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The handling of bulk materials is a continuously completed projects. Much of the nomenclature has been changing science. Since very few schools teach the han brought up to date. dling of bulk materials, it is necessary for practicing en Publication of the material contained herein is not in gineers to develop their own training manuals. This book tended as a representation or warranty on the part of the is an abbreviated version of a manual used for that pur author, publisher, editors, or any other person or firm pose in our office, and developed over a period of more named herein that it is suitable for any particular use, or than 50 years. While some industrial firms follow their free from infringement of any patent or patents. own practices, the trend in the past few years has been The text is intended as a guide. When used for any to adopt the standards of equipment manufacturers' as specific project, a competent professional engineer sociations and similar organizations. The selection of should be retained to verify the assumptions, applica material and the use of drawiugs instead of photographs bility, calculations, and accuracy of the particular de is based on our experience. sign.
Handling of Bulk Solids provides a comprehensive discussion of the field of solids flow and handling in the process industries. Presentation of the subject follows classical lines of separate discussions for each topic, so each chapter is self-contained and can be read on its own. Topics discussed include bulk solids flow and handling properties; pressure profiles in bulk solids storage vessels; the design of storage silos for reliable discharge of bulk materials; gravity flow of particulate materials from storage vessels; pneumatic transportation of bulk solids; and the hazards of solid-materials handling and processing along with their prevention. Worked-out examples are included at the end of each chapter to familiarize the reader with the numerical manipulations and orders of magnitude of various parameters which occur in the subject of bulk solids handling. Because of the complicated form of most of the design equations involved, the computer is an ideal vehicle for the solution of many design problems in bulk solids handling. This book is suitable for advanced undergraduate and postgraduate levels as well as for practitioners in industry.
An understanding ofthe properties and the handling characteristics of liquids and gases has long been regarded as an essential requirement for most practising engineers. It is therefore not surprising that, over the years, there has been a regular appearance of books dealing with the fundamentals of fluid mechanics, fluid flow, hydraulics and related topics. What is surprising is that there has been no parallel development of the related discipline of Bulk Solids Handling, despite its increasing importance in modern industry across the world. It is only very recently that a structured approach to the teaching, and learning, of the subject has begun to evolve. A reason for the slow emergence of Bulk Solids Handling as an accepted topic of study in academic courses on mechanical, agricultural, chemical, mining and civil engineering is perhaps that the practice is so often taken for granted. Certainly the variety of materials being handled in bulk is almost endless, ranging in size from fine dust to rocks, in value from refuse to gold, and in temperature from deep-frozen peas to near-molten metal.
Sponsored jointly by the American Society of Mechanical Engineers and International Material Management Society, this single source reference is designed to meet today's need for updated technical information on planning, installing and operating materials handling systems. It not only classifies and describes the standard types of materials handling equipment, but also analyzes the engineering specifications and compares the operating capabilities of each type. Over one hundred professionals in various areas of materials handling present efficient methods, procedures and systems that have significantly reduced both manufacturing and distribution costs.
Tens of thousands of mechanical engineers are engaged in the design, building, upgrading, and optimization of various material handling facilities. The peculiarity of material handling is that there are numerous technical solutions to any problem. The engineer’s personal selection of the optimal solution is as critical as the technical component. Michael Rivkin, Ph.D., draws on his decades of experience in design, construction, upgrading, optimization, troubleshooting, and maintenance throughout the world, to highlight topics such as: • physical principles of various material handling systems; • considerations in selecting technically efficient and environmentally friendly equipment; • best practices in upgrading and optimizing existing bulk material handling facilities; • strategies to select proper equipment in the early phases of a new project. Filled with graphs, charts, and case studies, the book also includes bulleted summaries to help mechanical engineers without a special background in material handling find optimal solutions to everyday problems.
"Bulk Solids Handling: Equipment Selection and Operation provides an overview of the major technologies involved in the storage and handling of particulate materials from large grains to fine cohesive materials. - Topics covered include characterisation of individual particles and bulk particulate materials, silo design for strength and flow, pneumatic conveying systems, mechanical conveying, and small scale operations. - Guidance is given on appropriate equipment choices depending on the type of material to be handled, and applications and limitations of current bulk solids handling equipment are discussed."--Jacket.
This book presents some key points in the instrumentation of powder handling processes and provides readers with sufficient knowledge of instrumentation to act as a base for the development of new instruments. It is helpful for instrumentation engineers in powder and bulk solid processes.