Now showing1 - 10 of 12
  • Institution
  • Institution
  • Institution
    Solids Process Engineering and Particle Technology V-3
    Research focus of the SPE is the field of fluidized bed technology and its industrial applications. We investigate physical processes like drying and particle production by granulation and agglomeration as well as chemical processes and applications in energy technology. Experimental investigations with novel measurement methods are supported by hierarchically structured theoretical approaches. The model development includes particle based methods (DEM, population balances), continuous models (FEM, CFD) as well as steady-state and dynamic flow sheet simulations of complex solids processes whereas simulations consider individual particles, bulk solids and particles containing flows of multiples phases.
    Type: TUHH Institute
  • Institution
  • Institution
    Multiphase Flows V-5
    Type: TUHH Institute
  • Institution
    Technical Biocatalysis V-6
    Biosynthesis needs to be understood as „chemistry by nature“. The challenge is to understand selected biological principles as well as processes in chemical terms, to transfer, apply them to and combine them with the traditional concepts of chemical catalysis. A key tool or prerequisite for the application of biocatalysts is the appropriate reaction engineering. Consequently, our main research field covers fundamental and technical aspects of the application of whole cells and isolated enzymes in biocatalysis and environmental biotechnology. A promising field for the future will be the establishment and implementation of bioprocesses in novel process non-conventional reaction conditions as well as multiphase reactant systems. In order to meet these future challenges new processes and hybrid technologies are developed in a highly interdisciplinary manner between process engineers, biotechnologists, chemists and microbiologists. They interact in an unique interdisciplinary way in our laboratories that are equipped with state-of-the-art technologies for research and development. Service Kinetic & thermodynamic analysis Mathematical simulation of biotransformations & processes Optimization of biotransformations Process development Biosynthesis of g to kg product quantities Consulting
    Type: TUHH Institute
  • Institution
    Technical Microbiology V-7
    Type: TUHH Institute
  • Institution
  • Institution
    Process Imaging V-10
    We pioneer magnetic resonance techniques that allow us to decipher the complex transport and reaction processes occuring in chemical engineering applications. With our work, we contribute to provide affordable and clean energy and engineer sustainable production patterns of the 21st century.
    Type: TUHH Institute