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Danmarks Tekniske Universitet (The Technical University of Denmark)

Den Polytekniske Læreanstalt, Danmarks Tekniske Universitet (i daglig tale Danmarks Tekniske Universitet eller blot DTU, er en selvejende uddannelses- og forskningsinstitution til uddannelse af civilingeniører og diplomingeniører samt forskning inden for ingeniørvidenskab.
The Technical University of Denmark was founded in 1829 as the 'College of Advanced Technology' (Danish: Den Polytekniske Læreanstalt). The initiative was taken by the renowned physicist Hans Christian Ørsted (then a professor at the University of Copenhagen) who also served as its principal until his death in 1851. The university is generally understood to be one of Europe's leading engineering institutions, and the best engineering university in Scandinavia.

More information: http://en.wikipedia.org/wiki/Technical_University_of_Denmark

Visionik a world class provider of interactive TV services DTU 7.11.2003

Visionik a world class provider of interactive TV services DTU 7.11.2003
oldwww.com.dtu.dk

Nikolaj Blom Center for Biological Sequence Analysis BioCentrum-DTU Technical University of Denmark nikob@cbs.dtu.dk ”Resources of Biomolecular Data: Sequences, Structures and Functionality” PhD course #27803
www.cbs.dtu.dk
Biological sequence analysis and information processing by artificial neural networks Søren Brunak Center for Biological Sequence Analysis Technical University of Denmark brunak@cbs.dtu.dk

Biological sequence analysis and information processing by artificial neural networks Søren Brunak Center for Biological Sequence Analysis Technical University of Denmark brunak@cbs.dtu.dk
www.cbs.dtu.dk
Lecture 8: Discrete Fourier Transform Svetoslav Nikolov Ørsted•DTU, Building 349

Lecture 8: Discrete Fourier Transform Svetoslav Nikolov Ørsted•DTU, Building 349
server.elektro.dtu.dk




Visualization of genomic data Genome browsers
www.cbs.dtu.dk
Pairwise Alignment Global & local alignment

Pairwise Alignment Global & local alignment

Anders Gorm Pedersen Molecular Evolution Group Center for Biological Sequence Analysis
www.cbs.dtu.dk

Department of Mathematics KTH Learning Lab January 16th 2008 Math Education at a Crossroads v/ Karsten Schmidt og Steen Markvorsen
www2.mat.dtu.dk

Nonlinear Partial Differential Equations Travelling waves and Solitons Content: KdV solitons Reaction diffusion systems Spiral waves Technical University of Denmark Mads Peter Sørensen Department of Mathematics, Techn. Univ. of Denmark
www2.mat.dtu.dk
Online headspace chromatographic method for measuring VFA in biogas reactors

Online headspace chromatographic method for measuring VFA in biogas reactors

Kanokwan Boe, Damien John Batstone, Irini Angelidaki Environment & Resources Technical University of Denmark Lyngby, Denmark
documents.er.dtu.dk
Kinetic properties of Penicillium brasilianum cellulose degrading enzymes

Kinetic properties of Penicillium brasilianum cellulose degrading enzymes

STUDENT PROJECT at Cellulose is a chemically simple, but extremely recalcitrance biopolymer. It is composed of β-1,4-linked glucose chains tightly bound to each other. The basic 3D structure is called a microfibril, and consists of 40 glucan chains bound in a tight, water-excluding complex. Moreover, amorphous and crystalline regions within the cellulose chain can be distinguished. In this study, two model substrates – Avicel and Phosphoric Acid Swollen Cellulose (PASC) will be used to determine the kinetics of three cellulolytic enzymes. Substrate Lisbeth Olsson Associate professor lo@biocentrum.dtu.dk Enzymes The action of three classes of enzymes is needed to degrade cellulose: Endoglucanase Cellobiohydrolase β-glucosidase Cellobiose and shorter cellooligosaccharides (DP < 6) Substrate Mode of action Product Surface of long cellulose microfibrils (primarily within amorphous regions) Reducing or non-reducing end “Endo”, random “Exo”, processive Cellobiose (Strong inhibitor) Glucose (Weak inhibitor) retaining Shorter hydrolyzed segments Symbol E1 E2 E3 Natalija Andersen PhD student at the Novozymes BioProcess Academy na@biocentrum.dtu.dk Contact persons: Kinetics The aim of the study is to experimentally determine single enzyme kinetic constants - Km, kcat and Vmax under pre-determined hydrolysis conditions (T=50°C and pH=5.5). In practice, one determines initial rates for several s...
www.dtu.dk
EU LIMAS Liquefaction around marine structures

EU LIMAS Liquefaction around marine structures

Workpackage 7, NTNU Trondheim Development of soil sampler for measurement of gas content in soils Scope of work By associate professors Rolf Sandven (NTNU) and Mike Long (UCD)
www.adm.dtu.dk
EU LIMAS Liquefaction around marine structures

EU LIMAS Liquefaction around marine structures

Workpackage 7, NTNU Trondheim Development of soil sampler for measurement of gas content in soils Progress of work By associate professors Rolf Sandven (NTNU) and Mike Long (UCD)
www.adm.dtu.dk
MEK Institut for Mekanik, Energi og Konstruktion Section of Coastal, Maritime and Structural Engineering Bld. 403

MEK Institut for Mekanik, Energi og Konstruktion Section of Coastal, Maritime and Structural Engineering Bld. 403

Content: Currently, a large number of large container ships are built to cope with the increasing demand for ship born transportation of goods from especially Asia to Europe and USA. The increasing size of the vessels requires a careful structural analysis taking due account of the wave-induced loads. A major point of concern today is the importance of wave-induced hull-girder vibrations both in the form of steady-state vibrations in relative low sea states (called springing) and transient vibrations in severe sea states (named whipping). These phenomena are currently not included in the standard rules from the ship classification societies. The present project is concern only with whipping. Based on accurate theoretical investigations for a wedge entering a calm water surface, a formulation of the whipping vertical bending moment has been suggested. This formulation takes into account the hull girder flexibility, the stochastic properties of the waves and the relative submergence of the section of the ship responsible for the slamming impact leading to a transient whipping vibration. However, the formulation is based on a number of simplified assumptions and also contains the unknown average length of the section subjected to a slamming impact. Hence, experimental validation is required before such theory can be applied in actual design studies. Experimental data is available trough the SeaSence project, where an onboard measuring system both gives information of the wa...
redigering.sitecore.dtu.dk

Irini Angelidaki, Kanokwan Boe and Lars Ellegaard
documents.er.dtu.dk
BiogasForum Öresund – Research at E&R DTU

BiogasForum Öresund – Research at E&R DTU
documents.er.dtu.dk
Department of Biotechnology Lund University

Department of Biotechnology Lund University

The biogas group: Prof. Bo Mattiasson Dr Lovisa Björnsson Kjell Christensson Prof. Linda Blackall 4 postdocs 7 PhD-students 2 master students
documents.er.dtu.dk
Subgroup - Site Characterisation DTU Env: Ida Damgaard, Camilla Christiansen, Julie Chambon, Mette Broholm, Charlotte Scheutz, (Poul Bjerg) GEUS: Bertel Nilsson, Knud Erik Klint, Carsten Suhr, Jacob Bælum Orbicon: Nina Tuxen

Subgroup - Site Characterisation DTU Env: Ida Damgaard, Camilla Christiansen, Julie Chambon, Mette Broholm, Charlotte Scheutz, (Poul Bjerg) GEUS: Bertel Nilsson, Knud Erik Klint, Carsten Suhr, Jacob Bælum Orbicon: Nina Tuxen
documents.er.dtu.dk
Energy-Centric Scheduling for Real-Time Systems Prof. Jan Madsen Informatics and Mathematical Modelling Technical University of Denmark Richard Petersens Plads, Building 321 DK2800 Lyngby, Denmark

Energy-Centric Scheduling for Real-Time Systems Prof. Jan Madsen Informatics and Mathematical Modelling Technical University of Denmark Richard Petersens Plads, Building 321 DK2800 Lyngby, Denmark
www2.imm.dtu.dk
System-level Modeling for Wireless Sensor Networks Jan Madsen Informatics and Mathematical Modelling Technical University of Denmark Richard Petersens Plads, Building 321 DK2800 Lyngby, Denmark

System-level Modeling for Wireless Sensor Networks Jan Madsen Informatics and Mathematical Modelling Technical University of Denmark Richard Petersens Plads, Building 321 DK2800 Lyngby, Denmark
www2.imm.dtu.dk
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