Sotiris E. Pratsinis: Catalogue data in Spring Semester 2019 |
Name | Prof. Dr. Sotiris E. Pratsinis |
Field | Verfahrenstechnik |
Address | Dep. Maschinenbau und Verf.technik ETH Zürich, ML F 13.1 Sonneggstrasse 3 8092 Zürich SWITZERLAND |
Telephone | +41 44 632 31 80 |
sotiris.pratsinis@ptl.mavt.ethz.ch | |
Department | Mechanical and Process Engineering |
Relationship | Full Professor |
Number | Title | ECTS | Hours | Lecturers | |
---|---|---|---|---|---|
151-0902-00L | Micro- and Nanoparticle Technology | 6 credits | 2V + 2U | S. E. Pratsinis, M. Eggersdorfer, A. Güntner, M. R. Kholghy, K. Wegner | |
Abstract | Introduction to fundamentals of micro- and nanoparticle synthesis and processing. Characterization of suspensions, sampling and measuring techniques; basics of gas-solid and liquid-solid systems; fragmentation, coagulation, growth, separation, fluidization, filtration, mixing, transport, coatings. Particle processing in manufacture of catalysts, sensors, nanocomposites and chemical commodities. | ||||
Learning objective | Introduction to design methods of mechanical processes, scale-up laws and optimal use of materials and energy | ||||
Content | Characterisation of particle suspensions and corresponding measuring techniques; basic laws of gas / solids resp. Liquid / solids systems; unit operations of mechanical processing: desintegration, agglomeration, screening, air classifying, sedimentation, filtration, particle separation from gas streams, mixing, pneumatic conveying. Synthesis of unit operations to process systems in chemical industry, cement industry etc. | ||||
Lecture notes | Mechanical Process Engineering I | ||||
151-0910-00L | Practica in Particle Technology | 1 credit | 1P | S. E. Pratsinis | |
Abstract | Practical training stressing the fundamentals in processing and highlighting experiments focusing on particle engineering science and applications. Students attend and give written reports on these experiments and answer questions on them. Familiarize the students with particle equipment and processes. | ||||
Learning objective | The goal of the class is to provide hands-on experiences in particle science and engineering. Emphasis is placed on laboratory safety, systematic experimentation, deep understanding of the underlying concepts, validation and comparison with existing data from the literature. | ||||
Content | The class is made by 3-4 experiments (filtration, sieving, droplet evaporation in fluid flow, CFD design or flame reactor) that are selected depending on equipment availability. Students have to prepare and execute such experiments and complete a detailed written report on which they would be examined on safe running of laboratories and for critical evaluation of their data along with the corresponding literature as it becomes available. | ||||
Prerequisites / Notice | Prerequisite Courses: Micro- and Nanoparticle Technology (151-0902-00), Mass Transfer (151-0917-00) and Introduction to Nanoscale Engineering (151-0619-00) or permission by the instructor. | ||||
151-0931-00L | Seminar on Particle Technology | 0 credits | 3S | S. E. Pratsinis | |
Abstract | The latest advances in particle technology are highlighted focusing on aerosol fundamentals in connection to materials processing and nanoscale engineering. Students attend and give research presentations for the research they plan to do and at the end of the semester they defend their results and answer questions from research scientists. Familiarize the students with the latest in this field. | ||||
Learning objective | The goal of the seminar is to introduce and discuss newest developments in particle science and engineering. Emphasis is placed on the oral presentation of research results, validation and comparison with existing data from the literature. Students learn how to organize and deliver effectively a scientific presentation and how to articulate and debate scientific results. | ||||
Content | The seminar addresses synthesis, characterization, handling and modeling of particulate systems (aerosols, suspensions etc.) for applications in ceramics, catalysis, reinforcements, pigments, composites etc. on the examples of newest research developments. It comprises particle - particle interactions, particle - fluid interactions and the response of the particulate system to the specific application. | ||||
Prerequisites / Notice | Voraussetzungen: Particle Technology (30-902) or Particulate Processes (151-0903-00) | ||||
151-0958-00L | Practica in Process Engineering II Does not take place this semester. | 2 credits | 2P | S. E. Pratsinis, M. Mazzotti | |
Abstract | Practical training at pilot facilities for fundamental processing steps, typical laboratory and pilot facility experiments. | ||||
Learning objective | Practical training at pilot facilities for fundamental processing steps, typical laboratory and pilot facility experiments. |