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L.104.31490 Computer-aided Modelling in Fluid Process Engineering (Tutorial)

Course offering details

Instructors: Prof. Dr.-Ing. Eugeny Kenig Event type: Exercise Org-unit: Maschinenbau Displayed in timetable as: RMF (Übung) Hours per week: 1 Language of instruction: German Min. \| Max. participants: - \| - Requirements and recommendations: Bachelor (Vordiplom) Aim of the event: The computer-aided exercises help students to gain practical experience and support knowledge obtained in the lecture course. Contents: Part 1: Model development and simulation with the help of rate-based simulation tools (Aspen Custom Modeler®): simulation tools: learning the basics setting up and numerically solving equation systems using ACM Part 2: Multicomponent mass transfer and linearization theory (example: distillative separation of a non-ideal ternary mixture) Contact person: Prof. Dr.-Ing. habil. Eugeny Kenig Tel.: -602408 eugeny.kenig@upb.de Lukas Bolenz Tel.: -602409 lukas.bolenz@upb.de

Appointments
	Date	From	To	Room	Instructors
1	Wed, 1. Mar. 2017	14:30	16:30	ZZ N 5 206	Prof. Dr.-Ing. Eugeny Kenig
2	Th, 2. Mar. 2017	14:30	16:30	ZZ N 5 206	Prof. Dr.-Ing. Eugeny Kenig
3	Fri, 3. Mar. 2017	08:30	16:30	ZZ N 5 206	Prof. Dr.-Ing. Eugeny Kenig

Connected courses

This course is connected with the following courses:

L.104.31290 Computer-aided Modelling in Fluid Process Engineering

Course

Prof. Dr.-Ing. Eugeny Kenig

Mon, 27. Feb. 2017 [08:30]-Th, 2. Mar. 2017 [14:30]

Show course offering
L.104.31490 Computer-aided Modelling in Fluid Process Engineering (Tutorial)

Course

Prof. Dr.-Ing. Eugeny Kenig

Wed, 1. Mar. 2017 [14:30]-Fri, 3. Mar. 2017 [16:30]

Course offering currently shown

Contained in modules
Module
M.104.6250 Energy- and process engineering (Master) ()
M.104.6250 Energy- and process engineering (Master) ()
M.104.6250 Energy- and process engineering (Master) ()
M.104.6250 Energy- and process engineering (Master) ()
M.104.6250 Energy- and process engineering (Master) ()
M.104.6250 Energy- and process engineering (Master) ()
M.104.6250 Energy- and process engineering (Master) ()
M.104.6250 Energy- and process engineering (Master) ()
M.104.6250 Energy- and process engineering (Master) ()
M.104.6270 Energy- and process engineering ()
M.104.6270 Energy- and process engineering ()
M.104.6270 Energy- and process engineering ()
M.104.6270 Energy- and process engineering ()
M.104.6270 Energy- and process engineering ()
M.104.6270 Energy- and process engineering ()
M.104.6301 Unit Operations ()
M.104.6301 Unit Operations ()
M.104.6301 Unit Operations ()
M.104.6301 Unit Operations ()
M.104.6301 Unit Operations ()
M.104.6301 Unit Operations ()
M.104.6301 Unit Operations ()
M.104.6301 Unit Operations ()
M.104.6302 Process Engineering Plants ()
M.104.6302 Process Engineering Plants ()
M.104.6302 Process Engineering Plants ()
M.104.6302 Process Engineering Plants ()
M.104.6302 Process Engineering Plants ()
M.104.6302 Process Engineering Plants ()
M.104.6302 Process Engineering Plants ()
M.104.6302 Process Engineering Plants ()
M.104.6302 Process Engineering Plants ()
M.104.6380 Chemical Engineering Processes ()
M.104.6380 Chemical Engineering Processes ()
M.104.6380 Chemical Engineering Processes ()
M.104.6380 Chemical Engineering Processes ()
M.104.6380 Chemical Engineering Processes ()
M.104.6380 Chemical Engineering Processes ()
M.104.6380 Chemical Engineering Processes ()
M.104.6380 Chemical Engineering Processes ()
M.104.6395 Computer-based Engineering ()
M.104.6395 Computer-based Engineering ()
M.104.6395 Computer-based Engineering ()
M.104.6395 Computer-based Engineering ()
M.104.6395 Computer-based Engineering ()
M.104.6395 Computer-based Engineering ()
M.104.6415 Process Engineering 1: Modelling and simulation ()
M.104.6415 Process Engineering 1: Modelling and simulation ()
M.104.6415 Process Engineering 1: Modelling and simulation ()
M.104.6415 Process Engineering 1: Modelling and simulation ()
M.104.6415 Process Engineering 1: Modelling and simulation ()
M.104.6415 Process Engineering 1: Modelling and simulation ()
M.104.6415 Process Engineering 1: Modelling and simulation ()
M.104.6601 Unit Operations ()
M.104.6602 Process Engineering Plants ()
M.104.6602 Process Engineering Plants ()
M.104.6680 Chemical Engineering Processes ()
M.104.6680 Chemical Engineering Processes ()

Class session overview

Instructors

Prof. Dr.-Ing. Eugeny Kenig

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