HiGee Chemical Separation Engineering
- 1st Edition - November 13, 2023
- Imprint: Elsevier
- Author: Youzhi Liu
- Language: English
- Paperback ISBN:9 7 8 - 0 - 3 2 3 - 9 5 1 7 3 - 9
- eBook ISBN:9 7 8 - 0 - 3 2 3 - 9 5 1 7 4 - 6
Hi-Gee Chemical Separation Engineering introduces the basic concepts and technical terms of high gravity (hi-gee) separation technology in a systematical way while also analyzing… Read more
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Hi-Gee Chemical Separation Engineering introduces the basic concepts and technical terms of high gravity (hi-gee) separation technology in a systematical way while also analyzing and expounding on the differences between centrifugal separation technology and high gravity separation technology. The book takes the "problem elicitation-theory-principle-key technology-application case" as the main line and introduces, in detail, the operation and technical contents of high gravity chemical separation, such as absorption, desorption, distillation, extraction and adsorption. In addition, the book highlights academic innovation and lists examples that are closely combined with practical production.
This book will be an indispensable reference for researchers, engineers and technicians, production managers, and teachers and students of related majors in colleges and universities in chemical industry, materials, environment, pharmacy, food and other fields.
- Offers, in a single source, high gravity chemical separation operation and technical content like absorption, desorption, distillation, extraction and adsorption
- Integrates basic research, theoretical innovation, key technology breakthroughs and engineering application cases
- Features attractive and enlightening application prospects and outlooks
- Introduces development trends and direction of each high gravity separation operation technology
Researchers, engineers and technicians, production managers, and teachers and students in chemical and process engineering, materials engineering, environmental sciences, pharmacy, food science
1. Introduction
Introduction
Basic principle and unit operation of high gravity separation
Device of high gravity separation
2. Absorption
Introduction
Principle of the intensifying of absorption process by high gravity
Key issues and technologies
Practical applications
3. Desorption
Intensifying of the synchronous transmission of heat and mass in thermal desorption process by high gravity
Key technologies
Practical applications
4. Distillation
Introduction
Principle of the intensifying of rectification by high gravity
Key technologies
The properties of rectification by high gravity
Practical applications
Outlook
5. Liquid-liquid extraction
Introduction
Principle of the intensifying of extraction by IS-RPB
Operation of extraction by IS-RPB
Practical applications
Outlook
6. Liquid-membrane separation
Introduction
Principle of the intensifying of preparation and separation of liquid-membrane by high gravity
Key technologies of emulsus liquid-membrane separation by IS-RPB
Practical applications
Outlook
7. Adsorption
Introduction
Technology of adsorption and separation
Technology of adsorption by high gravity
Practical applications
8. Gas-solid separation
Introduction
Key technologies and principle of gas-solid separation by high gravity
Performance of gas-solid separation by high gravity
Practical applications
Outlook
9. Other separation processes
Intensifying of ozonation process by rotating packed bed
Intensifying of separation of nitrobenzene from wastewater by impinging stream-rotating packed bed through zero valent iron process
Intensifying of electrochemical separation process by multistage concentric cylinder-rotating bed
Intensifying of photocatalytic process by rotating disk reactor
Outlook
Introduction
Basic principle and unit operation of high gravity separation
Device of high gravity separation
2. Absorption
Introduction
Principle of the intensifying of absorption process by high gravity
Key issues and technologies
Practical applications
3. Desorption
Intensifying of the synchronous transmission of heat and mass in thermal desorption process by high gravity
Key technologies
Practical applications
4. Distillation
Introduction
Principle of the intensifying of rectification by high gravity
Key technologies
The properties of rectification by high gravity
Practical applications
Outlook
5. Liquid-liquid extraction
Introduction
Principle of the intensifying of extraction by IS-RPB
Operation of extraction by IS-RPB
Practical applications
Outlook
6. Liquid-membrane separation
Introduction
Principle of the intensifying of preparation and separation of liquid-membrane by high gravity
Key technologies of emulsus liquid-membrane separation by IS-RPB
Practical applications
Outlook
7. Adsorption
Introduction
Technology of adsorption and separation
Technology of adsorption by high gravity
Practical applications
8. Gas-solid separation
Introduction
Key technologies and principle of gas-solid separation by high gravity
Performance of gas-solid separation by high gravity
Practical applications
Outlook
9. Other separation processes
Intensifying of ozonation process by rotating packed bed
Intensifying of separation of nitrobenzene from wastewater by impinging stream-rotating packed bed through zero valent iron process
Intensifying of electrochemical separation process by multistage concentric cylinder-rotating bed
Intensifying of photocatalytic process by rotating disk reactor
Outlook
- Edition: 1
- Published: November 13, 2023
- Imprint: Elsevier
- Language: English
YL
Youzhi Liu
Youzhi Liu is professor of North University of China, doctoral supervisor, director of the Shanxi Province Key Laboratory of Higee-Oriented Chemical Engineering, the first Fellow of China Chemical Industry Association, enjoying the Special allowance of The State Council. He is the executive Deputy Director of the Chemical Process Intensification Committee of the China Chemical Industry Association, the Deputy director of the Chemical Engineering Teaching Steering Committee of the Ministry of education of the people's Republic of China and an expert in evaluating the level of Undergraduate Teaching. He also serves as the deputy editor-in-chief of “Chemical Progress”, deputy director and executive deputy director of the book named “Key Technologies for Chemical Process Intensification series”. He has been engaged in the research of chemical process intensification theory, the foundation of HiGee chemical process and applied technology for more than 20 years. Under the guidance of the operation of the HiGee chemical unit, the new intensification mechanism of the separation process of the HiGee chemical industry is comprehensively innovated, and the application field is innovated and expanded. Based on the collaborative innovation of device technology and separation process, the common key technologies of engineering are conquered, and the complete set of engineering equipment and technology of HiGee separation are formed. He was responsible for drafting the industry standard of “High gravity device”, authorized 98 invention patents, published more than 400 academic papers, and published works including “Chemical Process Intensification Methods and Technologies”, “Chemical Engineering Process and Technology in High Gravity” and so on. A number of scientific research achievements have reached the international advanced level, and have been successfully applied in chemical industry, energy, environmental protection and some other fields, achieving significant economic and environmental benefits, and promoting the technological progress of the industry.
Affiliations and expertise
professor of North University of China, doctoral supervisor, director of the Shanxi Province Key Laboratory of Higee-Oriented Chemical Engineering, the first Fellow of China Chemical Industry Association, enjoying the Special allowance of The State Council.Read HiGee Chemical Separation Engineering on ScienceDirect