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Author: Rachaneewan Charoenwat
Publisher:
ISBN:
Category : Biodiesel fuels
Languages : en
Pages :
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Book Description
Biodiesel, Fatty Acid Methyl Ester (FAME), is a renewable fuel that is a promising alternative to fossil fuels in the future. Biodiesel not only has similar properties to diesel derived from fossil fuel, but it also provides more environmentally friendly due to lower carbon monoxide and sulfur emissions. Biodiesel is composed of methyl esters which can be synthesized from various fatty acid sources with a present of catalyst. Typical feed-stocks include vegetable oils, such as waste cooking oil, animal fats, and even oil from algae. Four primary ways to use vegetable oil as a fuel are direct use, blending with diesel via a co-solvent, using oil produced by thermo cracking (pyrolysis), and using methyl esters made by transesterification/esterification. The transesterification process is the most frequently used methods for making biodiesel because it gives the fuel that has similar or better properties as diesel fuel. However, most biodiesel is still produced using batch reactor technology that is decades old. Improvements in biodiesel quality and economics can be achieved by employing alternate reactor technology for biodiesel synthesis that can reduce reactor size and energy consumption. Recently, microreactor technology, an important method of process intensification, was widely used to apply in biodiesel to reduce the residence time. In addition, the biodiesel producers typically employs as catalyst to speed the transesterification reaction. The catalysts are usually homogeneous bases but strong acids can work as well. In this work, the use of capillary reactor technology for the intensification of transesterification was studied. Both homogeneous alkaline and heterogeneous acid catalysis were investigated. Reactions were conducted experimentally in stirred batch and continuous flow capillary reactors. To confirm the intensification process, the titanium micro-reactor was also presented to verify the rapid mass transfer in microscale. Moreover, the batch reactor and capillary reactor are compared to show the effectiveness of biodiesel production in capillary reactor. The results show that, from the homogeneous alkali-catalyst, conversion of vegetable oil greater than 98% could be achieved for significantly lower residence times and energy input compared to the stirred batch reactor case. This enhanced performance was due to the intensification of mass and heat transfer enabled by the use of the capillary reactor. In order to reduce the purifying process, the experiment is investigated the use of a heterogeneous acid catalyst for the transesterification reaction in a capillary reactor. The catalyst will be immobilized in the reactor as a packed bed of micro-particles. The results indicated that high surface area of packed bed reactor gave the 84% oil conversion with a significant reducing in residence time for 1 h. Because of the micro-particles, there was to high pressure drop in the reactor during the experiment. A mathematical model for the multiphase flow in a capillary including transesterification reaction kinetics was developed. The model was solved approximately using a time accurate finite element-based computer code. The predictions made by the model follow the same trends observed in the experiments.
Author: Rachaneewan Charoenwat
Publisher:
ISBN:
Category : Biodiesel fuels
Languages : en
Pages :
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Book Description
Biodiesel, Fatty Acid Methyl Ester (FAME), is a renewable fuel that is a promising alternative to fossil fuels in the future. Biodiesel not only has similar properties to diesel derived from fossil fuel, but it also provides more environmentally friendly due to lower carbon monoxide and sulfur emissions. Biodiesel is composed of methyl esters which can be synthesized from various fatty acid sources with a present of catalyst. Typical feed-stocks include vegetable oils, such as waste cooking oil, animal fats, and even oil from algae. Four primary ways to use vegetable oil as a fuel are direct use, blending with diesel via a co-solvent, using oil produced by thermo cracking (pyrolysis), and using methyl esters made by transesterification/esterification. The transesterification process is the most frequently used methods for making biodiesel because it gives the fuel that has similar or better properties as diesel fuel. However, most biodiesel is still produced using batch reactor technology that is decades old. Improvements in biodiesel quality and economics can be achieved by employing alternate reactor technology for biodiesel synthesis that can reduce reactor size and energy consumption. Recently, microreactor technology, an important method of process intensification, was widely used to apply in biodiesel to reduce the residence time. In addition, the biodiesel producers typically employs as catalyst to speed the transesterification reaction. The catalysts are usually homogeneous bases but strong acids can work as well. In this work, the use of capillary reactor technology for the intensification of transesterification was studied. Both homogeneous alkaline and heterogeneous acid catalysis were investigated. Reactions were conducted experimentally in stirred batch and continuous flow capillary reactors. To confirm the intensification process, the titanium micro-reactor was also presented to verify the rapid mass transfer in microscale. Moreover, the batch reactor and capillary reactor are compared to show the effectiveness of biodiesel production in capillary reactor. The results show that, from the homogeneous alkali-catalyst, conversion of vegetable oil greater than 98% could be achieved for significantly lower residence times and energy input compared to the stirred batch reactor case. This enhanced performance was due to the intensification of mass and heat transfer enabled by the use of the capillary reactor. In order to reduce the purifying process, the experiment is investigated the use of a heterogeneous acid catalyst for the transesterification reaction in a capillary reactor. The catalyst will be immobilized in the reactor as a packed bed of micro-particles. The results indicated that high surface area of packed bed reactor gave the 84% oil conversion with a significant reducing in residence time for 1 h. Because of the micro-particles, there was to high pressure drop in the reactor during the experiment. A mathematical model for the multiphase flow in a capillary including transesterification reaction kinetics was developed. The model was solved approximately using a time accurate finite element-based computer code. The predictions made by the model follow the same trends observed in the experiments.
Author:
Publisher:
ISBN:
Category : Biomass energy
Languages : en
Pages : 80
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Book Description
Author: Santana, Harrson Silva
Publisher: IGI Global
ISBN: 1522571396
Category : Technology & Engineering
Languages : en
Pages : 388
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Book Description
Microfluidics represent great potential for chemical processes design, development, optimization, and chemical engineering bolsters the project design of industrial processes often found in large chemical plants. Together, microfluidics and chemical engineering can lead to a more complete and comprehensive process. Process Analysis, Design, and Intensification in Microfluidics and Chemical Engineering provides emerging research exploring the theoretical and practical aspects of microfluidics and its application in chemical engineering with the intention of building pathways for new processes and product developments in industrial areas. Featuring coverage on a broad range of topics such as design techniques, hydrodynamics, and numerical modelling, this book is ideally designed for engineers, chemists, microfluidics and chemical engineering companies, academicians, researchers, and students.
Author: David Reay
Publisher: Butterworth-Heinemann
ISBN: 0080983057
Category : Technology & Engineering
Languages : en
Pages : 624
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Book Description
Process Intensification: Engineering for Efficiency, Sustainability and Flexibility is the first book to provide a practical working guide to understanding process intensification (PI) and developing successful PI solutions and applications in chemical process, civil, environmental, energy, pharmaceutical, biological, and biochemical systems. Process intensification is a chemical and process design approach that leads to substantially smaller, cleaner, safer, and more energy efficient process technology. It improves process flexibility, product quality, speed to market and inherent safety, with a reduced environmental footprint. This book represents a valuable resource for engineers working with leading-edge process technologies, and those involved research and development of chemical, process, environmental, pharmaceutical, and bioscience systems. - No other reference covers both the technology and application of PI, addressing fundamentals, industry applications, and including a development and implementation guide - Covers hot and high growth topics, including emission prevention, sustainable design, and pinch analysis - World-class authors: Colin Ramshaw pioneered PI at ICI and is widely credited as the father of the technology
Author: Gerhard Knothe
Publisher: Elsevier
ISBN: 0983507260
Category : Science
Languages : en
Pages : 516
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Book Description
The second edition of this invaluable handbook covers converting vegetable oils, animal fats, and used oils into biodiesel fuel. The Biodiesel Handbook delivers solutions to issues associated with biodiesel feedstocks, production issues, quality control, viscosity, stability, applications, emissions, and other environmental impacts, as well as the status of the biodiesel industry worldwide. - Incorporates the major research and other developments in the world of biodiesel in a comprehensive and practical format - Includes reference materials and tables on biodiesel standards, unit conversions, and technical details in four appendices - Presents details on other uses of biodiesel and other alternative diesel fuels from oils and fats
Author: Krister Holmberg
Publisher: Wiley
ISBN: 9780471498834
Category : Science
Languages : en
Pages : 562
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Book Description
Many industrial formulations such as detergents, paints, foodstuff and cosmetics contain both surfactants and polymers and their interaction govern many of the properties. This book is unique in that it discusses the solution chemistry of both surfactants and polymers and also the interactions between the two. The book, which is based on successful courses given by the authors since 1992, is a revised and extended version of the first edition that became a market success with six reprints since 1998. Surfactants and Polymers in Aqueous Solution is broad in scope, providing both theoretical insights and practical help for those active in the area. This book contains a thorough discussion of surfactant types and gives information of main routes of preparation. A chapter on novel surfactants has been included in the new edition. Physicochemical phenomena such as self-assembly in solution, adsorption, gel formation and foaming are discussed in detail. Particular attention is paid to the solution behaviour of surfactants and polymers containing polyoxyethylene chains. Surface active polymers are presented and their interaction with surfactants is a core topic of the book. Protein-surfactant interaction is also important and a new chapter deals with this issue. Microemulsions are treated in depth and several important application such as detergency and their use as media for chemical reactions are presented. Emulsions and the choice of emulsifier is discussed in some detail. The new edition also contains chapters on rheology and wetting. Surfactants and Polymers in Aqueous Solution is aimed at those dealing with surface chemistry research at universities and with surfactant formulation in industry.
Author: Henry Rider Haggard
Publisher: Castrovilli Giuseppe
ISBN:
Category : Adventure stories, English
Languages : en
Pages : 404
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Book Description
Author: Volker Hessel
Publisher: MDPI
ISBN: 3038420387
Category : Technology & Engineering
Languages : en
Pages : 250
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Book Description
This book is a printed edition of the Special Issue "Design and Engineering of Microreactor and Smart-Scaled Flow Processes" that was published in Processes
Author: F.D. Gunstone
Publisher: Springer
ISBN: 146154131X
Category : Science
Languages : en
Pages : 263
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Book Description
This book has a pedigree. It has developed from earlier publications by the author and from his experience over 50 years in reading, writing, thinking, and working with lipids and fatty acids. The earlier publications are: (i) An Introduction to the Chemistry of Fats and Fatty Acids, Chapman and Hall, 1958. (ii) An Introduction to the Chemistry and Biochemistry of Fatty Acids and their Glycerides, Chapman and Hall, 1967. (iii) Lipids in Foods: Chemistry, Biochemistry, and Technology (with F. A. Norris), Pergamon Press, 1983. (iv) The Lipid Handbook (with J. L. Harwood and F. B. Padley), Chapman and Hall, first edition 1986, second edition 1994. (v) A Lipid Glossary (with B. G. Herslof), The Oily Press, Dundee, 1992. (vi) Lecture notes for a course on Fatty Acids and Lipids designed for those entering the oil and fat industry and given on over 20 occasions since 1977. The book is dedicated to the next generation of lipid scientists. The study of lipids now involves many disciplines, all of which require a basic knowledge of the chemical nature and properties of these molecules, which is what this book is about. It is written particularly for those who, with some knowledge of chemistry or biochemistry, need to know more about the nature of lipids and fatty acids.
Author: Volker Hessel
Publisher: John Wiley & Sons
ISBN: 3527328580
Category : Technology & Engineering
Languages : en
Pages : 342
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Book Description
This book introduces the concept of novel process windows, focusing on cost improvements, safety, energy and eco-efficiency throughout each step of the process. The first part presents the new reactor and process-related technologies, introducing the potential and benefit analysis. The core of the book details scenarios for unusual parameter sets and the new holistic and systemic approach to processing, while the final part analyses the implications for green and cost-efficient processing. With its practical approach, this is invaluable reading for those working in the pharmaceutical, fine chemicals, fuels and oils industries.
