Overview
- This intensive Downstream Processing course at Delft University of Technology (TU Delft) consists of theoretical and applied lectures, exercises, case studies and computer simulations. The course will be given in English. A pocket calculator is required.
- The course presents the state of the art in downstream processing of biotechnological products. It provides knowledge of different techniques for solid-liquid separation, product release, refolding, concentration and purification of precious biotechnology products with a focus on the total integrated process.
- An international group of experts from both industry and academia will lecture to assure an optimal balance of practical knowledge and theoretical insight, which subsequently will be trained by exercises, into the quantitative engineering aspects of bioseparations.
- At the end of the course, the participants should be able to estimate main equipment dimensions, know qualitative constraints to the integrated bioprocess and have a quantitative insight in process streams, structure and economics.
Learning outcomes
- The course starts with an overview of possibilities and problems typically associated with the recovery of bioproducts. Physico-chemical characteristics of the products, as well as the fermentation broth with its multiple contaminants, are discussed in relation to possibilities for selective separation. Using this information, the general structure of large scale industrial processes will be outlined.
- The thermodynamical basics and biochemical engineering principles will be introduced and developed during the course related to bio-separations. Special attention will be paid to the unit operations typically used in this field of industry.
- Firstly, various solid-liquid separation techniques and cell disruption will be treated. Particular consideration will be given to the application of major concentration techniques such as extraction, adsorption and membrane separation.
- Furthermore, the scientific and industrial aspects of purification by means of precipitation and chromatography will be discussed. In addition, the release of intracellular products as well as protein folding in industrial protein processes will be discussed.
- Process integration is the binding element in the course. During the course, a case study on the design of an integrated purification process for a recombinant protein will offer the participants the opportunity to practice on the individual unit operations as well as on the integrated process. Finally, possibilities of computer-aided, rational design of integrated separation processes will be demonstrated.
- This Advanced Course is aimed at professionals (MSc or PhD level is required) in (bio)chemical engineering, or in microbiology or biochemistry with a basic knowledge in chemical engineering.
- The course is primarily aimed at those already employed in industry and who are interested in the separation of biotechnological products. In addition, this Advanced Course is an option in the two-year postgraduate programs of Delft University of Technology.
Programme Structure
Courses Included:- Todays bioseparation processes
- Mechanical separations: solid-liquid separation
- separation processes
- Pitfalls and challenges in bioseparation processes
- Mass balances: from batch to continuous counter current processes
- Case study: industrial protein production (I)
- Splitting up into teams working on the case
- Mass balances
- Solid-liquid separation: filtration and centrifugation
Audience
Scientists (MSc or PhD level required) from academia and industry.
Lecturers
Course board:
Prof. Luuk van der Wielen and Dr. Marcel OttensBioprocess Engineering, Department of Biotechnology, Delft University of Technology, the Netherlands
Please check the website for an up-to-date list of all lecturers
Key information
Duration
- Full-time
- 5 days
Start dates & application deadlines
- Starting
- Apply before
-
Language
Delivered
Disciplines
Chemical Engineering Biology Biochemistry View 6 other Short Courses in Biochemistry in NetherlandsAcademic requirements
We are not aware of any specific GRE, GMAT or GPA grading score requirements for this programme.
English requirements
We are not aware of any English requirements for this programme.
Student insurance
Make sure to cover your health, travel, and stay while studying abroad. Even global coverages can miss important items, so make sure your student insurance ticks all the following:
- Additional medical costs (i.e. dental)
- Repatriation, if something happens to you or your family
- Liability
- Home contents and baggage
- Accidents
- Legal aid
We partnered with Aon to provide you with the best affordable student insurance, for a carefree experience away from home.
Get your student insurance nowStarting from €0.53/day, free cancellation any time.
Remember, countries and universities may have specific insurance requirements. To learn more about how student insurance work at Delft University of Technology (TU Delft) and/or in Netherlands, please visit Student Insurance Portal.
Other requirements
General requirements
- This Advanced Course is aimed at professionals (MSc or PhD level is required) in (bio)chemical engineering, or in microbiology or biochemistry with a basic knowledge in chemical engineering.
- The course is primarily aimed at those already employed in industry and who are interested in the separation of biotechnological products. In addition, this Advanced Course is an option in the two-year postgraduate programs of Delft University of Technology.
Tuition Fee
-
International
3000 EUR/fullTuition FeeBased on the tuition of 3000 EUR for the full programme during 5 days. -
EU/EEA
3000 EUR/fullTuition FeeBased on the tuition of 3000 EUR for the full programme during 5 days.
Early bird*
€ 2.750,-
Small and medium-sized enterprises€ 1.925,-
Small and medium-sized enterprises of Biotech Campus Delft**€ 1.375,-
PhD Students**€ 1.375,-
Living costs for Delft
The living costs include the total expenses per month, covering accommodation, public transportation, utilities (electricity, internet), books and groceries.