 / H 2 O ) hybrid nanofluid pumps BEM SPIV acoustic streaming microbubbles Aspen® push-pull Positive Temperature Coefficient (PTC) elements iterative procedure transient analysis spiral fin-tube toxic gases unsteady heat release rate water hammer method of moment visualization superheated steam impingement heat transfer enhancement X-ray microtomography moderator wind turbine flow rate fin-tube flue gas actuator disc temperature distributions supercritical LNG sharp sections moment of inertia Colebrook equation pump efficiency tower OpenFOAM computational fluid dynamics chemical reaction pump performance logarithms numerical results downwind thermodynamic triaxial stress flow friction energy conversion entropy generation zigzag type inertance-compliance section aspect ratios laminar separation bubble axial piston pumps thermogravimetry pressure drop load resistances vortex breakdown T-section prism flow-induced motion centrifugal pump load vortex identification decomposition region condensation performance characteristics pipes detached-eddy simulation Computational Fluid Dynamics (CFD) simulation thermal cracking real vehicle experiments bubble size thermal energy recovery hydraulic resistances concentration tower shadow fire-spreading characteristics thermoacoustic electricity generator bubble generation multi-stage thermal effect ferrofluid PHWR fluidics multiphase flow printed circuit heat exchanger particle counter dew point temperature
Online Access:	Get Fullteks DOAB: description of the publication
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001	doab_20_500_12854_59163
005	20210212
020			\|a books978-3-03921-428-0
020			\|a 9783039214280
020			\|a 9783039214273
024	7		\|a 10.3390/books978-3-03921-428-0 \|c doi
041	0		\|a English
042			\|a dc
100	1		\|a Jaworski, Artur J. \|4 auth
245	1	0	\|a Selected Problems in Fluid Flow and Heat Transfer
260			\|b MDPI - Multidisciplinary Digital Publishing Institute \|c 2019
300			\|a 1 electronic resource (460 p.)
506	0		\|a Open Access \|2 star \|f Unrestricted online access
520			\|a Fluid flow and heat transfer processes play an important role in many areas of science and engineering, from the planetary scale (e.g., influencing weather and climate) to the microscopic scales of enhancing heat transfer by the use of nanofluids; understood in the broadest possible sense, they also underpin the performance of many energy systems. This topical Special Issue of Energies is dedicated to the recent advances in this very broad field. This book will be of interest to readers not only in the fields of mechanical, aerospace, chemical, process and petroleum, energy, earth, civil ,and flow instrumentation engineering but, equally, biological and medical sciences, as well as physics and mathematics; that is, anywhere that "fluid flow and heat transfer" phenomena may play an important role or be a subject of worthy research pursuits.
540			\|a Creative Commons \|f https://creativecommons.org/licenses/by-nc-nd/4.0/ \|2 cc \|4 https://creativecommons.org/licenses/by-nc-nd/4.0/
546			\|a English
653			\|a n/a
653			\|a thermal performance
653			\|a microbubble pump
653			\|a particle deposition
653			\|a flow oscillation
653			\|a orthogonal jet
653			\|a flat plate
653			\|a gas turbine engine
653			\|a air heater
653			\|a flow behavior
653			\|a transonic compressor
653			\|a friction factor
653			\|a nonlinear thermal radiation
653			\|a oscillators
653			\|a porous cavity
653			\|a POD
653			\|a turbulent flow
653			\|a thermosyphon
653			\|a turbulence
653			\|a mass transfer
653			\|a tip leakage flow
653			\|a capture efficiency
653			\|a pipe flow
653			\|a correlation
653			\|a decomposition dimensionalities
653			\|a heat transfer
653			\|a pressure loss
653			\|a CANDU-6
653			\|a numerical modeling
653			\|a CFD
653			\|a magnetic field
653			\|a boundary layer
653			\|a two-phase flow
653			\|a heat transfer performance
653			\|a Colebrook-White
653			\|a computational burden
653			\|a phase change
653			\|a surrogate model
653			\|a Padé polynomials
653			\|a traveling-wave heat engine
653			\|a flow regime
653			\|a numerical simulation
653			\|a energetics
653			\|a ( A g ? F e 3 O 4 / H 2 O ) hybrid nanofluid
653			\|a pumps
653			\|a BEM
653			\|a SPIV
653			\|a acoustic streaming
653			\|a microbubbles
653			\|a Aspen®
653			\|a push-pull
653			\|a Positive Temperature Coefficient (PTC) elements
653			\|a iterative procedure
653			\|a transient analysis
653			\|a spiral fin-tube
653			\|a toxic gases
653			\|a unsteady heat release rate
653			\|a water hammer
653			\|a method of moment
653			\|a visualization
653			\|a superheated steam
653			\|a impingement heat transfer enhancement
653			\|a X-ray microtomography
653			\|a moderator
653			\|a wind turbine
653			\|a flow rate
653			\|a fin-tube
653			\|a flue gas
653			\|a actuator disc
653			\|a temperature distributions
653			\|a supercritical LNG
653			\|a sharp sections
653			\|a moment of inertia
653			\|a Colebrook equation
653			\|a pump efficiency
653			\|a tower
653			\|a OpenFOAM
653			\|a computational fluid dynamics
653			\|a chemical reaction
653			\|a pump performance
653			\|a logarithms
653			\|a numerical results
653			\|a downwind
653			\|a thermodynamic
653			\|a triaxial stress
653			\|a flow friction
653			\|a energy conversion
653			\|a entropy generation
653			\|a zigzag type
653			\|a inertance-compliance
653			\|a section aspect ratios
653			\|a laminar separation bubble
653			\|a axial piston pumps
653			\|a thermogravimetry
653			\|a pressure drop
653			\|a load resistances
653			\|a vortex breakdown
653			\|a T-section prism
653			\|a flow-induced motion
653			\|a centrifugal pump
653			\|a load
653			\|a vortex identification
653			\|a decomposition region
653			\|a condensation
653			\|a performance characteristics
653			\|a pipes
653			\|a detached-eddy simulation
653			\|a Computational Fluid Dynamics (CFD) simulation
653			\|a thermal cracking
653			\|a real vehicle experiments
653			\|a bubble size
653			\|a thermal energy recovery
653			\|a hydraulic resistances
653			\|a concentration
653			\|a tower shadow
653			\|a fire-spreading characteristics
653			\|a thermoacoustic electricity generator
653			\|a bubble generation
653			\|a multi-stage
653			\|a thermal effect
653			\|a ferrofluid
653			\|a PHWR
653			\|a fluidics
653			\|a multiphase flow
653			\|a printed circuit heat exchanger
653			\|a particle counter
653			\|a dew point temperature
856	4	0	\|a www.oapen.org \|u https://mdpi.com/books/pdfview/book/1559 \|7 0 \|z Get Fullteks
856	4	0	\|a www.oapen.org \|u https://directory.doabooks.org/handle/20.500.12854/59163 \|7 0 \|z DOAB: description of the publication

Selected Problems in Fluid Flow and Heat Transfer

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