Daniel Niehaus, M.Sc.


Eißendorfer Str. 38

Building O, Room 1.008

21073 Hamburg

Phone +49 40 42878 - 4267

Mail Daniel Niehaus


Research

National Research Strategy BioEconomy 2030

Part of the BMBF Research Allianz: Protein Pressure Stability Impact (prot P.S.I)

Usage and understanding of critical stabilitylimits for proteins under pressure in the fine chemical and food industry.

Subproject B1: Development of an aeration solution for pressurized reactors.

Education

Graduate Teaching Assistant

  • Practical Couse Measurement Technology for (Bio)Process Engineers
  • Process Design Course WiSe 19/20

Supervised Theses

  • "Development of a process simulation of a bioreactor for high pressure applications" (Working title), Saad Posharkar, Master thesis, 2021
  • "Experimental Characterization of Modified Polyurethane Foams for Mechanical Clean Up of Oil Pollutants at Sea Surface", Srividya Kumar Bairamangala, Master project, 2021
  • "Experimental investigation of immobilized enzymes on additive-manufactured polyamide structures for the use in high-pressure applications", Jabrayil Guliyev, Master Thesis, 2020
  • "Experimentelle Charakterisierung einer Hochdruckbegasungseinheit für biotechnologische Anwendung durch optische Messmethoden", Nils Dürkop, Bachelor thesis, 2020
Oral and Poster Presentations

Oral Presentations

  • Niehaus, D.; Johannsen, M.; Ohde, D.; Perz, F.; Bubenheim, P.; Liebsch, G.; Liese, A.; Schlüter, M.: Enzyme catalysed reactions under high pressure in aerated bioreactors, ECCE/ECAB, Online conference, 2021, oral presentation

Poster Presentations

  • Niehaus, D.; Johannsen, M.; Ohde, D.; Perz, F.; Bubenheim, P.; Liebsch, G.; Liese, A.; Schlüter, M.: Design of aerated high pressure reactors for enzyme catalysed reactions., Himmelfahrtstagung on Bioprocess Engineering, Online conference, 2021, poster presentation

  • Niehaus, D.; Johannsen, M.; Schlüter, M.: Design of aerated high pressure reactors for enzymatic catalyzed reactions, 1. Hamburg-Bochumer Mehrphasensymposium, Online conference, 2020, poster presentation

2022

  • Niehaus D.; Hofmann S.; Kumar S.B.; Hoffmann M.; Cisneros-Aguirre J.; Schlüter M. (2022). Experimental Characterisation and Field Experience of a Reusable, Modified Polyurethane Foam for the Mechanical Clean-Up of Oil Spills on the Sea Surface. Journal of Marine Science and Engineering. 10. (10), [Abstract] [doi] [www]