A comprehensive approach to selecting and understanding drying equipment for chemical and mechanical engineers

A detailed reference of interest for engineers and energy specialists working in the process industry field, Drying in the Process Industry investigates the current state of the art of today's industrial drying practices, examines the factors influencing drying's high costs in both equipment and energy consumption, and summarizes key elements for keeping drying operations under budget and performing at peak capacity safely while respecting the environment. Extensive coverage of dryer basics as well as essential procedures concerning the selection of industrial dryers--such as how to gather results of relevant laboratory measurements, carry out small-scale tests, and correctly size equipment--help to inform readers on criteria for generating scalable specifications that greatly assist buying decisions.

Drying in the Process Industry:

Takes a practical approach to drying equipment, from an author with four decades in the industry

Describes a diverse array of drying equipment (convective, like flash, spray, fluid-bed, and rotary; contact, like paddle and steam; radiation) from an engineer's perspective

Provides quick and ready access to drying technologies with references to more detailed literature

Treats drying in the context of the entire production process

True of all process facilities where drying plays an important role, such as those in the chemical, pharmaceutical, plastics, and food industries, the purchase of improper industrial drying equipment can significantly affect a manufacturer's economic bottom line. With the guidance offered in this book, engineers will be able to confidently choose industrial drying equipment that increases profits, runs efficiently, and optimally suits their needs.

At the interface of chemical industry operations, equipment manufacturer input, and the scientific literature, Industrial Crystallization of Melts explores and explains melt crystallization and purification in the industrial arena. This comprehensive account details the orderly conversion of melts into solid, salable end materials and procedures for purification by remelting; summarizes key theoretical concepts relating to crystalline matter and instationary heat transfer; and surveys the equipment available for specific processes. It also offers over 100 tested equations, as well as clear-cut methods for handling organic melts that call for special crystallization provisions.

At the interface of chemical industry operations, equipment manufacturer input, and the scientific literature, Industrial Crystallization of Melts explores and explains melt crystallization and purification in the industrial arena. This comprehensive account details the orderly conversion of melts into solid, salable end materials and procedures for purification by remelting; summarizes key theoretical concepts relating to crystalline matter and instationary heat transfer; and surveys the equipment available for specific processes. It also offers over 100 tested equations, as well as clear-cut methods for handling organic melts that call for special crystallization provisions.

Expert insight and guidance on integrating safety into design to significantly reduce risks to people, systems, property, and communities Safe design refers to the integration of hazard identification and risk assessment methods early in the design process so as to eliminate or minimize the risks of catastrophic failure throughout the life of a system, process, product, or service. This book provides engineers, designers, scientists and governmental officials with the knowledge and tools needed to seamlessly incorporate safety into the design of civil, industrial, and agricultural installations, as well as transportation systems, so as to minimize the risk of accidents and injuries. The methodology described in Safety in Design originates from the continuous safeguarding techniques first developed in the chemical industry and can successfully be applied to a range of industrial and civil settings. While the author focuses mainly on the aspects of safe design, he also addresses procedures which have a proven track record of preventing and alleviating the impacts of accidents with existing designs. He shares lessons learned from his nearly half-century of experience in the field and provides accounts of mishaps which could have been prevented, or significantly mitigated, based on data collected from approximately seventy incidents that have occurred in various countries. - Describes the application of safe design in an array of fields, including the chemical industry, transportation, farming, the building trade, and leisure - Reviews the history of intrinsic process safeguarding, which was first used in the chemical industry to minimize the risk of human error or instrumentation failure - Describes dozens of preventable incidents to illustrate the critical role safe design can play - Provides expert guidance and valuable tools for seamlessly weaving safety into every phase of the design process Safety in Design is an indispensable working resource for chemical, civil, mechanical, risk, and safety engineers, as well as professional R&D scientists, and process safety professionals. It is also a useful reference for insurers who deal with catastrophic loss potentials, and for government personnel who regulate or monitor industrial plants and procedures, traffic systems, and more.

An accessible introduction to chemical engineering for specialists in adjacent fields Chemical engineering plays a vital role in numerous industries, including chemical manufacturing, oil and gas refining and processing, food processing, biofuels, pharmaceutical manufacturing, plastics production and use, and new energy recovery and generation technologies. Many people working in these fields, however, are nonspecialists: management, other kinds of engineers (mechanical, civil, electrical, software, computer, safety, etc.), and scientists of all varieties. Introduction to Chemical Engineering is an ideal resource for those looking to fill the gaps in their education so that they can fully engage with matters relating to chemical engineering. Based on an introductory course designed to assist chemists becoming familiar with aspects of chemical plants, this book examines the fundamentals of chemical processing. The book specifically focuses on transport phenomena, mixing and stirring, chemical reactors, and separation processes. Readers will also find: A hands-on approach to the material with many practical examples Calculus is the only type of advanced mathematics used A wide range of unit operations including distillation, liquid extraction, absorption of gases, membrane separation, crystallization, liquid/solid separation, drying, and gas/solid separation Introduction to Chemical Engineering is a great help for chemists, biologists, physicists, and non-chemical engineers looking to round out their education for the workplace.