Post on 06-Jul-2020
transcript
I
N.1 9:00-9:45 Course introduction. Round the table presentations LO
9:45-10:00 Coffee
10:00-10:45 Bioethanol and the development towards the concept of biorefining – an overview
1 LO
10:45-11:15 Plant cell wall fundamentals 2 JL
11:15-12:00 Basic raw material analytics: HPLC, HPAEC, reducing sugars 3 LO
12:00-13:00 Lunch
13:00-13:45 Algal biorefineries: overview and perspectives 4 JM
13:45-14:30 Fractionation and pre-treatment methods 5 MG
14:30-15:00 Coffee
15:00-16:00 New biorefinery concepts with ionic liquids and deep
eutectic solvents 6 RW
16:00-17:00 Bioenergy and biomaterials sustainability issues 7 CC
17:00-18:00 Exercises and discussion
18.00-18.15 Presentation of the BIO department at Chalmers Stefan Hohmann, Head of Department
N.1
9:00-9:45 Challenges in sample preparation and analysis of
lignocellulose polymeric materials 8 MH
9:45-10:30 Enzymatic hydrolysis of lignocellulose - introduction 9 KSJ
10:30-10:45 Coffee
10:45-12:00 Enzyme discovery for biorefinery applications 10 JL
12:00-13:00 Lunch
13:00-13:45 Mass spectrometric-based glycomic analysis of lignocellulosic
materials 11 FVD
13:45-14:15 The challenges of measuring cellulolytic activities - discussion 12 KSJ
14:15-14:45 Coffee
14:45-15:45 Business aspects in biorefinery development 13 KSJ
15:45-16:30 Algal biorefineries: extractable products and applications 14 EA/JM
16:30-18:00 Exercises and discussion
18:00 Dinner
II
N.1 9:00-9:45 Enzyme classification and the CAZY database 15 JL
9:45-10:30 Cellulolytic enzymes 16 LO
10:30-10:45 Coffee
10:45-12:00 Lytic Polysaccharide Monooxygenases (LPMOs) and other redox enzymes in polysaccharide degradation – fundamental and applied aspects
17 VE
12:00-13:00 Lunch
13:00-14:15 Mannolytic and xylanolytic enzymes 18 KBK
14:15-14:45 Coffee
14:45-15:45 Lignin acting enzymes 19 KH
15:45-16:30 Bacterial anaerobic degradation of biomass 20 JL
16:30-17.30 The challenges of measuring hemicellulolytic activities lecture and discussion
21 KBK/JL
18:30
N.1
9:00-9:45 Different products of microbial metabolism and thermodynamic driving forces
22 CJF
9:45-10:30 Inhibitors in lignocellulose hydrolysates 23 LO
10:30-10:45 Coffee
10:45-12:00 Strain improvement by mutagenesis, directed evolution and screening
24 YN
12:00-13:00 Lunch
13:00-13:45 Strain improvement by metabolic engineering 25 YN
13:45-14:30 Development of industrial yeast strains 26 YN
14:30-15:00 Coffee
15:00-16:00 Bacterial Cell Factories 27 RvK
16:00-16.45 Enzyme production by filamentous fungi: from secretion to large scale production
28 LO
16:45-18.00 Exercises and discussion
18:00 Pizza at the department and lab visit
III
N.1 9:00-9:45 Cell propagation 29 LO
9:45-10:30 Fermentation basics: important fermentation variables and
mode of operation of bioreactors 30 CJF
10:30-10:45 Coffee
10:45-11:30 Fermentation basics: important fermentation variables and mode of operation of bioreactors - continued
31 CJF
11:30-12:00 Lignocellulose hydrolysate fermentation: microbial robustness
32 LO
12:00-13:00 Lunch
13:00-13:45 Fermentation of lignocellulosic media: mode of operation and strategies
33 CJF
13:45-14:30 Quantitative evaluation of fermentations of lignocellulose hydrolysate
34 RK
14:30-15:00 Coffee
15:00-15:45 Down-stream processing 35 TBA
15:45-16.30 Microbial electrofermentations 36 NX
16:30-17.30 Exercises and discussion
17:30-18.00 Concluding discussions, questions and sum-up
18:00 Dinner
9:00-11:00 Written exam 11:00-11:30 Coffee
SEMINARS: HOT TOPICS IN INDUSTRIAL BIOTECHNOLOGY
11:30-12:00 Perspectives, challenges and trends towards biorefineries and a new bioeconomy Lisbeth Olsson – Chalmers University of Technology
12:00-13:00 Lunch
13:00-13:45 St1 Cellunolix® process - ethanol and other products from forest residues Tom Granström, St1 Renewable Energy
13:45-14:30 Production of fine chemicals through bioconversion of lignin Magnus Carlquist, Lund University
14:30-15:00 Coffee
15:00-15:45 Gas fermentation of CO2, hydrogen, syngas and methane Juha-Pekka Pitkänen, VTT Technical Research Centre of Finland
15:45-16.30
Single molecule evidence on enzymatic cellulose degradation from experiment and modeling Bernd Nidetzky, Graz University of Technology
16:30-17.00 Course evaluation and concluding remarks
IV
Lisbeth Olsson (Course Responsible) lisbeth.olsson@chalmers.se Yvonne Nygård yvonne.nygard@chalmers.se Maurizio Bettiga maurizio.bettiga@chalmers.se
1) N. refers to “Subject Number” in the course literature list 2) TBA: to be announced
Chalmers University of Technology; Gothenburg, Sweden Lisbeth Olsson, Carl Johan Franzén, Eva Albers, Johan Larsbrink, Yvonne Nygård, Christel Cederberg, Joshua Mayers, Merima Hasani, Rakesh Koppram, Nikolaos Xafenias Corbion, Wageningen University and Research, The Netherlands Richard van Kranenburg Graz University of Technology, Austria Bernd Nidetzky Lund University, Sweden Mats Galbe, Magnus Carlquist Novozymes A/S, Bagsvaerd, Denmark Kristian Bertel Rømer Mørkeberg Krogh Norwegian University of Life Sciences, Ås, Norway Vincent Eijsink Royal Institute of Technology, Stockholm, Sweden Francisco Xavier Vilaplana Domingo St1 Renewable Energy, Finland Tom Granström
University of Copenhagen, Denmark Katja Salomon Johansen University of Helsinki, Finland Kristiina Hildén VTT Technical Research Centre of Finland Ltd, Finland Juha-Pekka Pitkänen, Ronny Wahlström