Chemical Biotechnology Bachelor of Science

Chemistry – Molecular Biology – Process Engineering

One of the key technologies for making industrial processes more ecological and cost-effective and developing renewable raw materials for industrial use is industrial biotechnology, more appropriately referred to as chemical biotechnology. It uses biochemical, chemical, microbiological and process engineering methods to produce organic basic and fine chemicals using optimized enzymes, cells or microorganisms. By replacing conventional industrial processes with biotechnological processes and using biological raw materials instead of fossil raw materials, both energy requirements and the use of raw materials can be minimised or put on a bio-based basis. Process development in biotechnology requires the interaction of biology, chemistry and process engineering.

This complex topic calls for new scientists and technologists who are able to work on an interdisciplinary basis and master the challenges of process engineering as well as economic and ecological aspects thanks to their expertise in the field of scientific fundamentals. The aim of the course is to gain comprehensive knowledge in the field of biotechnological chemical-material conversion processes by combining chemistry, engineering and biosciences (areas of focus: Enzyme Engineering / Metabolic Engineering). By being able to choose modules from the field of economics, among other things, the specialist knowledge can be placed in a larger, economic context.

Interdisciplinary emphasis

Business Management (1/5)
Economics (1/5)
Engineering (2/5)
Material Science (1/5)
Biotechnology (5/5)
Chemistry (4/5)

Consultation

Eva Rath

Dr. Eva Rath

Verena Schüller

Dr. Verena Schüller

Eva Rath

Dr. Eva Rath

Consultation in Presence

Hours:
Wednesdays, 08:00–09:00 h
Location:
PG5, 3503.EG.006

Online Consultation via Zoom

Hours:
Tuesdays, 10:00–11:00 h
Zoom ID:
68710772408
Password:
tumcsstuko

Standard period of study
6 semesters / 180 ECTS credits, full-time studies
Graduation
Bachelor of Science (B.Sc.)
Start of Degree Program
Winter semester
Required Language Proficiency
German German
Admission Requirement

The Bachelor’s programme in Chemical Biotechnology requires a general higher education entrance qualification or a subject-specific higher education entrance qualification in the fields of technology or agriculture, biotechnology and environmental technology.

Admission Category
German

Semester fees/financing

Semester fees (non-EU students)
2,000.00 Euro
Student union fees per semester (mandatory for all students)
72.00 Euro
Many international students can have their fees waived or receive scholarships to finance them.
You can find all information on waivers and scholarships here.

In the first two semesters mathematical, scientific and economic basics are taught. Starting in the third semester, students will deepen their knowledge in engineering and natural science subjects (technical basics, chemical-chemical use, biological basics) as well as in economic topics (economics and economic policy, circular economy, management). In the fifth semester, a focus can be set on the basis of optional modules. The interdisciplinary elective module in the sixth semester combines two departments in order to work on concrete problems in a structured and interdisciplinary way. The course concludes with a Bachelor’s thesis.

In concrete terms, graduates of the Bachelor’s programme in Chemical Biotechnology acquire the following skills:

  • they master mathematical and scientific methods in order to abstract and analyse problems in their basic structure
  • they have comprehensive engineering and scientific basic knowledge and know methods for analysis, modelling, simulation and design and are able to apply them
  • are able to carry out experiments independently and interpret the results
  • they have acquired a holistic problem-solving competence in order to be able to successfully deal with synthesis problems under balanced consideration of technical, economic, ecological, social and ethical boundary conditions
  • they have become acquainted with selected fields of technology and have built a bridge between engineering and natural science basics as well as occupational field-related applications
  • they have acquired non-technical qualifications by way of example and are thus sensitised to the non-technical requirements of a vocational activity
  • they are able to plan projects independently due to their interdisciplinary knowledge in the field of chemical biotechnology and are able to take up a correspondingly oriented professional activity in industry and research

For the rapidly growing tasks in bioeconomics, university graduates with interdisciplinary understanding are needed. Bioeconomics graduates can support and shape a sustainable bio-based economy. In addition The complex conversion of the raw material base from fossil resources to renewable raw materials in energy production and the chemical industry is a major challenge. Bio-economists are in demand in areas that deal with the production, use and economy of biogenic resources as well as with the establishment of sustainable processes.