Bioresource technology for fuel and sustainability (Summer School)
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Course Responsible
Name | Department | |
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Birgitte Lilholt Sørensen | bls@kbm.sdu.dk | SDU Life Cycle Engineering, Institut for Kemi-, Bio- og Miljøtek |
Mette Smølz Skau | mskau@tek.sdu.dk | TEK Uddannelse, Det Tekniske Fakultet |
Teachers
Name | Department | City | |
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Jin Mi Triolo | jmt@kbm.sdu.dk | SDU Biotechnology, Institut for Kemi-, Bio- og Miljøteknologi |
Programme Secretary
Name | Department | City | |
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Tina Carøe Sørensen | tcs@tek.sdu.dk | TEK Studieadministration, Det Tekniske Fakultet | Odense |
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Mandatory prerequisites
You must have completed at least two years of studies in chemical engineering, environmental engineering or environmental science.
Students from chemical and biotechnological engineering who have passed Sustainable Bioresources and Bioenergy Technology (XC-SUBT) cannot be admitted to this course.
Learning objectives - Knowledge
- A fundamental understanding of bioenergy production from waste biomass
- Ability to explain technological potentials and obstacles of 2nd generation biofuel production
- Ability to describe biomass energy potential and biodegradability
- Understanding of sequential bioenergy production with zero carbon approach
- Ability to describe biochemical processes of biomass conversion to bioenergy production
- Understanding of technical operation conditions of bioreactors
- Understanding of technological potentials and obstacles of 2nd generation biofuel production
- Understanding of the fundamentals of various pretreatment technologies.
Learning objectives - Skills
- Have a comprehensive and balanced approach to bioenergy production from different biomasses
- Ability to conduct methane potential tests of waste biomass
- Ability to implement new biomasses to bio-energy production
Learning objectives - Competences
By the end of the course the student should be able to:
- Design an entire biogas plant process
- Optimize operation
- Predict overall energy potential both at a national and a plant level
- Propose a holistic strategies of biomass utilization for energy production scenarios
- Optimise production process to avoid inhibition
- Predict real energy yields depended on operational condition
- Set strategies for high rate biogas production and strategies to avoid inhibition in bioreactors
- Choose best available feedstock mixture (Co-digestion) and propose optimal and economically viable technical operational condition
- Plan and establish the entire process of a real- scale biogas plant
- Propose suitable biofuel technologies and biofuel products from selected biomasses
- Propose holistic strategies of biomass utilization for energy production.
Content
The aim of this course is to enable the student to have fundamental understanding of bioenergy production processes adequate to diverse biomass characteristics and to introduce state-of-the-art technologies of 2nd generation biofuels from sustainable bioresources. This course will provide a comprehensive and balanced approach to bioenergy production fundamental theories and industrial application.
During the course, the student will learn about biomasses conversion fundamentals for bioenergy production; important physio- and biochemical characteristics of biomasses affecting production process and energy yields; and process biochemistry and operation conditions. Moreover, the student will learn to employ this knowledge to design an entire biogas plant process and optimize operation.
Finally, the student will learn to conduct methane potential analysis of waste biomasses and will attain knowledge about energy potentials of a broad spectrum of biomasses.
URL for Skemaplan
Teaching Method
Lectures, laboratory exercises and a casework project. Excursions to industries are included in the course.
Time of classes
Two weeks in August
Please note that this course will be offered as a blended course in 2020; i.e. the course is offered both online and on campus. If physical presence is not possible, the course will still run online.
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- Group report and presentation
- Individual oral examination
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Additional information
Please note that due to the uncertainty surrounding the Covid-19 pandemic this course will be offered as a blended course in 2020; i.e. the course is offered both online and on campus. If physical presence is not possible, the course will still run online.
Summer course in August. Please note that registration for this course is binding.
Enrolment is limited to 15 students. If more applicants than places, applicants who meet the mandatory requirements are prioritised according to the below selection criteria:
- Students from SDU-TEK and SDU-NAT provided the course is approved as an elective on their study programmes
- Other students from SDU-TEK provided the course is approved as an elective on their study programmes
- Other students from SDU-NAT provided the course is approved as an elective on their study programmes
- Other students from SDU-TEK with preapproval of credit transfer
- Other students from SDU with preapproval of credit transfer
Note: If further selection criteria are needed this will be based on a first-come-first-served basis.