L.104.32290 Mechanical Process Engineering I: Fundamentals

Course offering details

Instructors: Prof. Dr. Hans-Joachim Schmid

Event type: Lecture

Org-unit: Maschinenbau

Displayed in timetable as: MVT1

Hours per week: 2

Language of instruction: German

Min. | Max. participants: - | -

Requirements and recommendations:
finished basic study period,

Interests in Physics and Chemistry

Aim of the event:
About 50 % of all industrial products in Germany are manufactured with process engineering methods; such as: storing, dosing, transportation, mixing, crushing, separating and agglomerating. 50 % of those are bulk material and 50 % are liquids and gases. Fields of application are chemical, pharmaceutical, food, extractive and environmental industry.

Target group:
plastic-, process-, economical-, mechanical-engineers and chemists

Contents:
1. Introduction



2. Particle Characterisation

- Size, Form, Arrangement, Distribution

- Sampling, Sample Preparation, Measuring Methods



3. Particle Movement

- Force Balances, l-Re-Diagram

- Ar-W-Diagram, rate of settling



4. Analysis of Dimensions

- Terms, List of relevant Parameters

- Matrix of Solution, characteristic Value



5. Flow through channels and packaging

- Newton- and Non-Newton Flow

- Packed Bed, fluidised Bed, pneumatic Transportation



6. Flow of bulk solids and storing



7. Adhesion Forces and Agglomerate

- Van-der-Waals-, Capillary-, electrostatic Forces

- Construction and compacted Agglomeration



8. Particle Interactions
- Colloid

- DLVO Theory

Contact person:
Dipl.-Ing. Nadine Kirchhoff

Email: nadine.kirchhoff@upb.de

Literature:
Pahl, M.H : Lecture manual

Stieß, M : Mech. Verfahrenstechnik Springer-Verlag, Heidelberg, 1993

Supplementary events:
Mechanical Process Engineering II: Unit Operations

Product Analysis

Multi-Phase-Flow

Numerical Methods of Process Engineering

Appointments
Date From To Room Instructors
1 Th, 20. Oct. 2016 12:30 14:15 E 1 143 Prof. Dr. Hans-Joachim Schmid
2 Th, 27. Oct. 2016 12:30 14:15 E 1 143 Prof. Dr. Hans-Joachim Schmid
3 Th, 3. Nov. 2016 12:30 14:15 E 1 143 Prof. Dr. Hans-Joachim Schmid
4 Th, 10. Nov. 2016 12:30 14:15 E 1 143 Prof. Dr. Hans-Joachim Schmid
5 Th, 17. Nov. 2016 12:30 14:15 E 1 143 Prof. Dr. Hans-Joachim Schmid
6 Th, 24. Nov. 2016 12:30 14:15 E 1 143 Prof. Dr. Hans-Joachim Schmid
7 Th, 1. Dec. 2016 12:30 14:15 E 1 143 Prof. Dr. Hans-Joachim Schmid
8 Th, 8. Dec. 2016 12:30 14:15 E 1 143 Prof. Dr. Hans-Joachim Schmid
9 Th, 15. Dec. 2016 12:30 14:15 E 1 143 Prof. Dr. Hans-Joachim Schmid
10 Th, 22. Dec. 2016 12:30 14:15 E 1 143 Prof. Dr. Hans-Joachim Schmid
11 Th, 12. Jan. 2017 12:30 14:15 E 1 143 Prof. Dr. Hans-Joachim Schmid
12 Th, 19. Jan. 2017 12:30 14:15 E 1 143 Prof. Dr. Hans-Joachim Schmid
13 Th, 26. Jan. 2017 12:30 14:15 E 1 143 Prof. Dr. Hans-Joachim Schmid
14 Th, 2. Feb. 2017 12:30 14:15 E 1 143 Prof. Dr. Hans-Joachim Schmid
15 Th, 9. Feb. 2017 12:30 14:15 E 1 143 Prof. Dr. Hans-Joachim Schmid
Connected courses
This course is connected with the following courses:

  • L.104.32290 Mechanical Process Engineering I: Fundamentals

    Lehrveranstaltung

    Prof. Dr. Hans-Joachim Schmid

    Th, 20. Oct. 2016 [12:30]-Th, 9. Feb. 2017 [14:15]

    Course offering currently shown

  • L.104.32490 Mechanical Process Engineering I: Fundamentals (Exercises)

    Lehrveranstaltung

    Prof. Dr. Hans-Joachim Schmid

    Th, 20. Oct. 2016 [14:30]-Th, 9. Feb. 2017 [15:30]

    Show course offering

  • L.104.32890 Mechanical Process Engineering I: Fundamentals (Tutorial)

    Lehrveranstaltung

    Prof. Dr. Hans-Joachim Schmid

    Th, 10. Nov. 2016 [15:30]-Th, 9. Feb. 2017 [17:00]

    Show course offering
Contained in modules
Module
M.104.2181 Introduction to Process Engineering (SS 2012)
M.104.2181 Introduction to Process Engineering (WS 2012/13)
M.104.2181 Introduction to Process Engineering (WS 2013/14)
M.104.2181 Introduction to Process Engineering (WS 2014/15)
M.104.2181 Introduction to Process Engineering (WS 2015/16)
M.104.2181 Introduction to Process Engineering (SS 2016)
M.104.2181 Introduction to Process Engineering (WS 2016/17)
M.104.2201 Energie- und Verfahrenstechnik (WS 2008/09)
M.104.2201 Energy- and process engineering (WS 2009/10)
M.104.2201 Energy- and process engineering (WS 2010/11)
M.104.2201 Energy- and process engineering (SS 2011)
M.104.2201 Energy- and process engineering (SS 2016)
M.104.2201 Energy- and process engineering (WS 2016/17)
M.104.2201 Energy- and process engineering (WS 2009/10)
M.104.2201 Energy- and process engineering (WS 2011/12)
M.104.2201 Energy- and process engineering (WS 2012/13)
M.104.2202 Energy- and process engineering (SS 2014)
M.104.2202 Energy- and process engineering (WS 2014/15)
M.104.2202 Energy- and process engineering (WS 2015/16)
M.104.2202 Energy- and process engineering (SS 2016)
M.104.2202 Energy- and process engineering (WS 2016/17)
M.104.2202 Energy- and process engineering (WS 2011/12)
M.104.2202 Energy- and process engineering (WS 2011/12)
M.104.2202 Energy- and process engineering (SS 2012)
M.104.2202 Energy- and process engineering (WS 2012/13)
M.104.2202 Energy- and process engineering (WS 2013/14)
M.104.2302 Energy- and process engineering (SS 2014)
M.104.2302 Energy- and process engineering (WS 2014/15)
M.104.2302 Energy- and process engineering (SS 2015)
M.104.2302 Energy- and process engineering (WS 2015/16)
M.104.2302 Energy- and process engineering (SS 2016)
M.104.2302 Energy- and process engineering (WS 2016/17)
M.104.2302 Energy- and process engineering (WS 2011/12)
M.104.2302 Energy- and process engineering (WS 2011/12)
M.104.2302 Energy- and process engineering (SS 2012)
M.104.2302 Energy- and process engineering (WS 2012/13)
M.104.2302 Energy- and process engineering (SS 2013)
M.104.2302 Energy- and process engineering (WS 2013/14)
M.104.2601 Energy- and process engineering (WS 2012/13)
M.104.2601 Energy- and process engineering (SS 2016)
M.104.2601 Energy- and process engineering (WS 2016/17)
M.104.6320 Additive Manufacturing (SS 2014)
M.104.6320 Additive Manufacturing (WS 2014/15)
M.104.6320 Additive Manufacturing (SS 2015)
M.104.6320 Additive Manufacturing (WS 2015/16)
M.104.6320 Additive Manufacturing (SS 2016)
M.104.6320 Additive Manufacturing (WS 2016/17)
M.104.6320 Additive Manufacturing (SS 2013)
M.104.6320 Additive Manufacturing (WS 2013/14)
M.104.6620 Additive Fertigung (WS 2016/17)
Course specific exams
Description Date Instructors Mandatory
1. Klausur Fri, 24. Feb. 2017 09:00-11:00 N.N. Yes
Class session overview
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Instructors
Prof. Dr. Hans-Joachim Schmid