Process Intensification Technologies for Biodiesel Production
Reactive Separation Processes
(Sprache: Englisch)
This book is among the first to address the novel process intensification technologies for biodiesel production, in particular the integrated reactive separations. It provides a comprehensive overview illustrated with many industrially relevant examples of...
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This book is among the first to address the novel process intensification technologies for biodiesel production, in particular the integrated reactive separations. It provides a comprehensive overview illustrated with many industrially relevant examples of novel reactive separation processes used in the production of biodiesel (e.g. fatty acid alkyl esters): reactive distillation, reactive absorption, reactive extraction, membrane reactors, and centrifugal contact separators. Readers will also learn about the working principles, design and control of integrated processes, while also getting a relevant and modern overview of the process intensification opportunities for biodiesel synthesis.Biodiesel is a biodegradable and renewable fuel that currently enjoys much attention. In spite of the recent advances, the existing biodiesel processes still suffer from problems associated with the use of homogeneous catalysts (e.g. salt waste streams) and the key limitations imposed by the chemical reaction equilibrium, thus leading to severe economic and environmental penalties. The integration of reaction and separation into one operating unit overcomes equilibrium limitations and provides key benefits such as low capital investment and operating costs. Many of these processes can be further enhanced by heat-integration and powered by heterogeneous catalysts, to eliminate all conventional catalyst related operations, using the raw materials efficiently and the reaction volume, while offering high conversion and selectivity, and significant energy savings.
The targeted audience of this book includes both academia (students and researchers) and industry (project leaders, technologymanagers, researchers, biodiesel producers, and equipment suppliers).
This book is one of the first to address novel process intensification technologies (integrated reactive separations) for biodiesel production. Biodiesel is a biodegradable and renewable fuel, emerging as a viable alternative to petroleum diesel. Conventional biodiesel processes still suffer from problems associated with the use of homogeneous catalysts (e.g. salt waste streams) and the limitations imposed by the chemical reaction equilibrium, thus leading to severe economical and environmental penalties.
This book provides a detailed overview
- illustrated with many industrially relevant examples
- of novel reactive separation processes used in the biodiesel production: reactive distillation
- absorption
- extraction and membrane reactors.
The integration of reaction and separation into one operating unit, overcomes equilibrium limitations and provides key benefits such as low capital investment and operating costs. These processes can be further enhanced by heat-integration and powered by heterogeneous catalysts, to eliminate all conventional catalyst related operations, using efficiently the raw materials and the reaction volume, while offering higher conversion and selectivity and high energy savings compared to conventional biodiesel processes. Remarkable, in spite of the high degree of integration, these integrated reactive-separation processes are still well controllable as illustrated by the included examples.
This book provides a detailed overview
- illustrated with many industrially relevant examples
- of novel reactive separation processes used in the biodiesel production: reactive distillation
- absorption
- extraction and membrane reactors.
The integration of reaction and separation into one operating unit, overcomes equilibrium limitations and provides key benefits such as low capital investment and operating costs. These processes can be further enhanced by heat-integration and powered by heterogeneous catalysts, to eliminate all conventional catalyst related operations, using efficiently the raw materials and the reaction volume, while offering higher conversion and selectivity and high energy savings compared to conventional biodiesel processes. Remarkable, in spite of the high degree of integration, these integrated reactive-separation processes are still well controllable as illustrated by the included examples.
Inhaltsverzeichnis zu „Process Intensification Technologies for Biodiesel Production “
1. Process intensification technologies.- 2. Biodiesel and fatty esters.- 3. Reactive separation processes.- 4. Property models and process simulation.- 5. Reactive distillation technology.- 6. Reactive absorption technology.- 7. Reactive extraction technology.- 8. Membrane reactors.- 9. Centrifugal contact separators.- 10. Concluding remarks.
Autoren-Porträt von Anton A. Kiss
After successfully earning a PhD in ChemEng at Univ. of Amsterdam (UvA) and working as PostDoc fellow at DelftChemTech (Delft Univ. of Technology), Dr. ir. Anton Alexandru Kiss joined the applied research in industry.Since 2005 he has worked at Akzo Nobel - one of the chemical leaders in the Fortune 500 companies - within the department of Research, Development & Innovation, as Senior Project Leader in Separation Technology.
He is also an invited lecturer at Dutch universities - giving courses on reactive separations and process intensification. During the past decade he has carried out over 120 research projects and published over 50 scientific articles and several books.
Bibliographische Angaben
- Autor: Anton A. Kiss
- 2014, XV, 103 Seiten, Maße: 16,7 x 24 cm, Kartoniert (TB), Englisch
- Verlag: Springer, Berlin
- ISBN-10: 3319035533
- ISBN-13: 9783319035536
Sprache:
Englisch
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