Retraining in Vienna, 15898‐Tempus‐1‐2009‐1‐BE‐TEMPUS‐JPHES (2009‐4684/001‐001)November 15‐22, 2010

Creation of university‐enterprise cooperation networks for education on sustainable technology

- Welcome , Head of the institute of Chemical Engineering, Prof. Dr. H. Hofbauer

- Presentation of the Vienna University of Technology,Institute of Chemical Engineering

- Presentation of the retraining seminar programme

-- Introducing of seminar members-- Individual grant-holder reports (Prof.. Dr. Z. Zavargo…)-- Lunch

Prof. Dr. W. Höflinger

Institut für Verfahrenstechnik, Umwelttechnik und Technischer

BiowissenschaftenGetreidemarkt 9/166

A-1060 WienTel. + 43 1 58801 166100Fax:: +43 1 58801 166099

www.vt.tuwien.ac.at

Vienna Univ. of Technology. Location - Study in the heart of the city

Institute of Chemical Engineering

Library of the University

•

History

1815: founded as „k. k. polytechnisches Institut“(being the first University of Technology in todays German-speakinggeographical area)

1865: first reform(restructuring, implementation of faculties, concentration on technicaldisciplines)

1872: renamed to „k.k. Technische Hochschule“ (TH)(new organisational statute, lasts until 1945)

1902: first doctorates awarded(promotion right awarded in 1901)

1919: admission for women1975: renamed to „Technische Universität“ (TU)1999: implementation of University Act ´932004: autonomy through University Act ´02

Vienna University of Technology – Staff & Students

STAFF

STUDENTS

412 (full) professors

~ 1800 academic

~ 850 non-academic

~ 20,000 students

~ 1000 graduates

~ 200 PhD

Vienna University of Technology - Faculties

Architecture and PlanningCivil EngineeringElectrical Engineering and Information TechnologyInformaticsMathemathics and GeoinformationMechanical and Industrial EngineeringPhysicsTechnical Chemistry

FACULTIES

Institute of Applied Synthetic Chemistry

Institute of Chemical Technologies and Analytics

Institute of Materials Chemistry

Institute of Chemical Engineering

Faculty „Technical Chemistry“

145 employes

Institute of Chemical EngineeringHead: Hermann Hofbauer

Mechanical Process Engineering and Clean

Air Technology

Thermal Process Engineering and

Simulation

Chemical Process Engineering

and Energy Technology

Biochemical Engineering

Gene TechnologyAnd

Applied Biochemistry

Natural Products and Food Chemistry

Mechanical SeparationTechniques and

Particle Technology

Fiber Technology

Process Simulation&

Thermal ProcessEngineering

Chemometrics

Computational FluidDynamics (CFD)

&Thermal Process

Engineering

BioprocessTechnology

Industrial Microbiology

FutureEnergy Technology

Fluidized Bed Systems&

Refinery Technology

Reaction Engineering&

Combustion

MolecularBiotechnology

Gene Technology

Phytochemistry

Food Chemistry

Food Technology

Chemistry andMicroscopy of

Natural Products

Head: Anton Friedl

Head:Hermann Hofbauer

Head:Christoph Herwig

Head:Christian Kubicek

Head:Herbert Stachelberger

Head:Wilhelm Höflinger

Head: Wilhelm HöflingerGerd Mauschitz

Thomas LamingerFelix Lebl

Jörg Faschingleitner

Head:Andreas BartlBettina Mihalyi

Davide Pico

Head: Anton Friedl / Walter Wukovits

Head: Michael Harasek

Head: Anton Friedl / Kurt Varmuza

Bettina Liebmann

Head: Hermann Hofbauer

Head: Franz Winter

Head: Alexander Reichhold

Head: Christoph HerwigPatrick Wechselberger

Christian Dietzsch

Head: Kurt MessnerEwald Srebotnik

Head: Karl Stich

Head: Robert Mach

Head: Peter KubicekIrina Druzhinina

Bernhard Seiboth

Head: Gerhard Kroyer

Head: Ingrid SteinerKathrin Scharnhorst

Head: Leopold PuchingerGerhard Rumplmair

Notified TestingLaboratory for

Combustion Systems

Head:Hermann HofbauerEmmanuel Padouvas

166_1 Mechanical Process Engineering and Clean Air Technology

Particle TechnologySolid/ gas, droplet/gas and solid/liquid separationFugitive dust emission minimizationBulk solids mechanics and powder handling processesParticle size measurement techniques

Fiber TechnologyThe research group bridges the gap between the area textile technology on the one hand and nonwovensand paper on the other hand.Research FocusFiber characterizationFiber grindingFibers from renewable resourcesFiber recyclingApplications for short fibers

166_2 Thermal Process Engineering and Simulation

Process SimulationProcess OptimizationIntegrated ProcessesHeat Integration (Pinch Technology)

ApplicationsBio-HydrogenBioethanol, ABEBiogasDrinking WaterFlue Gas CleaningSeparation Processes

PervaporationGas & VapourPermeationMF, UF, NF

Fluid Dynamics (CFD)Flow OptimizationComplex Flows:

Multiphase FlowsReactive FlowsHeat TransferFE-CFD Coupling

Flow Measurement

SeparationsMembrane Processes

Gas PermeationNF, ROElectrodialysis

ApplicationsBiogas UpgradingBiorefinery…

ChemometricsProperty PredictionModel DevelopmentMultivariate DataAnalysesApplications in- Bioethanol process- Fuel properties- Chemoinformatics- Tribology- Art- Archaeometry- Cosmo chemistry

Recovery of minerals, metals and plant nutrients from

incineration residues

High temperature process engineering

Fluidized bed conversion - IEA

166_3 Chemical Process Engineering & Energy Technology

Future Energy Technology Reaction Engineeríng & Combustion

Fluidized Bed Systemsand Refinery Technology

Operation of FCC pilot plant

Catalyst testingBio fuels from cracking

of bio oilsAdsorber optimization of vapour recovery

units

Biomass gasification and gas cleaning

Synthetic biofuels –BioFiT, BioSNG

Fuel upgrading – steam reforming

CO2 separation processes – Chemical Looping Combustion

166_4 Biochemical Engineering

Red BiotechnologyRecombinantProteins

Specific rates and yields in Real Time

Metabolic Modelling

Design SpaceDetermination

Control Strategies

Dynamics in Filamentous Fungi

Process Development at the Thermodynamic Minimum

Biohydrogen and Biomethane Production from Waste

Integrated Quality by Design

ANNIKKI Process - Development of a low temperature delignificationprocess for the production of second-generation biofuels and chemicals.

IR Spectroscopy of Wood Decay

Tracing structural changes on wood polymers caused by white and brown rot fungi using advanced FT-NIR and FT-MIR methods

Straw Biorefinery VOC in Wood Composites

Biodegradation of lipophilic wood extractives to reduce VOC (volatile organic compound) emissions from wood composites

Low Temp.pre-treatment

Enzymat.hydrolysis

Lignin

XyloseGlucose

Ethanol

Chemicals

Straw

XylanaseCellulase

FibresBiogas

Multivariate image analysis of hyperspectral FT-IR microscopy images of bio-degraded spruce wood.

BBAA CC

Morphology

Quantified MetabolicDynamics

Proteomics

CO2 Fixation and Renewable Energy

166_5 Gene Technology and Applied Biochemistry

GeneTechnology

Biorefinery:Valorization of biopolymers to bio-

fuels and chemical building blocksGene expression of hydrolasesStrain improvement

Molecular diagnostics and source tracking:

Microbial ecology of water resources

Pollution microbiology and sanitation

Health related water quality and water management

Molecular diagnostics in food and feed products

Pathogens

Herbivores

UV-B

LightAir pollutants

Ozone

Extreme temperature

Drought

Toxic elements

MycobiontsRhizobia

Defence

Attraction

Competingplants

Pathogens

Herbivores

UV-B

LightAir pollutants

Ozone

Extreme temperature

Drought

Toxic elements

MycobiontsRhizobia

Defence

Attraction

Competingplants

Plant Biochemistryand PhytochemistryPlant biochemistry:

Plant secondary metabolites, and their interaction with theenvironment (bacteria, otherplants, animals, men)

Phytochemistry:

Patterns of hydroxylation and hydroxylating enzymes in theflavonoid biosyntheticpathway, and their pplicationin biotechnology

MolecularBiotechnology-Molecular strain improvement forindustrial application. Targetsinclude: -regulatory circuits, metabolicengineering, and protein/enzymeengineering towards efficientutilization of renewable biomass-Identification and ecology of fungi (especially Trichoderma and Hypocrea) -Biological control of plant pathogenes

166_6 Natural Products and Food Chemistry

FunctionalFood

Food FoodAdditives Supplements

Evaluation-Development-Technology-Application

NaturalProductsChromatography

Microscopy

ArchaeometryWiesner Collection

Food Chemistry

Food Quality, Structureand Analysis

Food Microbiologyand Sanitation

Food PackagingActive Packaging

Contaminants

Food Technology

Retraining in Vienna, 15898-Tempus-1-2009-1-BE-TEMPUS-JPHES (2009-4684/001-001)

PROGRAMMECreation of university-enterprise cooperation networks for education on sustainable technologies

Monday 15 November 2010

9.00 Pick up at the lobby of the hotel – public transport to Vienna University of Technology, Institut f. Verfahrenstechnik, 4th. floor, Getreidemarkt 9, 1060 Vienna, lectures: seminar room 10th

floor 166/2

Dunja Sokolovic

10.00-

12.00

Welcome by Univ. Prof. Dr. H. Hofbauer, Head of the institute

Introduction

Presentation of the Institute of Chemical Engineering and the Vienna University of TechnologyPresentation of the programme

Introducing of the seminar members

Individual grantholder reports

Wilhelm Höflinger

12.00 –13.30

Lunch (lunch box) Institute of Chemical Engineering, 10th floor,

13.30-14.30

Environmental Protection, Dust separation from air and gases, incl. discussion

Wilhelm Höflinger

14.30-15.00

Break, coffee

15.00 –16.00

Environmental Protection, New Construction of Waste Incineration Plants in Austrian Redevelopment Zones, incl. discussion

Gerd Mauschitz

18.30 –

23.00

Dinner at “Heurigen” (Steinschaden, Nussdorf, Vienna)

Start on 18:00 by tramway D in the centrum until final station

Dunja Sokolovic

Retraining in Vienna, 15898-Tempus-1-2009-1-BE-TEMPUS-JPHES (2009-4684/001-001)

PROGRAMMECreation of university-enterprise cooperation networks for education on sustainable technologies

Tuesday 16 November 2010

8.30 Public transport to Vienna University of Technology, Institut f. Verfahrenstechnik, 10th. floor, 166/2

9.30 -10.30

Zero energy emission technologies, Chemical Looping Combustion for CO2 Ready Steam Generation, incl. discussion

Tobias Pröll

10.30 –11.30

Short Power point introduction and Lab-tour at the Institute of Chemical Engineering: Advanced energy conversion, Biomass gasification and Chemical Looping

Tobias Pröll

11.30 –13.00

Lunch (lunch box) at the Institute of Chemical Engineering, 10th floor, Inst f. Verfahrenstechnik

13.00 Departure for Company visit by public transport Gerd MauschitzThomas Laminger

14.00 –18.00

Visits: Waste water treatment plant EBS Vienna and the Waste Incineration Plant MVA Pfaffenau in Vienna

Gerd MauschitzThomas Laminger

Retraining in Vienna, 15898-Tempus-1-2009-1-BE-TEMPUS-JPHES (2009-4684/001-001)

PROGRAMMECreation of university-enterprise cooperation networks for education on sustainable technologies

Wednesday 17 November 2010

8.30-9.45

Departure from the Institute für Verfahrenstechnik, Entrance Gumpendorferstrasse 1,1060 Vienna transport by bus to the Sugar factory AGRANA Tulln

Wilhelm Höflinger

JörgFaschingleitner

Joh. Wolfslehner10.00-12.00

Visit of Sugar factory Tulln “-“

12.00-13.30

Lunch at the sugar factory “-“

13.30-17.00

Visit of the Bioethanol plant in Tulln “-“

17.30-18;30

Bus tranfer to Vienna “-“

Retraining in Vienna, 15898-Tempus-1-2009-1-BE-TEMPUS-JPHES (2009-4684/001-001)

PROGRAMMECreation of university-enterprise cooperation networks for education on sustainable technologies

Thursday 18 November 2010

Public transport to Institute für Verfahrenstechnik, seminar room 166/2, 10th floor

9.00-9.30

Research activities at our institute, Fugitive dust emissions,

Jörg Faschingleitner

9.30-10.00

Research activities at our institute, Metal working mist separation

Thomas Laminger

10.00-10.30

Dust separation on bio mass combustion plants Dominik Steiner

Scheuch Company Austria

10.30-11.00

Break, coffee

11.00-12.30

Lab- tour at our institute, Dust separation research Jörg Faschingleitner

Thomas Laminger19.00 Dinner at a restaurant (Salm Bräu) in Vienna

Rennweg 8, 1030 Vienna

Retraining in Vienna, 15898-Tempus-1-2009-1-BE-TEMPUS-JPHES (2009-4684/001-001)

PROGRAMMECreation of university-enterprise cooperation networks for education on sustainable technologies

Friday 19 November 2010

Public transport to Institute für Verfahrenstechnik, 10th floor seminar room, 166/2

9.30-10.30

Lab- tour at the institute, Particle size measurement techniques and dust filter test equipment

Meeting point: 10th. floor of the Institute

Gerd Mauschitz

10.30-11.30

Concluding remarks, discussions

10th. floor of the institute

Wilhelm Höflinger

Zoltan Zavargo

Beginners (bachelor programmes, winter term 2008/09)

source: http://info.zv.tuwien.ac.at/ud/stud/inskribierte/bmwf_2008w.html

20,251 students in total (22,485 enrolments, WS 08/09)

faculty absolute %

Architecture and Regional Planning

856 26.2

Civil Engineering 164 5.0

Electrical Engineering and Information Technology

242 7.4

Informatics 779 23.9

Mechanical Engineering and Business Science

476 14.6

Mathematics and Geo-Information

348 10.7

Physics 186 5.7

Technical Chemistry 210 6.4

Total 3.261

Ref.: Gärtner 28.01.2010

Students in Faculty of Technical Chemistry

Basic Dates – Institute of Chemical Engineering

5 Full Prof., 10 Associate Prof., 13 Assistant Prof.ca. 97 Research Assistants20 Nonscientific Staff

» Total: appr. 145 employes

Chemical Engineering 2005 2006 2007 2008 2009Project Volume [Mio €] 2,8 3,4 4,1 3,7 4,3Number of Dipl.-Ing. 32 16 26 20 18Number of Dr.techn. 11 11 13 10 11

Student laboratory at the Institute of Chemical Engineering

•

166_1 Mechanical Process Engineering and Clean Air Technology

Head: Wilhelm Hoeflinger12 scientific employes2 Working groups:„Mechanical Separation Techniques and ParticleTechnology“Head: Univ. Prof. Dr. W. HoeflingerDr. G. Mauschitz, DI T. Laminger, DI J. Faschingleitner, DI J. Schuberth, DI. F Lebl, A. Purgar

Fibre Technology:Head: Univ. Prof. Dr. I. MariniDr. A. Bartl, Dr. B. Mihalyi, DI. D. Pico, Sebnam Haner

166_1 Mechanical Process Engineering and Clean Air Technology

Mechanic. Sep. Techn. and Particle TechnologySolid/ gas, droplet/gas and solid/liquid separationFine dust (below 1 micron) and aerosol separation techniques Development of new technologies for Aerosol separation (Hybrid filters)

Development of new design methodsFugitive dust emission minimization

Bulk solids mechanics and powder handling processes

Particle size measurement techniques

Particle size measurementdevices

Particle size measurement methodsSMPS

13 nm – 1000nm

Laser defraction spetrometer 0,3 – 800 µm

Scattered light particlesensor 0,25 - 40µm

• Lectures:• Particle size measurement techniques

• Aerosol and fine dust particle separationtechniques

• Mechanical process Engineering techniques

• Bulk solids mechanics

•

WFC11 Topics

Thank you for your attention

Rearch Area „Mechanical ProcessEngineering and Clean Air 

Technology“

Head: Univ. Prof. Dr. Wilhelm Hoeflinger

• 2 Working groups:

• Fibre Technology:• Head: Univ. Prof. Dr. I. Marini

• Dr. A. Bartl,  Dr. B. Mihalyi, DI. D. Pico, Sebnam Haner

• „Mechanical Separation Techniques and Particle Technology“

• Head: Univ. Prof. Dr. W. Hoeflinger

• Dr. G. Mauschitz, DI T. Laminger, DI J. Faschingleitner, DI J. Schuberth, DI D. Sokolovic,                 DI H. Talvensaari

Research activities:

MECHANICAL SEPARATION and PARTICLE TECHNOLOGY

Solid‐gas(Dust,Aerosol)‐Separation

Solid‐liquid Separation

Bag house filter

Vacuum drum filter

Silo technology

Dischargedevices

Working fluid emission separator

StudiesAccording to the Bologna Agreement all offered studies (except teacher training programmes) have been offered as bachelor and master programmes since October 1st, 2006.

Besides 19 bachelor programmes and 41 master programmes, 5 teacher training programmes are offered:Mathematics (E406)Descriptive Geometry (E407)Physics (E412)

Chemistry (E423) - Bachelor Technical Chemistry (033 290)- Master Synthesis (066 491)

Materials Technology and Materials Analytics (066 492)Materials Chemistry (066 493)Chemical Process Engineering (066 494)Biotechnology and Bioanalytics (066 495)

- Bachelor Chemical and Process Engineering (033 273)- Master Chemical and Process Engineering (066 473)

Materials Sciences (066 434)Biomedical Engineering (066 453)

Informatics und Informatics Management (E884)

Following doctorate degrees are offered:Technical Sciences („Dr. techn.“)Natural Sciences („Dr. rer. nat.“)Social Science and Economics („Dr. rer. soc. oec.“)

Development of a standard test methodto classify different working fluidemission separators

35

Tank (Emulsion)

Tank (Emulsion)

Pumpe (hoher Volumenstrom)

Filter

Düse

Filteraufnehmer

Aerosol‐GeneratorAerosol‐Generator

CYCL‐FIDCYCL‐FID

PCSPCSÖl‐Gehalt in Drainage

Öl‐Gehalt in Drainage

Reines Wasser bzw. 

Emulsion

Reines Wasser bzw. 

Emulsion

Technology for People

Faculty of Technical ChemistryInstitute of Chemical Engineering  

Content

Information – Town of Vienna and University of Technology Vienna, Faculty of Technical Chemistry

Information - Institute of Chemical Engineering

Introduction - Research Fields/Areas of Institute

Vienna

Vienna, town of music

Opera house Mozart