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