Hydrodynamics for the integration of fermentation and separation in the production of diesel and jet biofuels

Hydrodynamics for the integration of fermentation and separation in the production of diesel and jet biofuels

Sousa Pires da Costa Basto, R.M. (TU Delft BT/Bioprocess Engineering)

van der Wielen, L.A.M. (promotor)
Mudde, R.F. (promotor)

Delft University of Technology

2024-01-11

Over the years, various technologies have been developed to produce and separate advanced biomolecules. These technologies range from complex terpenoids for pharmaceuticals and flavors to commodity chemicals and fuels via the fermentative route. These compounds are often poorly water soluble, phase splitting organic compounds or inhibitory and unstable necessitating addition of an extractive, second liquid phase for product removal. The turbulent conditions in the multiphasic fermentation coupled with the presence of surface-active compounds in the medium create a stable emulsion that is difficult to separate in conventional systems. Technologies such as centrifugation and de-emulsifiers have been used to separate the emulsion and recover the product. However, these type of recovery processes are expensive, drastically increase the final product’s environmental footprint and often hamper cell recycling.

https://doi.org/10.4233/uuid:2dd874e6-bb94-4e3d-848d-3b54a0bc856a

978-94-6483-631-8

Institutional Repository

doctoral thesis

© 2024 R.M. Sousa Pires da Costa Basto