L.104.32455 Process modeling and simulation (Exercises)

Course offering details

Instructors: Dr. Klaus Dieter Hungenberg; Prof. Dr.-Ing. Eugeny Kenig; Prof. Dr. Hans-Joachim Schmid Event type: Exercise Org-unit: Maschinenbau Displayed in timetable as: ProModSim (E) Hours per week: 3 Language of instruction: Englisch Min. \| Max. participants: - \| - Aim of the event: Optimization of equipment, plant and process design in process engineering is often supported by the use of computer based simulation tools. Two widely spread software tools are demonstrated, giving a brief overview of the field of process modeling and simulation. During this course, students gain the ability to analyze and describe several exemplary issues of process engineering utilizing the specified software tools. Students learn to apply software tools to identify weaknesses in a chemical process and to suggest and evaluate possible improvements. Extensive computer based exercises serve to ensure a deep comprehension of the presented content. Target group: see lecture Contents: Further discussion of lecture contents. Contact person: Torben Knoke Tel. 05251 60 2409 e-Mail torben.knoke@upb.de Comment: see lecture Important notes: see lecture

Appointments
	Date	From	To	Room	Instructors
1	Fri, 10. Apr. 2015	08:00	11:00	E 3.131	Dr. Klaus Dieter Hungenberg; Prof. Dr. Eugeny Kenig; Prof. Dr. Hans-Joachim Schmid

Connected courses

This course is connected with the following courses:

L.104.32255 Process modeling and simulation

Lehrveranstaltung

Dr. Klaus Dieter Hungenberg; Prof. Dr.-Ing. Eugeny Kenig; Prof. Dr. Hans-Joachim Schmid

Fri, 10. Apr. 2015 [08:00]-Fri, 17. Jul. 2015 [14:00]

Show course offering
L.104.32455 Process modeling and simulation (Exercises)

Lehrveranstaltung

Dr. Klaus Dieter Hungenberg; Prof. Dr.-Ing. Eugeny Kenig; Prof. Dr. Hans-Joachim Schmid

Fri, 10. Apr. 2015 [08:00]-Fri, 10. Apr. 2015 [11:00]

Course offering currently shown

Contained in modules
Module
M.104.6330 Applied Energy Technology (WS 2014/15)
M.104.6330 Applied Energy Technology (SS 2015)
M.104.6375 Simulation in Process and Plastics Engineering (WS 2014/15)
M.104.6375 Simulation in Process and Plastics Engineering (SS 2015)
M.104.6375 Simulation in Process and Plastics Engineering (SS 2012)
M.104.6375 Simulation in Process and Plastics Engineering (WS 2012/13)
M.104.6375 Simulation in Process and Plastics Engineering (SS 2013)
M.104.6375 Simulation in Process and Plastics Engineering (WS 2013/14)
M.104.6380 Chemical Engineering Processes (WS 2014/15)
M.104.6380 Chemical Engineering Processes (SS 2015)
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.104.6395 Computer-based Engineering (SS 2014)
M.104.6395 Computer-based Engineering (WS 2014/15)
M.104.6395 Computer-based Engineering (SS 2015)
M.104.6405 Nanotechnology 2: Materials and Products (WS 2014/15)
M.104.6405 Nanotechnology 2: Materials and Products (SS 2015)
M.104.6405 Nanotechnology 2: Materials and Products (WS 2013/14)
M.104.6410 Energy Technology (WS 2014/15)
M.104.6410 Energy Technology (SS 2015)
M.104.6415 Process Engineering 1: Modelling and simulation (SS 2015)
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 2013/14)
M.104.6675 Simulation in Process and Plastics Engineering (WS 2014/15)
M.104.6675 Simulation in Process and Plastics Engineering (SS 2015)
M.104.6680 Chemical Engineering Processes (WS 2014/15)
M.104.6680 Chemical Engineering Processes (SS 2015)

Class session overview

1

Instructors

Prof. Dr. Hans-Joachim Schmid

Prof. Dr.-Ing. Eugeny Kenig

Dr. Klaus Dieter Hungenberg

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