Module Handbook

  • Dynamischer Default-Fachbereich geändert auf MV

Notes on the module handbook of the department Mechanical and Process Engineering

Die hier dargestellten veröffentlichten Studiengang-, Modul- und Kursdaten des Fachbereichs Maschinenbau und Verfahrenstechnik ersetzen die Modulbeschreibungen im KIS und wuden mit Ausnahme folgender Studiengänge am 28.10.2020, bzw. am 13.01.2021 verabschiedet.

Ausnahmen:

Module MV-MVT-B110-M-4

Design of Pressure Vessels and Operation of Chemical Apparatus (M, 6.0 LP)

Module Identification

Module Number Module Name CP (Effort)
MV-MVT-B110-M-4 Design of Pressure Vessels and Operation of Chemical Apparatus 6.0 CP (180 h)
MV-KIMA-B110-M-4 Design of Pressure Vessels and Operation of Chemical Apparatus 6.0 CP (180 h)
Hint concerning Module Number MV-KIMA-B110-M-4:
Nummer wird in POs verwendet

Basedata

CP, Effort 6.0 CP = 180 h
Position of the semester 2 Sem. from WiSe
Level [4] Bachelor (Specialization)
Language [DE] German
Module Manager
Lecturers
Area of study [MV-MVT] Particle Process Engineering
Reference course of study [MV-82.B10-SG] B.Sc. Energy and Process Engineering
Livecycle-State [NORM] Active

Courses

Type/SWS Course Number Title Choice in
Module-Part
Presence-Time /
Self-Study
SL SL is
required for exa.
PL CP Sem.
2V+1U MV-MVT-86256-K-4
Design of Pressure Vessels
P 42 h 48 h - - PL1 3.0 WiSe
2V+1U MV-MVT-86453-K-4
Design and Operation of Chemical Apparatus
P 42 h 48 h - - PL2 3.0 SuSe
  • About [MV-MVT-86256-K-4]: Title: "Design of Pressure Vessels"; Presence-Time: 42 h; Self-Study: 48 h
  • About [MV-MVT-86453-K-4]: Title: "Design and Operation of Chemical Apparatus"; Presence-Time: 42 h; Self-Study: 48 h

Examination achievement PL1

  • Form of examination: written or oral examination
  • Examination Frequency: each semester
  • Examination number: 10256 ("Design of Pressure Vessels")
    Written (60-90 minutes) or oral (30-45 minutes) examination

Examination achievement PL2

  • Form of examination: written exam (Klausur) (90 Min.)
  • Examination Frequency: each semester
  • Examination number: 10453 ("Design and Operation of Chemical Apparatus")

Evaluation of grades

All partial module examinations have to be passed. The module grade is the arithmetic mean of all partial examination grades.


Contents

  • Legal basis for apparatus engineering (EU directives on product safety, CE marking, pressure equipment directive 2014/68 / EU, European standards)
  • Apparatus construction (safety requirements, hazard analysis, construction elements of apparatus construction, design guidelines)
  • Basics for the strength calculation of apparatus elements (shells, bottoms, nozzles, flanges) with static and dynamic stress
  • Design of equipment according to DIN EN 13445 and AD 2000
  • Apparatus materials (ferrous materials, non-ferrous materials, non-metals)
  • Apparatus production processes
  • Apparatus audit
Typical requirements and tasks that chemical apparatuses have to meet are presented and associated solutions are shown. The following topics are covered:
  • Legal basis of plant construction (Pressure Equipment Directive 2014/68/EU, Explosion Protection Directive 2014/34/EU, Machinery Directive 2006/42/EC, EU regulations on hygienic design, European standards)
  • Functions and types of industrial apparatus in the various areas of process engineering (mechanical, thermal, chemical and bioprocess engineering)
  • Apparatus materials (ferrous materials, non-ferrous materials, non-metals)
  • Process flow diagrams
  • Pipeline elements, apparatus elements and fittings
  • Basics for the strength calculation of apparatus and pipeline elements under static and dynamic stresses as well as thermal stresses
  • Design of apparatuses and pipelines according to DIN EN 13445, DIN EN 13480 and AD 2000
  • Support and expansion compensation of pipelines
  • Total stress on pipelines (elasticity analysis according to DIN EN 13480)
  • Flow-optimized design of pipelines (pressure loss)
  • Basics for cleaning, disinfection and sterilization of apparatus in pharmaceutical and food processing plants
  • Construction principles for the hygienic design of apparatus in pharmaceutical and food processing plants

Competencies / intended learning achievements

1. Lecture:

Students are able to

  • reflect the legal requirements for the product development of apparatus
  • reflect the safety requirements of apparatus in accordance with the pressure equipment directive 2014/68/EU
  • explain the construction elements of apparatus and plant engineering
  • explain the basics of the strength calculation or the design of the most important construction elements
  • reflect the design guidelines for apparatus
  • reproduce materials, manufacturing and audit methods for apparatus

2. Exercise:

Students are able to

  • independently calculate the basic components of apparatus and systems, such as shells, bottoms, nozzles, flanges, etc. under static and dynamic stress
  • analyze pressure vessels with regard to their hazard potential in accordance with the pressure equipment directive 2014/68/EU
1. Lecture

The students are able to

  • classify the applicable legal principles in the construction of process plants
  • name the elements of apparatus and pipeline technology
  • explain the basics of dimensioning of apparatus and pipelines
  • explain the basics of the calculation of spans of pipe laying and the design of expansion compensation systems
  • select the appropriate material(s)
  • construct apparatus for the requirements of the pharmaceutical industry, food and biotechnology and fine chemistry according to the rules of hygienic design
  • plan cleaning, disinfection and sterilization steps
  • analyze the combination of requirements and propose solutions

2. Exercise

Students are able to

  • design elements of apparatus and pipelines according to DIN EN 13445, DIN EN 13480 and AD 2000 for static and thermal stress
  • calculate the span when laying pipes
  • determine the length and arrangement of bending legs to compensate for expansion in pipelines
  • determine the pressure loss in a pipeline
  • estimate the operating conditions for the disinfection and sterilization of process plants (medium, temperature, working time, etc.)

Literature

  • DIN EN 13445, DIN EN 13480, Beuth Verlag
  • AD 2000 Regelwerk, Beuth Verlag
  • Gleich, Weyl: Apparateelemente, Springer Verlag
  • DIN EN 13445, DIN EN 13480, Beuth Verlag
  • AD 2000 Regelwerk, Beuth Verlag
  • Wagner, Walter: Festigkeitsberechnungen im Apparate- und Rohrleitungsbau, Vogel Verlag, 2012
  • Herz, Rolf: Grundlagen der Rohrleitungs- und Apparatetechnik, Vulkan Verlag, 2014

Requirements for attendance of the module (informal)

Recommended:

Modules:

Requirements for attendance of the module (formal)

None

References to Module / Module Number [MV-KIMA-B110-M-4]

Course of Study Section Choice/Obligation
[MV-82.B10-SG] B.Sc. Energy and Process Engineering [Fundamentals] Ingenieurwissenschaftliche Grundlagen I [P] Compulsory
[WIW-82.175-SG] B.Sc. Business Administration and Engineering specialising in Environmental and Process Engineering [Fundamentals] Field of study: Environmental and Process Engineering [P] Compulsory

References to Module / Module Number [MV-MVT-B110-M-4]

Course of Study Section Choice/Obligation
[WIW-82.?-SG#2021] B.Sc. Business Administration and Engineering specialising in Energy and Process Engineering [2021] [Specialisation] Field of Study: Energy and Process Engineering [WP] Compulsory Elective