Laboratory And Numerical Modeling Of Topographic Effects On Time Dependent Ocean Currents
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Numerical Modeling of Ocean Circulation
| Author | : Robert N. Miller |
| Publisher | : Cambridge University Press |
| Total Pages | : 231 |
| Release | : 2007-01-18 |
| Genre | : Science |
| ISBN | : 1139461478 |
The modelling of ocean circulation is important not only for its own sake, but also in terms of the prediction of weather patterns and the effects of climate change. This 2007 book introduces the basic computational techniques necessary for all models of the ocean and atmosphere, and the conditions they must satisfy. It describes the workings of ocean models, the problems that must be solved in their construction, and how to evaluate computational results. Major emphasis is placed on examining ocean models critically, and determining what they do well and what they do poorly. Numerical analysis is introduced as needed, and exercises are included to illustrate major points. Developed from notes for a course taught in physical oceanography at the College of Oceanic and Atmospheric Sciences at Oregon State University, this book is ideal for graduate students of oceanography, geophysics, climatology and atmospheric science, and researchers in oceanography and atmospheric science.
Topographic Effects in Ocean Currents
| Author | : Valery Zyryanov |
| Publisher | : CRC Press |
| Total Pages | : 400 |
| Release | : 2020-09-15 |
| Genre | : |
| ISBN | : 9781138320789 |
Topographic Effects in Ocean Currents presents the hydrodynamic fundamentals of ocean current theory taking into account the bottom topography. It described the structures of ocean currents over underwater ridges, seamounts, hollows and around islands. It expounds results of theoretical and experimental studies of the dynamics of topographic eddies in the ocean. New phenomena such as secondary toroidal vortices, chaotic advection and associated mixing processes and transport of passive particles over seamounts are discussed. The book includes results of numerical modeling of the evolution of vortices in areas with seamounts in stationary and tidal currents by the Contour Dynamics Method.
Nonlinear Topographic Effects in the Ocean and Atmosphere
| Author | : L. J. Pratt |
| Publisher | : |
| Total Pages | : 595 |
| Release | : 2008 |
| Genre | : Hydrodynamics |
| ISBN | : |
Larry Pratt received his Ph. D. in physical oceanography in the Woods Hole/MIT Joint Program in 1982. He then served as a research associate and assistant research professor at the University of Rhode Island before joining the scientific staff at the Woods Hole Oceanographic Institution, where he is now a senior scientist. He is editor of The Physical Oceanography of Sea Straits and has authored or co-authored numerous articles on hydraulic effects in the ocean. J. A. (Jack) Whitehead received his Ph. D. in engineering and applied science from Yale University in 1968. After postdoctoral work and serving as assistant research geophysicist at the Institute of Geophysical and Planetary Physics at UCLA, he joined the scientific staff at the Woods Hole Oceanographic Institution, where he is now a Senior Scientist. He has authored or co-authored numerous articles on hydraulic effects in the ocean. Hydraulic effects can occur when high-speed ocean currents and atmospheric winds encounter strong topographic features. This book contains a deep and extensive discussion of geophysical flows that are broad enough to be influenced by Earth?s rotation and strong enough to experience classical hydraulic effects such as critical control and hydraulic jumps. Examples include deep overflows and coastal currents in the ocean and winds in the coastal marine layer. The material is appropriate for students at the graduate or advanced undergraduate level who have some elementary knowledge of fluid mechanics. Reviews of geophysical observations and of the hydraulics of flow with no background rotation are followed by chapters on models of currents in rotating channels, shock waves and time dependence, coastal flow, two-layer stratification, and jets. Although the primary focus is on the theory, a number of case studies, including the Faroe Bank overflow and the California coastal marine layer winds, are presented along with numerous laboratory experiments. Exercises are presented at the end of most sections. The presentation should allow the reader to develop a thorough understanding of the fundamentals of the hydraulics of rotating flows.
Ocean Modeling and Parameterization
| Author | : Eric P. Chassignet |
| Publisher | : Springer Science & Business Media |
| Total Pages | : 459 |
| Release | : 2012-12-06 |
| Genre | : Science |
| ISBN | : 9401150966 |
The realism of large scale numerical ocean models has improved dra matically in recent years, in part because modern computers permit a more faithful representation of the differential equations by their algebraic analogs. Equally significant, if not more so, has been the improved under standing of physical processes on space and time scales smaller than those that can be represented in such models. Today, some of the most challeng ing issues remaining in ocean modeling are associated with parameterizing the effects of these high-frequency, small-space scale processes. Accurate parameterizations are especially needed in long term integrations of coarse resolution ocean models that are designed to understand the ocean vari ability within the climate system on seasonal to decadal time scales. Traditionally, parameterizations of subgrid-scale, high-frequency mo tions in ocean modeling have been based on simple formulations, such as the Reynolds decomposition with constant diffusivity values. Until recently, modelers were concerned with first order issues such as a correct represen tation of the basic features of the ocean circulation. As the numerical simu lations become better and less dependent on the discretization choices, the focus is turning to the physics of the needed parameterizations and their numerical implementation. At the present time, the success of any large scale numerical simulation is directly dependent upon the choices that are made for the parameterization of various subgrid processes.
AMS Newsletter
| Author | : American Meteorological Society |
| Publisher | : |
| Total Pages | : 386 |
| Release | : 1987 |
| Genre | : Meteorology |
| ISBN | : |
Recent Research Advances in the Fluid Mechanics of Turbulent Jets and Plumes
| Author | : P.A. Davies |
| Publisher | : Springer Science & Business Media |
| Total Pages | : 513 |
| Release | : 2012-12-06 |
| Genre | : Science |
| ISBN | : 9401109184 |
Challenging problems involvrllg jet and plume phenomena are common to many areas of fundamental and applied scientific research, and an understanding of plume and jet behaviour is essential in many geophysical and industrial contexts. For example, in the field of meteorology, where pollutant dispersal takes place by means of atmospheric jets and plumes formed either naturally under conditions of convectively-driven flow in the atmospheric boundary layer, or anthropogenically by the release of pollutants from tall chimneys. In other fields of geophysics, buoyant plumes and jets are known to play important roles in oceanic mixing processes, both at the relatively large scale (as in deep water formation by convective sinking) and at the relatively small scale (as with plume formation beneath ice leads, for example). In the industrial context, the performances of many engineering systems are determined primarily by the behaviour of buoyant plumes and jets. For example, (i) in sea outfalls, where either sewage or thermal effluents are discharged into marine and/or freshwater environments, (ii) in solar ponds, where buoyant jets are released under density interfaces, (iii) in buildings, where thermally-generated plumes affect the air quality and ventilation properties of architectural environments, (iv) in rotating machinery where fluid jet~ are used for cooling purposes, and (v) in long road and rail tunnels, where safety and ventilation prcedures rely upon an understanding of the behaviour of buoyant jets. In many other engineering and oceanographic contexts, the properties of jets and plumes are of great importance.
Introduction to Numerical Geodynamic Modelling
| Author | : Taras Gerya |
| Publisher | : Cambridge University Press |
| Total Pages | : 359 |
| Release | : 2010 |
| Genre | : Mathematics |
| ISBN | : 0521887542 |
This user-friendly reference for students and researchers presents the basic mathematical theory, before introducing modelling of key geodynamic processes.
