Cursos
- Trainer/in: Patrice Ramm
- Trainer/in: Vera Susanne Rotter
- Trainer/in: Johannes Roland Scholz
- Trainer/in: Sebastian Schürhoff
- Trainer/in: Jessica Ramona Stapel
- Trainer/in: Sijia Tang
- Trainer/in: Alejandra Maria Torres Gomez
- Trainer/in: Mohadese Morsalpoor
- Trainer/in: Vera Susanne Rotter
- Trainer/in: Sebastian Christopher Szczudlo
- Trainer/in: Sijia Tang
- Trainer/in: Alejandra Maria Torres Gomez
This module addresses the chemical principles and process engineering aspects of waste to energy processes. Students learn about the different thermal waste treatment options and appropriate emission reduction techniques. Following these, students will design thermal waste treatment systems based on practice-oriented calculations. Furthermore, energy efficiency techniques in waste to energy processes will be discussed, leading to an overview of the implementation of waste treatment plants in practice. This course has been designed to be 40% knowledge and understanding, 30% development and design, 10% research and evaluation, and 20% implementation and practice
Course enrolment:
- self-enrollment from 01.10.2024 to 31.10.2024.
- introduction to the module will take place on 15.10 at 08:30 in room BH-N 128.
- enrolment into this course will automatically add you to the WtE - Exercise Isis course
- Trainer/in: Mohadese Morsalpoor
- Trainer/in: Vera Susanne Rotter
- Trainer/in: Sebastian Christopher Szczudlo
- Trainer/in: Sijia Tang
- Trainer/in: Alejandra Maria Torres Gomez
Within this integrated course, students will delve into ongoing research
and development within the realm of circular economy and recycling
technologies. The curriculum encompasses scientific practices, including
hypothesis formulation, experimental design, statistical analysis, and
other assessment methodologies. Students will also acquire proficiency
in experimental and analytical techniques tailored to characterize waste
flows, waste-derived products, and recycling processes. Moreover, they
will gain proficiency in tools for data management and presentation,
along with competencies for delivering effective presentations and
scientific writing.
Self-enrolment
in the course is possible from 08.04.2024. The first live event will
take place on 25.04.2024 at 08:00 at the campus of the TU Berlin in room A 060. We would like to use this Kick-Off-Meeting to welcome you to the
course, present the current topics for the semester, and discuss the
first organizational aspects.
- Trainer/in: Johannes Roland Scholz
- Trainer/in: Sijia Tang
This module addresses the sustainable use of materials along the life cycle. Students learn about primary production, the application in e.g. low carbon technologies, recycling options, and challenges of significant materials such as plastics, steel, aluminum, copper, precious and specialty metals as well as Rare Earth Elements but also the nutrient phosphorous.
Tools like Material Flow Analysis (MFA), Criticality Assessment, and Recyclability Assessment in combination with modern methods of data sciences enable you to make informed decisions along the product life cycle from design, waste collection & sorting, to proper recycling and reintegration of secondary raw materials in our economy and thus reduce the environmental footprint of the materials used in our society.
Course enrolment:
- self-enrollment from 11.10.2023 to 31.10.2023.
- introduction to the module will take place on 18.10 at 08:00 in room BH-N 334.
- Trainer/in: Nina Sarah Hesse
- Trainer/in: Han-Jung Hu
- Trainer/in: Vera Susanne Rotter
- Trainer/in: Johannes Roland Scholz
- Trainer/in: Sebastian Christopher Szczudlo
- Trainer/in: Sijia Tang
- Trainer/in: Valentin Wewer