L.104.32231 Particle synthesis

Course offering details

Instructors: Prof. Dr. Hans-Joachim Schmid

Event type: Lecture

Org-unit: Maschinenbau

Displayed in timetable as: PartSyn

Hours per week: 2

Language of instruction: Englisch

Min. | Max. participants: - | -

Requirements and recommendations:
- Fluidmechanik

Aim of the event:
Nanoparticles gain more attention than ever before due to their unique properties. In general, the size of a nanoparticle spans the range between 1 and 100 nm. There are two preparation techniques for nanoparticles. The first is the breakdown (top-down) method by which an external force is applied to a solid that leads to its break-up into smaller particles. The second is the build-up (bottom-up) method that produces nanoparticles starting from atoms of gas or liquids based on atomic transformations or molecular condensations.

This lecture gives a deeper look into the second way, the bottom up techniques. Starting with the fundamental physics of the particle synthesis, some liquid & gas phase processes are discussed later on.

Target group:
mechanical & chemical engineers

Contents:
1. introduction
2. physical fundamentals
3. population balances
4. gas phase processes
5. fluid phase processes

Contact person:
Prof. Dr. Hans-Joachim Schmid

Literature:
Hinds, William C.: Aerosol Technology: Properties, Behavior, and Measurement of Airborne Particles, 2nd Edition. Weinheim :Wiley-VCH Verlag GmbH& Co,

Friedlander, Sheldon K.: Smoke, Dust, and Haze: Fundamentals of Aerosol Dynamics. Oxford University Press, 2000

Fuchs, Nikolai A.: The Mechanics of Aerosols. Dover Publications Inc, 1989

Kodas, Toivo T.; Hampden-Smith, Mark J.: Aerosol Processing of Materials. Weinheim : Wiley-VCH Verlag GmbH& Co, 1999

Kirchhof, Martin: Sinterkinetik nanoskaliger Partikel. München : Dr. Hut Verlag, 2009. – Erlangen, Nürnberg, Univ., Diss., 2008

Matijevi´c, Egon: Preparation and characterization of well defined powders and their applications in technology. In: Journal of the European Ceramic Society 18 (1998), Nr. 9, S. 1357 – 1364
 

Supplementary events:
- Produktanalyse
- Nanotechnologie
- Mehrphasenströmung
 

Important notes:
lecturing materials are provided via koala

Appointments
Date From To Room Instructors
1 Fri, 21. Oct. 2016 13:45 17:45 E 1 143 Prof. Dr. Hans-Joachim Schmid
2 Fri, 28. Oct. 2016 13:45 17:45 E 1 143 Prof. Dr. Hans-Joachim Schmid
3 Fri, 4. Nov. 2016 13:45 17:45 E 1 143 Prof. Dr. Hans-Joachim Schmid
4 Fri, 11. Nov. 2016 13:45 17:45 E 1 143 Prof. Dr. Hans-Joachim Schmid
5 Fri, 18. Nov. 2016 13:45 17:45 E 1 143 Prof. Dr. Hans-Joachim Schmid
6 Fri, 25. Nov. 2016 13:45 17:45 E 1 143 Prof. Dr. Hans-Joachim Schmid
7 Fri, 2. Dec. 2016 13:45 17:45 E 1 143 Prof. Dr. Hans-Joachim Schmid
Connected courses
This course is connected with the following courses:

  • L.104.32231 Particle synthesis

    Lehrveranstaltung

    Prof. Dr. Hans-Joachim Schmid

    Fri, 21. Oct. 2016 [13:45]-Fri, 2. Dec. 2016 [17:45]

    Course offering currently shown

  • L.104.32431 Particle synthesis (Exercises)

    Lehrveranstaltung

    Prof. Dr. Hans-Joachim Schmid

    Tue, 22. Nov. 2016 [14:00]-Tue, 20. Dec. 2016 [20:30]

    Show course offering
Contained in modules
Module
M.104.6302 Process Engineering Plants (WS 2014/15)
M.104.6302 Process Engineering Plants (SS 2015)
M.104.6302 Process Engineering Plants (WS 2015/16)
M.104.6302 Process Engineering Plants (SS 2016)
M.104.6302 Process Engineering Plants (WS 2016/17)
M.104.6302 Process Engineering Plants (WS 2011/12)
M.104.6302 Process Engineering Plants (SS 2012)
M.104.6302 Process Engineering Plants (WS 2012/13)
M.104.6302 Process Engineering Plants (WS 2013/14)
M.104.6380 Chemical Engineering Processes (SS 2015)
M.104.6380 Chemical Engineering Processes (WS 2015/16)
M.104.6380 Chemical Engineering Processes (SS 2016)
M.104.6380 Chemical Engineering Processes (WS 2016/17)
M.104.6380 Chemical Engineering Processes (WS 2011/12)
M.104.6380 Chemical Engineering Processes (SS 2012)
M.104.6380 Chemical Engineering Processes (WS 2012/13)
M.104.6380 Chemical Engineering Processes (WS 2013/14)
M.104.6400 Nanotechnology 1: Particles (WS 2014/15)
M.104.6400 Nanotechnology 1: Particles (WS 2015/16)
M.104.6400 Nanotechnology 1: Particles (SS 2016)
M.104.6400 Nanotechnology 1: Particles (WS 2016/17)
M.104.6405 Nanotechnology 2: Materials and Products (WS 2014/15)
M.104.6405 Nanotechnology 2: Materials and Products (WS 2015/16)
M.104.6405 Nanotechnology 2: Materials and Products (SS 2016)
M.104.6405 Nanotechnology 2: Materials and Products (WS 2016/17)
M.104.6405 Nanotechnology 2: Materials and Products (WS 2013/14)
M.104.6420 Process Engineering 2: Unit operations (WS 2015/16)
M.104.6420 Process Engineering 2: Unit operations (SS 2016)
M.104.6420 Process Engineering 2: Unit operations (WS 2016/17)
M.104.6425 Process Engineering 3: Processes (SS 2014)
M.104.6425 Process Engineering 3: Processes (WS 2014/15)
M.104.6425 Process Engineering 3: Processes (SS 2015)
M.104.6425 Process Engineering 3: Processes (WS 2015/16)
M.104.6425 Process Engineering 3: Processes (SS 2016)
M.104.6425 Process Engineering 3: Processes (WS 2016/17)
M.104.6425 Process Engineering 3: Processes (WS 2013/14)
M.104.6602 Process Engineering Plants (SS 2016)
M.104.6602 Process Engineering Plants (WS 2016/17)
M.104.6680 Chemical Engineering Processes (SS 2016)
M.104.6680 Chemical Engineering Processes (WS 2016/17)
Course specific exams
Description Date Instructors Mandatory
1. Mündliche Prüfung Time tbd Yes
Class session overview
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Instructors
Prof. Dr. Hans-Joachim Schmid