【书籍简介】
Multi-scale and multi-physics modeling is useful and important for all areas in engineering and sciences. Particle Methods for Multi-Scale and Multi-Physics systematically addresses some major particle methods for modeling multi-scale and multi-physical problems in engineering and sciences. It contains different particle methods from atomistic scales to continuum scales, with emphasis on molecular dynamics (MD), dissipative particle dynamics (DPD) and smoothed particle hydrodynamics (SPH).
This book covers the theoretical background, numerical techniques and many interesting applications of the particle methods discussed in this text, especially in: micro-fluidics and bio-fluidics (e.g., micro drop dynamics, movement and suspension of macro-molecules, cell deformation and migration); environmental and geophysical flows (e.g., saturated and unsaturated flows in porous media and fractures); and free surface flows with possible interacting solid objects (e.g., wave impact, liquid sloshing, water entry and exit, oil spill and boom movement). The presented methodologies, techniques and example applications will benefit students, researchers and professionals in computational engineering and sciences.
【作者刘谋斌简介】
Mou-Bin Liu received his B E and M E degrees from Xi'an JiaoTong University (XJTU), China, in 1993 and 1996, respectively, and received his PhD from the National University of Singapore (NUS) in 2003. He is currently a professor at the College of Engineering and the Institute of Ocean Research of Peking University. He has authored more than 100 reviewed technical papers and one monograph, with more than 2000 SCI citations. He has received a number of prestigious awards from universities and scientific organizations worldwide, including the 100 Talent Program Award from the Chinese Academy of Sciences (CAS) in 2009, the Young Investigator Award from the Asia Pacific Association of Computational Mechanics (APACM) in 2007 and the Lee Kuan Yew Fellow Award from Nanyang Technological University (NTU), Singapore, in 2005. He is interested in computer modeling of complex flows with different coupling effects, and has developed some original numerical methods, both grid-based and meshfree particle-based, for modeling fluid dynamics and fluid-solid interactions, including high energy explosive detonation and explosion, underwater explosion, high strain hydrodynamics with material strength, wave breaking and interaction with structures (e.g., sloshing and slamming), and water entry and exit.
