By Kamelia Boodhoo, Adam Harvey
The winning implementation of greener chemical methods is predicated not just at the improvement of extra effective catalysts for artificial chemistry but in addition, and as importantly, at the improvement of reactor and separation applied sciences that may convey superior processing functionality in a secure, within your budget and effort effective demeanour. approach intensification has emerged as a promising box which could successfully take on the demanding situations of vital method enhancement, when additionally providing the aptitude to decrease the environmental effect offered by means of the chemical industry.
Following an creation to technique intensification and the foundations of eco-friendly chemistry, this ebook offers a couple of intensified applied sciences which were researched and constructed, together with case reports to demonstrate their program to eco-friendly chemical processes.
Topics coated include:
• Intensified reactor applied sciences: spinning disc reactors, microreactors, monolith reactors, oscillatory circulation reactors, cavitational reactors
• Combined reactor/separator platforms: membrane reactors, reactive distillation, reactive extraction, reactive absorption
• Membrane separations for eco-friendly chemistry
• Industry relevance of technique intensification, together with economics and environmental impression, possibilities for power saving, and functional issues for business implementation.
Process Intensification for eco-friendly Chemistry is a priceless source for practicing engineers and chemists alike who're drawn to utilising intensified reactor and/or separator structures in more than a few industries to accomplish eco-friendly chemistry principles.
Chapter 1 method Intensification: an summary of ideas and perform (pages 1–31): Kamelia Boodhoo and Adam Harvey
Chapter 2 eco-friendly Chemistry rules (pages 33–58): James Clark, Duncan Macquarrie, Mark Gronnow and Vitaly Budarin
Chapter three Spinning Disc Reactor for eco-friendly Processing and Synthesis (pages 59–90): Kamelia Boodhoo
Chapter four Micro procedure expertise and Novel method home windows – 3 Intensification Fields (pages 91–156): Svetlana Borukhova and Volker Hessel
Chapter five eco-friendly Chemistry in Oscillatory Baffled Reactors (pages 157–173): Adam Harvey
Chapter 6 Monolith Reactors for Intensified Processing in eco-friendly Chemistry (pages 175–197): Joseph Wood
Chapter 7 procedure Intensification and eco-friendly Processing utilizing Cavitational Reactors (pages 199–225): Vijayanand Moholkar, Parag Gogate and Aniruddha Pandit
Chapter eight Membrane Bioreactors for eco-friendly Processing in a Sustainable construction process (pages 227–250): Rosalinda Mazzei, Emma Piacentini, Enrico Drioli and Lidietta Giorno
Chapter nine Reactive Distillation know-how (pages 251–274): Anton A. Kiss
Chapter 10 Reactive Extraction expertise (pages 275–287): Keat T. Lee and Steven Lim
Chapter eleven Reactive Absorption expertise (pages 289–309): Anton A. Kiss
Chapter 12 Membrane Separations for eco-friendly Chemistry (pages 311–353): Rosalinda Mazzei, Emma Piacentini, Enrico Drioli and Lidietta Giorno
Chapter thirteen approach Intensification in a company Context: common concerns (pages 355–367): Dag Eimer and Nils Eldrup
Chapter 14 procedure Economics and Environmental affects of method Intensification within the Petrochemicals, advantageous chemical substances and prescription drugs Industries (pages 369–378): Jan Harmsen
Chapter 15 possibilities for strength Saving from Intensified approach applied sciences within the Chemical and Processing Industries (pages 379–392): Dena Ghiasy and Kamelia Boodhoo
Chapter sixteen Implementation of technique Intensification in (pages 393–400): Jan Harmsen