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Buoyant Convection in Geophysical Flows by Erich J. Plate,E.E. Fedorovich,Domingos X. Viegas,J.C. Wyngaard Pdf
Studies of convection in geophysical flows constitute an advanced and rapidly developing area of research that is relevant to problems of the natural environment. During the last decade, significant progress has been achieved in the field as a result of both experimental studies and numerical modelling. This led to the principal revision of the widely held view on buoyancy-driven turbulent flows comprising an organised mean component with superimposed chaotic turbulence. An intermediate type of motion, represented by coherent structures, has been found to play a key role in geophysical boundary layers and in larger scale atmospheric and hydrospheric circulations driven by buoyant forcing. New aspects of the interaction between convective motions and rotation have recently been discovered and investigated. Extensive experimental data have also been collected on the role of convection in cloud dynamics and microphysics. New theoretical concepts and approaches have been outlined regarding scaling and parameterization of physical processes in buoyancy-driven geophysical flows. The book summarizes interdisciplinary studies of buoyancy effects in different media (atmosphere and hydrosphere) over a wide range of scales (small scale phenomena in unstably stratified and convectively mixed layers to deep convection in the atmosphere and ocean), by different research methods (field measurements, laboratory simulations, numerical modelling), and within a variety of application areas (dispersion of pollutants, weather forecasting, hazardous phenomena associated with buoyant forcing).
Geophysical & Astrophysical Convection by Peter A Fox,Robert M. Kerr Pdf
Geophysical and Astrophysical Convection collects important papers from an international group of the world's foremost researchers in geophysical and astrophysical convection to present a concise overview of recent thinking in the field. Topics include: Atmospheric convection, solar and stellar convection, unsteady non-penetrative thermal convection, astrophysical convection and dynamos, dynamics of cumulus entertainment, turbulent convection: helical buoyant convection, transport phenomena, potential vorticity, rotating convective turbulence, and the modeling and simulation various types of convection and turbulence.
Buoyancy Effects in Fluids by John Stewart Turner Pdf
The phenomena treated in this book all depend on the action of gravity on small density differences in a non-rotating fluid. The author gives a connected account of the various motions which can be driven or influenced by buoyancy forces in a stratified fluid, including internal waves, turbulent shear flows and buoyant convection. This excellent introduction to a rapidly developing field, first published in 1973, can be used as the basis of graduate courses in university departments of meteorology, oceanography and various branches of engineering. This edition is reprinted with corrections, and extra references have been added to allow readers to bring themselves up to date on specific topics. Professor Turner is a physicist with a special interest in laboratory modelling of small-scale geophysical processes. An important feature is the superb illustration of the text with many fine photographs of laboratory experiments and natural phenomena.
Buoyancy-Driven Flows by Eric P. Chassignet,Claudia Cenedese,Jacques Verron Pdf
Buoyancy is one of the main forces driving flows on our planet, especially in the oceans and atmosphere. These flows range from buoyant coastal currents to dense overflows in the ocean, and from avalanches to volcanic pyroclastic flows on the Earth's surface. This book brings together contributions by leading world scientists to summarize our present theoretical, observational, experimental and modeling understanding of buoyancy-driven flows. Buoyancy-driven currents play a key role in the global ocean circulation and in climate variability through their impact on deep-water formation. Buoyancy-driven currents are also primarily responsible for the redistribution of fresh water throughout the world's oceans. This book is an invaluable resource for advanced students and researchers in oceanography, geophysical fluid dynamics, atmospheric science and the wider Earth sciences who need a state-of-the-art reference on buoyancy-driven flows.
Geophysical & Astrophysical Convection by Peter A. Fox,Robert M. Kerr Pdf
Geophysical and Astrophysical Convection collects important papers from an international group of the world's foremost researchers in geophysical and astrophysical convection to present a concise overview of recent thinking in the field. Topics include: Atmospheric convection, solar and stellar convection, unsteady non-penetrative thermal convection, astrophysical convection and dynamos, dynamics of cumulus entertainment, turbulent convection: helical buoyant convection, transport phenomena, potential vorticity, rotating convective turbulence, and the modeling and simulation various types of convection and turbulence.
Geophysical Convection Dynamics by Jun-Ichi Yano Pdf
Geophysical Convection Dynamics, Volume Five provides a single source reference that enables researchers to go through the basics of geophysical convection. The book includes basics on the dynamics of convection, including linear stability analysis, weakly nonlinear theory, effect of rotation, and double diffusion. In addition, it includes detailed descriptions of fully developed turbulence in well-mixed boundary layers, a hypothesis of vertical homogeneity, effects of moisture, and the formation of clouds. The book focuses on the presentation of the theoretical methodologies for studying convection dynamics with an emphasis on geophysical application that is relevant to fields across the earth and environmental sciences, chemistry and engineering. Guides and prepares early-stage researchers to plunge directly into research Provides a synthesis of the existing literature on topics including linear stability analysis, weakly nonlinear theory, effect of rotation, double diffusion, description of fully developed turbulence in well-mixed boundary layers, hypothesis of vertical homogeneity, effects of moisture, formation of clouds at the top, and cloud-top entrainment instability Presents geophysical convection to readers as a common problem spanning the atmosphere, oceans, and the Earth's mantle
Fast Processes in Large-Scale Atmospheric Models by Yangang Liu,Pavlos Kollias Pdf
Improving weather and climate prediction with better representation of fast processes in atmospheric models Many atmospheric processes that influence Earth’s weather and climate occur at spatiotemporal scales that are too small to be resolved in large scale models. They must be parameterized, which means approximately representing them by variables that can be resolved by model grids. Fast Processes in Large-Scale Atmospheric Models: Progress, Challenges and Opportunities explores ways to better investigate and represent multiple parameterized processes in models and thus improve their ability to make accurate climate and weather predictions. Volume highlights include: Historical development of the parameterization of fast processes in numerical models Different types of major sub-grid processes and their parameterizations Efforts to unify the treatment of individual processes and their interactions Top-down versus bottom-up approaches across multiple scales Measurement techniques, observational studies, and frameworks for model evaluation Emerging challenges, new opportunities, and future research directions The American Geophysical Union promotes discovery in Earth and space science for the benefit of humanity. Its publications disseminate scientific knowledge and provide resources for researchers, students, and professionals.
Air Pollution Modeling and Its Application XIII by Sven-Erik Gryning,Ekaterina Batchvarova Pdf
The ITM conference series has always had a strong spirit of cooperation under the NATO/CCMS umbrella, and with the considerable interest fram Partner countries to participate in the ITM conferences, it provides an excellent opportunity to create ties between scientists. Whereas all previous ITM conferences have taken place in NATO countries, the 23rd ITM takes place in a Cooperative Partner country, Bulgaria, and is hosted by the National Institute of Meteorology and Hydrology, Bulgarian Academy of Sciences. This fact reflects a general wish for a closer connection and collaboration among scientists fram Partner and NATO countries. This volume contains the papers from the 23rd NATO/CCMS International Technical Meetings on Air Pollution Modelling and Its Application, being held September 28 - October 2, 1998, at Riviera Holiday Club, Varna, Bulgaria. It was attended by 120 participants from 30 countries. Thanks are due to all who made it possible to plan, carry through, and follow up the meeting, and to the participants who made the conference so successful. Special thanks are due to the sponsoring institutions: ATO/CCMS EURASAP RIS0 BAS 3M NATO/CCMS - Committee on the Challenges of Modem Society EURASAP - European Association for the Science of Air Pollution RIS0 - Ris0 National Laboratory, Denmark NIMH - National Institute of Meteorology and Hydralogy, Bulgaria BAS - Bulgarian Academy of Sciences 3M Representation office, Bulgaria Prestige Business Ltd. , Bulgaria The excellent collaboration with CIM (Company for International Meetings Ltd.
Prediction of Turbulent Flows by Geoff Hewitt,Christos Vassilicos Pdf
The prediction of turbulent flows is of paramount importance in the development of complex engineering systems involving flow, heat and mass transfer, and chemical reactions. Arising from a programme held at the Isaac Newton Institute in Cambridge, this volume reviews the current situation regarding the prediction of such flows through the use of modern computational fluid dynamics techniques, and attempts to address the inherent problem of modelling turbulence. In particular, the current physical understanding of such flows is summarised and the resulting implications for simulation discussed. The volume continues by surveying current approximation methods whilst discussing their applicability to industrial problems. This major work concludes by providing a specific set of guidelines for selecting the most appropriate model for a given problem. Unique in its breadth and critical approach, this book will be of immense value to experienced practitioners and researchers, continuing the UK's strong tradition in fluid dynamics.
Large Eddy Simulation of Complex Engineering and Geophysical Flows by Boris Galperin,Steven A. Orszag Pdf
Originally published in 1993, this book was the first to offer a comprehensive review of large eddy simulations (LES) - the history, state of the art, and promising directions for research. Among topics covered are fundamentals of LES; LES of incompressible, compressible, and reacting flows; LES of atmospheric, oceanic, and environmental flows; and LES and massivelt parallel computing. The book grew out of an international workshop that, for the first time, brought together leading researchers in engineering and geophysics to discuss developments and applications of LES models in their respective fields. It will be of value to anyone with an interest in turbulence modelling.
Parameterization of Atmospheric Convection by Robert S Plant,Jun-Ichi Yano Pdf
Precipitating atmospheric convection is fundamental to the Earth's weather and climate. It plays a leading role in the heat, moisture and momentum budgets. Appropriate modelling of convection is thus a prerequisite for reliable numerical weather prediction and climate modelling. The current standard approach is to represent it by subgrid-scale convection parameterization. Parameterization of Atmospheric Convection provides, for the first time, a comprehensive presentation of this important topic. The two-volume set equips readers with a firm grasp of the wide range of important issues, and thorough coverage is given of both the theoretical and practical aspects. This makes the parameterization problem accessible to a wider range of scientists than before. At the same time, by providing a solid bottom-up presentation of convection parameterization, this set is the definitive reference point for atmospheric scientists and modellers working on such problems. Volume 1 of this two-volume set focuses on the basic principles: introductions to atmospheric convection and tropical dynamics, explanations and discussions of key parameterization concepts, and a thorough and critical exploration of the mass-flux parameterization framework, which underlies the methods currently used in almost all operational models and at major climate modelling centres. Volume 2 focuses on the practice, which also leads to some more advanced fundamental issues. It includes: perspectives on operational implementations and model performance, tailored verification approaches, the role and representation of cloud microphysics, alternative parameterization approaches, stochasticity, criticality, and symmetry constraints. Contents:Volume 1:Basic Parameterization Concepts and Issues:Moist Atmospheric Convection: An Introduction and Overview (Á Horváth)Sub-Grid Parameterization Problem (J-I Yano)Scale Separation (J-I Yano)Quasi-Equilibrium (R S Plant and J-I Yano)Tropical Dynamics: Large-Scale Convectively Coupled Waves (Ž Fuchs)Mass-Flux Parameterization:Hot-Tower Hypothesis and Mass-Flux Formulation (J-I Yano)Formulation of the Mass-Flux Convective Parameterization (J-I Yano)Thermodynamic Effects of Convection under the Mass-Flux Formulation (J-I Yano)Spectral and Bulk Mass-Flux Representations (R S Plant and O Martínez-Alvarado)Entrainment and Detrainment Formulations for Mass-Flux Parameterization (W C de Rooy, J-I Yano, P Bechtold and S J Böing)Closure (J-I Yano and R S Plant)Convective Vertical Velocity (J-I Yano)Downdraughts (J-I Yano)Momentum Transfer (J-I Yano)Volume 2:Operational Issues:Convection in Global Numerical Weather Prediction (P Bechtold)Satellite Observations of Convection and Their Implications for Parameterizations (J Quaas and P Stier)Convection and Waves on Small Planets and the Real Earth (P Bechtold, N Semane and S Malardel)Microphysics of Convective Cloud and Its Treatment in Parameterization (V T J Phillips and J-I Yano)Model Resolution Issues and New Approaches in the Convection-Permitting Regimes (L Gerard)Stochastic Aspects of Convective Parameterization (R S Plant, L Bengtsson and M A Whitall)Verification of High-Resolution Precipitation Forecast with Radar-Based Data (D Řezáčová, B Szintai, B Jakubiak, J-I Yano and S Turner)Unification and Consistency:Formulations of Moist Thermodynamics for Atmospheric Modelling (P Marquet and J-F Geleyn)Representation of Microphysical Processes in Cloud-Resolving Models (A P Khain)Cumulus Convection as a Turbulent Flow (A Grant)Clouds and Convection as Subgrid-Scale Distributions (E Machulskaya)Towards a Unified and Self-Consistent Parameterization Framework (J-I Yano, L Bengtsson, J-F Geleyn and R Brozkova)Theoretical Physics Perspectives:Regimes of Self-Organized Criticality in Atmospheric Convection (F Spineanu, M Vlad and D Palade)Invariant and Conservative Parameterization Schemes (A Bihlo, E Dos Santos Cardoso-Bihlo and R O Popovych)Conclusions:Conclusions (R S Plant and J-I Yano) Readership: Atmospheric scientists and modellers. Key Features:The first coherent book to focus on convective parameterization for climate modelling and numerical weather predictionClear focus on the underpinning theory of parameterization, and its possible extensionsPlaces current efforts to improve parameterizations firmly into the theoretical context rather than focusing on details of the technical implementation or changes to overall model performanceKeywords:Atmospheric Convection;Parameterization;Numerical Modelling;Numerical Weather Prediction;Global Climate Modelling
Convection in Rotating Fluids by B.M. Boubnov,Georgi S. Golitsyn Pdf
Spatial inhomogeneity of heating of fluids in the gravity field is the cause of all motions in nature: in the atmosphere and the oceans on Earth, in astrophysical and planetary objects. All natural objects rotate and convective motions in rotating fluids are of interest in many geophysical and astrophysical phenomena. In many industrial applications, too (crystal growth, semiconductor manufacturing), heating and rotation are the main mechanisms defining the structure and quality of the material. Depending on the geometry of the systems and the mutual orientation of temperature and gravity field, a variety of phenomena will arise in rotating fluids, such as regular and oscillating waves, intensive solitary vortices and regular vortex grids, interacting vortices and turbulent mixing. In this book the authors elucidate the physical essence of these phenomena, determining and classifying flow regimes in the space of similarity numbers. The theoretical and computational results are presented only when the results help to explain basic qualitative motion characteristics. The book will be of interest to researchers and graduate students in fluid mechanics, meteorology, oceanography and astrophysics, crystallography, heat and mass transfer.
