This book is for engineers and students to solve issues concerning the fluidized bed systems. It presents an analysis that focuses directly on the problem of predicting the fluid dynamic behavior which empirical data is limited or unavailable. The second objective is to provide a treatment of computational fluidization dynamics that is readily accessible to the non-specialist. The approach adopted in this book, starting with the formulation of predictive expressions for the basic conservation equations for mass and momentum using kinetic theory of granular flow. The analyses presented in this book represent a body of simulations and experiments research that has appeared in numerous publications over the last 20 years. This material helps to form the basis for university course modules in engineering and applied science at undergraduate and graduate level, as well as focused, post-experienced courses for the process, and allied industries.
This book is for engineers and students to solve issues concerning the fluidized bed systems. It presents an analysis that focuses directly on the problem of predicting the fluid dynamic behavior which empirical data is limited or unavailable. The second objective is to provide a treatment of computational fluidization dynamics that is readily accessible to the non-specialist. The approach adopted in this book, starting with the formulation of predictive expressions for the basic conservation equations for mass and momentum using kinetic theory of granular flow. The analyses presented in this book represent a body of simulations and experiments research that has appeared in numerous publications over the last 20 years. This material helps to form the basis for university course modules in engineering and applied science at undergraduate and graduate level, as well as focused, post-experienced courses for the process, and allied industries.
This book provides a comprehensive look at one-dimensional (1D) mesoporous inorganic nanomaterials. Beginning with a systematic presentation of their characterization using advanced electron microscopy techniques, the book discusses how to design the growth of 1D nanomaterials in order to achieve different, application-targeted morphologies such as nanowires, nanorods, nanofibers, nanotubes, and nanobelts. Subsequently, the book systematically summarizes current state-of-the-art research activities, encompassing energy conversion and storage, catalysis, sensing, and adsorption. The book concludes with a forward-looking summary of the different prospects of these materials for novel energy applications, as well as the challenges faced regarding their mass production, cost-effective synthesis strategies, and a deep understanding of the physics involved in the microstructure-dependent performance. Featuring broad and up-to-date coverage of this rapidly growing field, this book is useful for researchers working at the intersections of materials science, chemistry, and advanced energy devices.
The M8.0 Wenchuan Earthquake occurred in China on May 12, 2008, killing over 69,000 people and displacing millions from their homes. This was one of the most catastrophic natural disasters on record. This book includes 5 chapters describing the tectonic setting and historical earthquakes around the Chuan-Dian region, the nucleation of the Wenchuan earthquake, occurrence and aftershocks. The field observations of earthquake induced surface fractures and building damage, form a major and special part of this book and include a large number of digital photos with accompanying explanantions.
Recent advances witness the potential to employ nanomedicine and game-changing methods to deliver drug molecules directly to diseased sites. To optimize and then enhance the efficacy and specificity, the control and guidance of drug carriers in vasculature has become crucial. Current bottlenecks in the optimal design of drug carrying particles are the lack of knowledge about the transport of particles, adhesion on endothelium wall and subsequent internalization into diseased cells. To study the transport and adhesion of particle in vasculature, the authors have made great efforts to numerically investigate the dynamic and adhesive motions of particles in the blood flow. This book discusses the recent achievements from the establishment of fundamental physical problem to development of multiscale model, and finally large scale simulations for understanding transport of particle-based drug carriers in blood flow.
This volume addresses the rapid growth of China’s cultural industry and its significant cultural and economic impact on the country. It considers what exactly constitutes the cultural industry, defining the basis for discussions on issues as the internal tensions constraining China’s cultural industry development. It examines the place of culture and cultural industry in relation to China’s overall development, and what kinds of strategies, policies and concrete measures are most effective in promoting the industry’s growth, exploring the role of Government in Cultural Industrial Development.
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