braunschweig university of technology
DESCRIPTION
Braunschweig University of Technology. Prof. Dr. mult. Dr. h. c. Ali Müfit Bahadir Vice-President for Research, Junior Scientists and Technology Transfer. BAU Faculty 3 November 2007. Founded 1745 6 Faculties, 5 on Science & Technology 12,500 Students - PowerPoint PPT PresentationTRANSCRIPT
Braunschweig University of Technology
BAU Faculty 3 BAU Faculty 3 November 2007November 2007
Prof. Dr. mult. Dr. h. c. Ali Müfit BahadirVice-President for Research,
Junior Scientists and Technology Transfer
Braunschweig University of Technology
• Founded 1745
• 6 Faculties, 5 on Science & Technology
• 12,500 Students
• 2,600 Employee, incl. 10% Prof.
• 200 Mio. € Budget incl. 45 Mio. € Third-Party Funds
Historical Building of TU Braunschweig
Braunschweig University of Technology
Historical Building of TU Braunschweig
Mathematics & Computer Sciences Economics & Social Sciences
Life Sciences
Architecture, Construction Engineering, and Environmental Sciences
Mechanical Engineering
Humanities & Educational Sciences
Electrical Engineering & Physics
1
2
3
4
5
6
Construction and Environment
Life Sciences
Micro-Nano-Production
Mobility and Transportation
Information & Communication Technology
Strategic Research Fields of the University
Subjects in the Faculty 3
Architecture, Civil Engineering, and Environmental Sciences
Architecture
Structural Engineering
Environmental Science and Engineering
Transportation
Computational Engineering
Large Scale Tests in Structural Engineering
Structural Engineering
Concrete Structures
Fire Protection
FoundationEngineering
Steel Structures
Collaborative Research Center 477
Project Fields• Methods and Strategies • Adaptive Models• Measuring Systems• Testing on Structures
LCA of Structures via Innovative Monitoring
Environmental Geology
Lake system response of Nam Co area, Central Tibet to Late Quaternary Monsoon dynamics
Environmental Science and Engineering
Environmental System Analysis and Soil Physics
xy
Tief
e [c
m]
Kon
zent
ratio
n [/]
Cparent in liquid
phase
mmetabolite inliquid phase
CminCO2
Rnon
extractable(fast
degradable)
RRnon
extractable(slow
degradable)
k10
k20
k23
k13
k12
k40
k34k30
smetabolite insorbed phase
k52k25
Cparent in liquid
phase
mmetabolite inliquid phase
CminCO2
Rnon
extractable(fast
degradable)
RRnon
extractable(slow
degradable)
k10
k20
k23
k13
k12
k40
k34k30
smetabolite insorbed phase
k52k25
sum CO2 ER NER
0 20 40 60 80 100
Time [days]
0
20
40
60
80
100
ac
tiv
ity
[%
]
Environmental fate modeling
dep
th [
cm]
con
cen
trat
ion
Environmental Science and Engineering
Geochemistry
Hg(II) Hg(0)
Hg+ Huminstoffe
Komplexierung(Huminstoffe; S, Cl, I)
Fixierung
Methylierung Reduktion
Mobilisierung
Ausgasung
CH Hg 3+
Mikroorganismen
Hg(0)
Hg(0) CH Hg 3+
CH Hg 3+
CH Hg 3+
CH Hg 3+
Adsorption
Grundwasser
Reduktion
Atmosphäre
Demethylierung
Methylierung
Hg°
Hg
2+
HgS
Fixierung
Remobilisierung
Organo-Schwefel Verbindungen Pyrit
CH HgCH + HgS
Sediment
Atmosphäre
Wasser
S 2-
Demethylierung
Methylierung 2+
CH Hg +
CH Hg + Hg 2+
CH HgCH 3 3
Hg°
3 3 3
3
Hg
hv
Reduktion
Transformation
Transfer
Oxi
dat
ion
Hg-Huminstoffe
Hg(II) Hg(0)
ca. 75 %
ca. 25 %
Biogeochemical cycles of nutrients and pollutants
Environmental Science and Engineering
Hydraulic Engineering and Water Resources
Numerical Modelling
Interaction Flow Sediment Vegetation
Turbulent Flow Field
Large Wave Flume (GWK)
Layers of input data for a
catchment model
Environmental Science and Engineering
Highway Engineering
Transportation
Railway Systems Engineering and Traffic Safety
Transportation
Railway operation and controlOperational infrastructure
Rail automationSafety targets
Numerical Simulation
Computational Engineering
Noise barrier3D Visualisation
Concrete foundation in soil: Horizontal impact
TUBS – R&D as Interdisciplinary Approach
Contributing Faculties
(1) Mathematics and Computer Sciences
(3) Architecture, Civil Engineering, and Environmental Sciences
(4) Mechanical Engineering
(5) Electrical Engineering, Information Technology, and Physics
Computational Engineering