t.BA.MTV.VT2.22HS (Process Engineering 2) 
Module: Process Engineering 2
This information was generated on: 02 May 2024
No.
t.BA.MTV.VT2.22HS
Title
Process Engineering 2
Organised by
T IMPE
Credits
4

Description

Version: 2.0 start 01 August 2024
 

Short description

 You will develop the ability to solve current and relevant process engineering problems and issues. You will also acquire knowledge of modern technologies for manufacturing high-quality products efficiently, economically and sustainably.

Module coordinator

 Meier Daniel Matthias (meid)

Learning objectives (competencies)
Objectives Competences Taxonomy levels
You have an in-depth understanding of current, industrial process engineering requirements. F K2, K3
You will learn to build processes from unit operations and know what makes a lean procedure. F, M K4
You can calculate and design ideal reactors and assess process risks. F, M K3, K6
You will learn how to process and formulate after production. F, M K2, K3
You will develop the topic of process analytics and be able to evaluate suitable technology for a process. F, SE, SO K4, K6
You will be able to develop, interpret, present and reflect on current research results. F, M, SE, SO K4, K6
You understand the concept, applications, as well as economic and sustainable importance of catalytic processes. F, M, SO K3

Module contents

 Reaction Engineering
Key indicators, reactor types and characteristics, balances, selection criteria, layout and design, batch and continuous processes, residence times, economic and ecological aspects

Process analytical technology
Overview of modern measurement technology with focus on optical sensors, process integration, selection criteria, positioning in processes along the value chain

Thermal and chemical separation processes
Distillation, carrier gas distillation, vacuum distillation and rectification, packings, liquid-liquid and solid-liquid processes, supercritical extraction, industrial chromatography, material selection, equipment requirements

Formulation Processes
Agglomeration, crystallization, encapsulation, freeze-drying

Workshop
Process optimization - intensification and lean production

Sorption processes
Carbon Capturing and Sequestration (CCS), Carbon Capturing and Use (CCU), Adsorption - isotherms, materials, calculation and determination of loading capacities. 

Catalytic Processes
Basics, processes, catalysts, active centers, operation, design of exhaust systems, mass transport

Risk analysis of processes and products
Inherent safety, parameters, risk analysis, mitigation of risks, calculation of safe operating points, explosion protection, thermal aspects, material selection

Industry trends
Continuous processes, JIT, automation, in- and outsourcing

Field trip
 

Teaching materials

 Basis of the module are the files, scripts, hand-outs and exercises provided in Moodle.

Supplementary literature

 For self-study and in-depth study, textbooks on Moodle are recommended and primary literature is provided.

Prerequisites

 Verfahrenstechnik 1, or equivalent module

Teaching language

 (X) German ( ) English

Part of International Profile

 ( ) Yes (X) No

Module structure

 Type 2a
  For more details please click on this link: T_CL_Modulauspraegungen_SM2025

Exams
Description Type Form Scope Grade Weighting
Graded assignments during teaching semester Presentation and Poster oral / written   graded 15 % Presentation
15 % Poster
End-of-semester exam Exam written 90 min graded 70 %

Remarks

  

Legal basis

 The module description is part of the legal basis in addition to the general academic regulations. It is binding. During the first week of the semester a written and communicated supplement can specify the module description in more detail.

Note

Course: Verfahrenstechnik 2 - Vorlesung
No.
t.BA.MTV.VT2.22HS.V
Title
Verfahrenstechnik 2 - Vorlesung

Note

  • No module description is available in the system for the cut-off date of 01 August 2099.