English

BB530: A Sustainable Future (5 ECTS)

STADS: 04014401

Level
Bachelor course

Teaching period
The course is offered in the spring semester.

Teacher responsible
No responsible teachers found, contact the department if necessary

Timetable

Group	Type	Day	Time	Classroom	Weeks	Comment
Common	I	Monday	15-17	U47	11
Common	I	Monday	08-10	U47	14
Common	I	Monday	08-10	U20	16
Common	I	Tuesday	08-10	U47	13
Common	I	Wednesday	08-10	U47	11-12,16
Common	I	Wednesday	09-16	U55	20	Innovation
Common	I	Wednesday	09-16	U55	26	Innovation
Common	I	Thursday	14-16	U155	18
Common	I	Thursday	09-16	U55	26	Innovation
Common	I	Friday	10-12	U20	11
Common	I	Friday	12-14	U47	13
Common	I	Friday	09-16	U55	21	Innovation
Common	I	Friday	09-16	U55	26	Innovation
H1	TL	Monday	10-16	Ekskursion	14	Ekskursion
H1	TL	Tuesday	12-16	Ekskursion	13	Ekskursion
H1	TE	Tuesday	14-16	U24	20
H1	TE	Wednesday	08-10	U24	15
H1	TE	Wednesday	08-10	U24	17
H1	TE	Thursday	10-12	U155	15
H1	TE	Thursday	12-16	U155	22
H1	TE	Friday	12-14	U24	12,15
H1	TL	Friday	13-15	Ekskursion	16	Ekskursion
H1	TL	Friday	08-13	Ekskursion	17	Ekskursion

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Prerequisites:
None

Academic preconditions:
The content from the first year of the Biology study is expected to be known

Course introduction
The content of this course comprises innovation, networking, and project work in cooperation with the industry, furthermore field trips (excursions) and a Science Innovation Camp to find solutions for the most challenging socio-environmental topics.

There is an urgent need of innovative ideas for both, the society and the environment. Especially to solve the grand challenges for society, like e.g. environmental issues and sustainability, applied research and innovation is needed. In this course the students will tackle environmental challenges concerning biological issues through innovative processes.

The course consists of an introduction to selected challenges such as handling and treatment of increased precipitation due to changes in climate, assessment of toxicity, recovery of plant nutrients, microbial enhanced oil recovery and other topics where innovative solutions are needed to ensure a sustainable future. The introduction phase is combined with excursions to companies and institutions working with these topics. The course ends with 5 days innovation workshop. First 2 single days with introduction to innovation and entrepreneurship, idea generating and project work. This is followed by a 2 days Science Innovation workshop, where the students are working in groups with an innovation project of the student’s choice combined with teaching in e.g. business training. Finally, all ideas and concepts are presented at a one day innovation seminar, where the ideas are reviewed by an evaluation panel that includes external partners and fellow students.

Qualifications

Hands-on understanding of connections between innovation and environment/biology
Ability for an innovative and applied use of the theoretical subjects in the study
Competences useful for participating in innovation and entrepreneurship competitions as e.g. Venture Cup and iGEM
Cooperation and networking with public and private partners
Entrepreneurial experiences through a specific innovation project

Entrepreneurial experiences through a specific innovation project

Expected learning outcome

Understanding of environmental/technological challenges within the course topics
Theoretical knowledge of the introduced subjects
Possibilities for applying theoretical knowledge
Knowledge about innovation, entrepreneurship, market and business skills
Ability to cooperate with the industry on actual topics and tasks
Presentation and evaluation
Capability to think innovative and create ideas, see possibilities and convert ideas to new concepts

Subject overview
The topics of the course can include, but are not limited to:

Methods to handle and treat urban runoff related to climate changes
Technologies to reduce eutrophication in aquatic environments
Toxicity assessment (in case of environmental hazards, for new chemicals, or as routine)
Monitoring and remediation of environmental pollution
Biosensors
Microbial enhanced oil recovery
Isolation of enzymes with potential for biotechnological applications from nature
Geo-engineering
Microbial monitoring
Biotechnological exploitation of hyperthermophilic microorganisms
Communication

Literature
There isn't any litterature for the course at the moment.

Website
This course uses e-learn (blackboard).

Prerequisites for participating in the exam
None

Assessment and marking:
The course is evaluated based on an overall assessment of:

Active participation in excursions
Active participation in the 5 days innovation workshop including presentation of pitch about the project.
Written report

Evaluated by internal examiner on a pass/fail basis. Reexamination in the same exam period or immediately thereafter.

Expected working hours
The teaching method is based on three phase model.
Intro phase: 15 hours
Skills training phase: 35 hours, hereof:
- Tutorials: 20 hours
- Excursion: 15 hours
- Other: 40 hours

Educational activities
The course will start with an introduction to the course topics followed by a number of excursions to collaborators in the industry. This part is followed by a total of 5 days of innovation course, where the students are working in groups with one of the introduced topics. There will be professional discussion and supervision, both for the innovation part and the scientific part of the topic. The study phase will naturally be connected to the introduction and training phase.

Language
This course is taught in Danish or English, depending on the lecturer.

Remarks
Excursions and the 5 days innovation workshop are mandatory.

Course enrollment
See deadline of enrolment.

Tuition fees for single courses
See fees for single courses.