Digitalgae
Microalgal population dynamics related to changes of environmental conditions
Algae-based bioprocesses stands up as one of the most promising approaches for delivering effective keys to meet one of the great challenges facing humanity which is the quest for sustainable sources for chemicals and food.
In this context, the purpose of this project is to study and understand population dynamics of pure and mixed cultures in algae-based bioprocesses as a function of fluctuating abiotic factors in order to develop a microalgae growth model incorporating sub-population dynamics and able to predict outcomes of the bioprocesses at dynamic process conditions.
This project is part of the EU digitalgaesation project which aims to propose a digitalisation approach to optimising control and operation of microalgae cultivation processes.
Logo Digitalgaesation, © Digitalgaesation
Projectfunding:
©European Commission
EUROPEAN UNION’S HORIZON 2020 PROGRAMME
Grant agreement number: 955520
Project head:
© Ritz
Prof. Dr.-Ing. Thomas Walther
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Projectstaff:
Cooperation partners:
Universities and Research Centers:
- University of Padova
- CentraleSupélec
- Technical University of Denmark
- Imperial College London
- INRIA (French National Institute for Research in Computer Science and Control)
- University of Almeria
- Wageningen University
- G. W. Leibniz University of Hannover
Industrial Partners:
- Process Systems Enterprise
- Proviron
- TMCI Padovan
Project term:
12.10.2021- 11.10.2024
Contact:
© Mann
Wissenschaftlicher Mitarbeiter
NameFelix Krujatz Dr.-Ing.
Pflanzenzellbiotechnologie
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© Ritz
Prof. Dr.-Ing. Thomas Walther
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