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Rotary Reactor Engineering

Rotary Reactor Engineering
  • Author : Daizo Kunii
  • Publsiher : Elsevier
  • Release : 08 December 2007
  • ISBN : 9780080553337
  • Pages : 220 pages
  • Rating : 4/5 from 21 ratings
GET THIS BOOKRotary Reactor Engineering

Summary:
Rotary reactors or rotary kilns are the reactors facilitating the chemical reaction between the gas and solid phases usually at high temperatures. This book, which is written by an expert in the field, describes the principles of the rotary reactor and the mode of its operation. These reactors are widely used in various chemical process industries (food, pharmaceuticals) and metallurgical industries. The book defines the physiochemical aspects of the rotart reactors and provides theoretical equations of their operation. The first part of this book presents the fundamentals; solid movement, conversion of solids, and heat transfer. The middle part of the book applies these equations to a variety of processes which have been developed so far, and shows how they are used. In its last part, conceptual designs of novel rotary reactors are proposed, which performance characteristics are predicted on the basis of above equations, especially, in gasification of solid wastes. - Defines the rotary reactors and their mode of operation. - Defines all operating parameters and gives equations to predict the operation of rotary reactors under various conditions. - Includes a number of practical examples from various industrial applications (metallurgical waste treatment etc).


Rotary Reactor Engineering

Rotary Reactor Engineering
  • Author : Daizo Kunii,Tatsu Chisaki
  • Publisher : Elsevier
  • Release : 08 December 2007
GET THIS BOOKRotary Reactor Engineering

Rotary reactors or rotary kilns are the reactors facilitating the chemical reaction between the gas and solid phases usually at high temperatures. This book, which is written by an expert in the field, describes the principles of the rotary reactor and the mode of its operation. These reactors are widely used in various chemical process industries (food, pharmaceuticals) and metallurgical industries. The book defines the physiochemical aspects of the rotart reactors and provides theoretical equations of their operation. The first


Multiphase Reactor Engineering for Clean and Low-Carbon Energy Applications

Multiphase Reactor Engineering for Clean and Low-Carbon Energy Applications
  • Author : Yi Cheng,Fei Wei,Yong Jin
  • Publisher : John Wiley & Sons
  • Release : 21 February 2017
GET THIS BOOKMultiphase Reactor Engineering for Clean and Low-Carbon Energy Applications

Provides a comprehensive review on the brand-new development of several multiphase reactor techniques applied in energy-related processes Explains the fundamentals of multiphase reactors as well as the sophisticated applications Helps the reader to understand the key problems and solutions of clean coal conversion techniques Details the emerging processes for novel refining technology, clean coal conversion techniques, low-cost hydrogen productions and CO2 capture and storage Introduces current energy-related processes and links the basic principles of emerging processes to the features of









Advances in Engineering Fluid Mechanics: Multiphase Reactor and Polymerization System Hydr

Advances in Engineering Fluid Mechanics: Multiphase Reactor and Polymerization System Hydr
  • Author : Nicholas P Cheremisinoff
  • Publisher : Gulf Professional Publishing
  • Release : 27 February 1996
GET THIS BOOKAdvances in Engineering Fluid Mechanics: Multiphase Reactor and Polymerization System Hydr

This volume of the Advances in Engineering Fluid Mechanics Series covers topics in hydrodynamics related to polymerization of elastomers and plastics. Emphasis is given to advanced concepts in multiphase reactor systems often used in the manufacturing of products. This volume is comprised of 30 chapters that address key subject areas such as multiphase mixing concepts, multicomponet reactors and the hydrodynamics associated with their operations, and slurry flow behavior associated with non-Newtonian flows.