Optimization and Flow Characteristics in Advanced Fluid Machinery

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Titolo:	Optimization and Flow Characteristics in Advanced Fluid Machinery
Pubblicazione:	MDPI - Multidisciplinary Digital Publishing Institute, 2023
Descrizione fisica:	1 online resource (534 p.)
Soggetto topico:	History of engineering and technology
	Technology: general issues
Soggetto non controllato:	aerostatic porous journal bearing
	aviation liquid cooling pump
	axial flow pump
	axial thrust coefficient
	axial-flow pump as turbine
	bidirectional axial flow pump
	bidirectional operation
	blade
	blade load distribution
	blade type
	bowl diffuser
	cavitation
	centrifugal impeller
	CFD
	circulating flow
	color edge detection
	compressible flow
	compressible flows
	core swirl ratio
	deformation
	dishwasher pump
	diving tubular pump
	double-tongue volute
	EIVC
	energy loss
	entropy generation
	entropy production
	equivalent force
	erosion
	experiment
	flow characteristics
	flow integration
	flow rate coefficient
	fluid machinery
	fluid-solid coupling
	fourier series
	gas polytropic index
	harmonic balance
	high-pressure jet
	high-pressure water jet
	high-specific-speed centrifugal pump
	high-speed photography
	hub radius
	hydraulic performance
	hydraulic support
	hydrodynamic characteristics
	impeller speeds
	interaction
	internal flow patterns
	internal flow structure
	large axial flow pump system
	large flow condition
	leakage jet
	liquid penetrant testing
	LNG submerged pump
	loss distribution
	machine learning
	marine propeller
	MIGA
	Miller cycle
	mixed flow pump
	model experiment
	moment coefficient
	multi-objective optimization
	multistage submersible pump
	nominal clearance
	nozzle
	nozzle pressure
	number of impeller blades
	numerical calculation
	numerical simulation
	numerical solution
	OpenFOAM
	optimization
	optimization platform
	organic coolant
	parametric design
	particle image velocimetry (PIV)
	peak to peak
	PIV
	POD
	position control
	pre-swirl rotor-stator cavity
	pressure detection
	pressure pulsation
	pressure pulsation intensity
	pump hydraulic performance
	pump performance
	RANS
	rotor-rotor interaction
	safety auxiliary facilities
	secondary flow
	secondary tip leakage vortex (S-TLV)
	self-priming pump
	skew and sweep
	slurry pump
	solid-liquid flow
	spectral methods
	spectrum
	start-up characteristics
	structural parameter
	structure optimization
	surface response method
	surrogate model
	switch control
	the mean absolute flow angle
	theoretical modeling
	tip clearance
	tip leakage vortex (TLV)
	transient characteristics
	turbomachinery
	turbulence
	unsteady pressure signal
	vertical axial-flow pump device
	vertical axial-flow pumps
	vortex
	vortex pump
	wear characteristic
Sommario/riassunto:	Advanced fluid machinery is the key component in the sustainable development of energy and water resources, including various transport processes for liquids. Where fluid flows, fluid machinery works. Therefore, fluid machinery occupies an important position in the social economy. This Special Issue, entitled "Optimization and Flow Characteristics in Advanced Fluid Machinery", provides a platform for the sharing of knowledge among researchers in the field of fluid machinery, and includes theoretical analyses, numerical simulations, and experimental studies. This Special Issue covers a wide range of disciplines as follows: (1) optimization of advanced fluid machinery using different advanced algorithms; (2) flow characteristics of advanced fluid machinery using numerical and experimental methods; (3) vibration and noise of advanced fluid machinery; (4) fluid-structural coupling analysis of advanced fluid machinery; (5) cavitation and multi-phase flow of advanced fluid machinery; (6) simulation and optimization of new energy systems; and (6) other aspects of fluid machinery.This Special Issue contains 27 manuscripts, including 1 Editorial and 26 scientific articles. We would like to thank all of the authors and peer reviewers for their valuable contributions to this Special Issue.
Titolo autorizzato:	Optimization and Flow Characteristics in Advanced Fluid Machinery
Formato:	Materiale a stampa
Livello bibliografico	Monografia
Lingua di pubblicazione:	Inglese
Record Nr.:	9910743273903321
Lo trovi qui:	Univ. Federico II
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