Moving Particle Semi-implicit Method: Recent Developments and Applications offers detailed step-by-step guidance for advanced numerical models in the MPS method. With a strong focus on overcoming challenges, such as low improving accuracy and numerical stability, the book also examines the applications of MPS, particularly within nuclear engineering. Beginning with an introduction to grid-based and particle-based numerical methods, the book then reviews the original MPS method. Following chapters examine how the original method can be improved, covering topics such as improved discretization models, stabilization methods, multiphase flow and turbulence models, and improving efficiency. Closing chapters analyze applications in nuclear and ocean engineering, as well as considering future developments and implications. This book is an essential read for graduates, researchers and engineers interested in nuclear engineering and computational fluid dynamics. Presents detailed information on the advanced numerical models in the Moving Particle Semi-Implicit (MPS) method, including the improved discretization scheme, stabilization method, boundary condition, multiphase flow and fluid-structure interaction Provides the latest advances in improving the accuracy, stability and consistency of the MPS method Highlights the nuclear and ocean engineering applications of MPS
Moving Particle Semi-implicit Method: Recent Developments and Applications offers detailed step-by-step guidance for advanced numerical models in the MPS method. With a strong focus on overcoming challenges, such as low improving accuracy and numerical stability, the book also examines the applications of MPS, particularly within nuclear engineering. Beginning with an introduction to grid-based and particle-based numerical methods, the book then reviews the original MPS method. Following chapters examine how the original method can be improved, covering topics such as improved discretization models, stabilization methods, multiphase flow and turbulence models, and improving efficiency. Closing chapters analyze applications in nuclear and ocean engineering, as well as considering future developments and implications. This book is an essential read for graduates, researchers and engineers interested in nuclear engineering and computational fluid dynamics. Presents detailed information on the advanced numerical models in the Moving Particle Semi-Implicit (MPS) method, including the improved discretization scheme, stabilization method, boundary condition, multiphase flow and fluid-structure interaction Provides the latest advances in improving the accuracy, stability and consistency of the MPS method Highlights the nuclear and ocean engineering applications of MPS
Since it is one of the core disciplines, every student of organic chemistry will need to cover organic synthesis at some point. This third edition of an extremely well-received and proven textbook is specially written with advanced undergraduate and graduate students in mind, although it is equally useful for research chemists, too. 50% of the text is new and includes new chapters on combinatoric chemistry, non-covalent molecular assemblies and the use of the Internet for searching chemical compounds. The authors have chosen the methods included here for their efficiency, elegance, and didactic value and have highlighted important reactions within the text. From reviews of the second edition: 'The text is very readable, and the authors are especially gifted at explaining complex concepts clearly and succinctly...This book is highly recommended reading for anyone wishing to gain an overview of organic synthesis.' J. Am. Chem. Soc. With his preface, Noble prizewinner E. J. Corey has also endorsed this already highly acclaimed work.
Thank you for visiting our website. Would you like to provide feedback on how we could improve your experience?
This site does not use any third party cookies with one exception — it uses cookies from Google to deliver its services and to analyze traffic.Learn More.