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200 10$aDouble-diffusive convection /$fTimour Radko
205   $a1st ed.
210  1$aCambridge :$cCambridge University Press,$d2013.
215   $a1 online resource (xv, 342 pages) $cdigital, PDF file(s)
300   $aTitle from publisher's bibliographic system (viewed on 05 Oct 2015).
311 08$a0-521-88074-2 
311 08$a1-306-21167-0 
320   $aIncludes bibliographical references and index.
327   $aCover; Half title; Title; Copyright; Dedication; Contents; Preface; 1 General principles; 1.1 Salt fingers; 1.2 The early years: from Jevons to Stommel; 1.3 Diffusive convection; 1.4 Scale analysis; 1.5 Non-dimensionalization and governing parameters; 1.6 Turner angle; 2 The linear instability problem; 2.1 Conditions for instability; 2.2 Growth rates and spatial scales; 2.3 The flux ratio; 2.4 Effects of horizontal gradients; 3 The unbounded gradient model; 3.1 Flux-gradient laws; 3.2 Secondary instabilities: Stern-Kunze constraint and Holyer modes; 3.3 Weakly nonlinear models
327   $a3.4 Phenomenological and empirical modelsSimilarity solutions; The growth rate balance; Empirical parameterizations; 3.5 Numerical simulations; 3.6 Laboratory experiments; 4 The two-layer system; 4.1 Interfacial flux laws; 4.2 Salt-finger interfaces; 4.3 Diffusive interfaces; 5 The bounded layer model; 5.1 Diffusive layer; 5.2 Salt-finger layer; Planform selection; Vertical transport; Height of the finger zone; 6 Collective instability; 6.1 Approaches; 6.2 Parametric flux-gradient model; 6.3 Physical interpretation; 6.4 Specific solutions; 6.5 Nonlinear effects; 7 Thermohaline intrusions
327   $a7.1 Linear theoryPhysical interpretation; The -instability; Preferred scales; Similarity argument; Multiscale model; 7.2 Extensions: rotation, baroclinicity and ambient turbulence; Rotation; Baroclinicity; Ambient turbulence; 7.3 Nonlinear effects; 7.4 Laterally bounded fronts; 7.5 Sidewall heating experiments; 7.6 Oceanographic observations; Success stories; Alternative arguments; Complications; 8 Thermohaline staircases; 8.1 Observations; Salt-finger staircases; Diffusive staircases; 8.2 Staircase origins; Collective instability mechanism; Thermohaline intrusion mechanism
327   $aMetastable equilibria mechanismApplied flux mechanism; Negative density diffusion; 8.3 Instability of the flux-gradient laws; 8.4 Mechanics of layer-merging events; 9 The unified theory of secondary double-diffusive instabilities; 10 Double-diffusion in active environments; 10.1 The interaction of salt fingers with shear flow; 10.2 Low fluxes and thick interfaces; 10.3 The interaction with intermittent turbulence; 10.4 Microstructure signatures of salt fingers in the ocean; Spectral characteristics; Analysis of dissipation measurements; Anisotropy of salt fingers
327   $a10.5 Inverse modeling of thermohaline staircases11 Large-scale consequences; 11.1 Effects of salt fingers; Density stratification and the Meridional Overturning Circulation; The T-S relation and the pattern of density ratio; Regional effects; Biogeochemical applications; Salt fountains in the ocean; 11.2 Effects of diffusive convection; 12 Beyond oceanography; 12.1 Astrophysics; Semiconvection; Fingering convection; 12.2 Geology and geophysics; 12.3 Chemistry; 12.4 Materials science and engineering; Solidification of metal alloys; Solar ponds; 12.5 Other applications
327   $a13 Perspectives and challenges
330   $aDouble-diffusive convection is a mixing process driven by the interaction of two fluid components which diffuse at different rates. Leading expert Timour Radko presents the first systematic overview of the classical theory of double-diffusive convection in a coherent narrative, bringing together the disparate literature in this developing field. The book begins by exploring idealized dynamical models and illustrating key principles by examples of oceanic phenomena. Building on the theory, it then explains the dynamics of structures resulting from double-diffusive instabilities, such as the little-understood phenomenon of thermohaline staircases. The book also surveys non-oceanographic applications, such as industrial, astrophysical and geological manifestations, and discusses the climatic and biological consequences of double-diffusive convection. Providing a balanced blend of fundamental theory and real-world examples, this is an indispensable resource for academic researchers, professionals and graduate students in physical oceanography, fluid dynamics, applied mathematics, astrophysics, geophysics and climatology.
606   $aOceanic mixing
606   $aTurbulence
606   $aSalinity
615  0$aOceanic mixing.
615  0$aTurbulence.
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200 10$aAttachment Ventilation Theory /$fby Angui Li
205   $a1st ed. 2023.
210  1$aSingapore :$cSpringer Nature Singapore :$cImprint: Springer,$d2023.
215   $a1 online resource (204 pages)
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327   $aCooking history and development of kitchen appliances -- Kitchen ventilation requirements -- Pollutions of cooking oil fume and health risks -- Thermal comfort in kitchen -- Basis to calculate exhaust airflow rate -- Design of kitchen ventilation -- High performance kitchen ventilation -- Stack effects of kitchen exhaust shaft in high-rise building -- Case study and design of kitchen ventilation.
330   $aThis open access book systematically summarizes the current research progress of attachment ventilation, covering vertical wall attachment, column attachment, and adaptive attachment ventilation. Attachment ventilation is a high-performance ventilation mode that was first proposed by the author, Prof. Angui Li 20 years ago. Now it has been widely used in office spaces, subway stations, high-speed railway stations, international airport terminals, and other large spaces. This book introduces attachment ventilation in detail to eliminate the cooling/heating load of the occupied zone and provide an expected environment for the air-conditioned zone. Attachment ventilation combines the advantages of traditional mixed ventilation and displacement ventilation. This book consists of six chapters, covering a series of airflow patterns, mechanisms, parameter correlations, and attachment ventilation design methods. It is helpful for HVAC engineers to design attachment ventilation effectively.
606   $aBuildings$xEnvironmental engineering
606   $aFluid mechanics
606   $aBuilding information modeling
606   $aComputer simulation
606   $aBuilding Physics, HVAC
606   $aEngineering Fluid Dynamics
606   $aBuilding Information Modeling
606   $aComputer Modelling
615  0$aBuildings$xEnvironmental engineering.
615  0$aFluid mechanics.
615  0$aBuilding information modeling.
615  0$aComputer simulation.
615 14$aBuilding Physics, HVAC.
615 24$aEngineering Fluid Dynamics.
615 24$aBuilding Information Modeling.
615 24$aComputer Modelling.
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