LEADER 04218nam  2200997z- 450 
001 9910346666703321
005 20231214133541.0
010   $a3-03921-109-9
035   $a(CKB)4920000000095000
035   $a(oapen)https://directory.doabooks.org/handle/20.500.12854/50505
035   $a(EXLCZ)994920000000095000
100   $a20202102d2019      |y         0
101 0 $aeng
135   $aurmn|---annan
181   $ctxt$2rdacontent
182   $cc$2rdamedia
183   $acr$2rdacarrier
200 10$aIntermittency and Self-Organisation in Turbulence and Statistical Mechanics
210   $cMDPI - Multidisciplinary Digital Publishing Institute$d2019
215   $a1 electronic resource (298 p.)
311   $a3-03921-108-0 
330   $aThere is overwhelming evidence, from laboratory experiments, observations, and computational studies, that coherent structures can cause intermittent transport, dramatically enhancing transport. A proper description of this intermittent phenomenon, however, is extremely difficult, requiring a new non-perturbative theory, such as statistical description. Furthermore, multi-scale interactions are responsible for inevitably complex dynamics in strongly non-equilibrium systems, a proper understanding of which remains a main challenge in classical physics. As a remarkable consequence of multi-scale interaction, a quasi-equilibrium state (the so-called self-organisation) can however be maintained. This special issue aims to present different theories of statistical mechanics to understand this challenging multiscale problem in turbulence. The 14 contributions to this Special issue focus on the various aspects of intermittency, coherent structures, self-organisation, bifurcation and nonlocality. Given the ubiquity of turbulence, the contributions cover a broad range of systems covering laboratory fluids (channel flow, the Von Kármán flow), plasmas (magnetic fusion), laser cavity, wind turbine, air flow around a high-speed train, solar wind and industrial application.
610   $anon-locality
610   $ahybrid (U)RANS-LES
610   $achannel flow
610   $athermodynamics
610   $aLévy noise
610   $anon-local theory
610   $alow speed streaks
610   $adrop breakage
610   $apipe flow boundary layer
610   $abifurcation
610   $aLangevin equation
610   $aattached and separated flows
610   $aanomalous diffusion
610   $akinetic theory
610   $astochastic processes
610   $aself-organisation
610   $aspatiotemporal chaos
610   $achaos
610   $abifurcations
610   $aturbulent flow
610   $aLyapunov theory
610   $aRushton turbine
610   $aturbulence
610   $aintermittency
610   $ainformation length
610   $adenoise
610   $amicrocavity laser
610   $afree vortex wake
610   $aIDDES methodology
610   $alocal intermittency
610   $acontrol strategy
610   $apopulation balance equation
610   $aTsallis entropy
610   $acoherent structures
610   $aFokker-Planck equation
610   $aenergy cascade
610   $afluid dynamics
610   $ahigh efficiency impeller
610   $afractals
610   $alarge eddy simulation
610   $ashear flows
610   $aheat transport
610   $amultifractal
610   $adrop coalescence
610   $acontinuous wavelet transform
610   $aT-junction
610   $ascaling properties
610   $afloating wind turbine
610   $ascaling
610   $afractional Fokker?Plank equation
610   $amagnetic confinement fusion
610   $amulti-scale problem
610   $acoherent structure
610   $asolar wind
610   $atrailing-edge flap
610   $aturbulent transition
610   $aturbulent boundary layer
610   $acomplex dynamics
610   $astatistical mechanics
700   $aKim$b Eun-jin$4auth$01331068
906   $aBOOK
912   $a9910346666703321
996   $aIntermittency and Self-Organisation in Turbulence and Statistical Mechanics$93040095
997   $aUNINA