Loengukursuse eesmärk on anda teadmisi keskkonda säästvate tehnoloogiate mõõdikute kohta, mida kasutatakse biomassi koostise analüüsimiseks ja ümbertöötlemiseks. Õppeaine raames vaadeldakse erineva koostisega biomassi/tooraine töötlemiseks kasutatavaid tüüpilisi eeltöötluse meetodeid ja nende kineetikat.

The aim of the course is to provide to the students the knowledge of the green technology metrics of biomass compositional analysis and biomass processing technologies for bioproduct development. The course is developed through the typical approaches and principles of the kinetics of pretreatment technologies for various biomass/feedstocks.

Aktiivse loengus ja praktilistes harjutustes osalemise abil õpib tudeng kriitiliselt erinevaid biomassi/tooraine koostise analüüsi - ja ümbertöötlemise tehnoloogiaid hindama.

The student will be encouraged to develop a critical approach to the processing and understanding of technologies of biomass processing and feedstock compositional analysis. The student will develop an increasing capacity to learn through a method of study that makes productive the attendance at lectures and exercises, through active participation in them.

Kursuse raames antakse ülevaade rohelise keemia üldistest põhimõtetest, käsitletakse jätkusuutlikku tootmist ja keskkonda säästvaid tehnoloogiaid. Selgitatakse tarneahela tehnoökonoomilise analüüsi abil, kuidas vähendada tooraine töötlemiseks ja biotoote saamiseks tehtavaid kulutusi. Konkreetsemalt vaadeldakse bioetanooli, -butanooli ja-gaasi tootmist, samuti piimhappe, lenduvate rasvhapete ja suktsinaadi ning PHA ja PHB tootmist

This course on green chemistry metrics for feedstocks to biochemical development examines the potential for blends to reduce feedstock production costs using low cost formulation models and feedstock supply chain technoeconomic analysis. Topics in this course will include core areas like pretreatment technologies and compositional analysis of a wide range of feedstocks for bioproduct development including bioethanol, biobutanol, volatile fatty acid production, lactic acid production, PHA, PHB production, biogas production, and succinic acid production etc. A general background to the principles of green chemistry, green engineering and sustainable manufacturing is also a component.

Kirjalik eksam

Written examination

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1. R. Luque (2012)Green Chemistry, NovaScience Publishers, New York.
2. J.H. Clark, R. Luque, A.S. Matharu (2012)Green Chemistry, Biofuels and Biorefinery Annual Rev. Chem. Biomol. Eng. 2012, 3, 183-208
3. R. Luque, J. Campelo, J.H. Clark, (2010) Handbook of biofuels production: processes and Technologies, Woodhead Publishing, Cambridge, UK.
4. V.K. Gupta and M. Tuohy (2013). Biofuel Technologies – Recent Developments. Springer Science+Business Media, LLC, 233 Spring Street, New York, NY 10013, USA; ISBN 978-3-642-34518-0
5. Ashok Pandey Christian Larroche Steven Ricke Claude-Gilles Dussap (2011). Biofuels: Alternative Feedstocks and Conversion Processes, ISBN: 9780123851000
6. Vijai K. Gupta, Christian P. Kubicek, Jean-Guy Berrin, David W. Wilson, Marie Couturier, Alex Berlin, Edivaldo X.F. Filho, and Thaddeus Ezeji (2016). Fungal Enzymes for Bio-products from Sustainable and Waste Biomass. Trends in Biochemical Sciences, Cell Press, 41: 633–645
7. Haibo Xie and Nicholas Gathergood (2013) The Role of Green Chemistry in Biomass Processing and Conversion, John Wiley & Sons, Hoboken, New Jersey ISBN 978-0-470-64410-2

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