[Translate to English:] Pigmente mittels Aceton aus Mikroalgen extrahiert

Microalgae & Cyanobacteria

Waste–to–value: Microalgal production of value added compounds from waste streams

In this TU Wien funded project, we characterize different waste streams and screen them for the production of value added compounds in microalgae and cyanobacteria. We are working on production of food and feed components as well as biodegradable bioplastic all while fixating atmospheric CO2.



The anthropogenic CO2 and need for novel protein sources for food and feed purposes increases proportionally with the growth of human population. With the increase of population comes the need for more plastics for everyday needs. Microalgae and cyanobacteria seem to be the perfect candidate to tackle those concerns at once. CO2 is reduced through photosynthetic processes and concurrently proteins, fatty acids, pigments and in some cases, even biodegradable bioplastics are produced.

Waste remediation as a secondary effect could be beneficial in terms of reducing the process costs and increasing the ecological benefit of the process. Removing nitrogen, phosphate, toxic compounds and organic C-sources from waste streams, such as dairy wastewater, is needed to avoid water eutrophication.

So far, microalgae and cyanobacteria have only been cultivated in low biomass concentrations (in multiple different cultivation modes) and no economically feasible process has been designed in regards of energy and carbon use.


[Translate to English:] Phototrophic cultivation of microalgae in stirred tank photobioreactors

Figure 1: Microalgae cultivation in stirred tank photobioreactors


  • Generating high biomass concentrations in microalgae and cyanobacteria for next generation food and feed purposes
  • Increasing the ratio of valuable target product to biomass to enhance the nutritional values and thereby the market value, by process design
  • Creating an economically feasible process by using waste streams as substrate and reducing the process costs
  • Removing potential toxic compounds from wastewater to avoid water eutrophication in the long term



Microalgae and cyanobacteria at IBD Group:

  • Chlorella vulgaris (Food + Feed)
  • Haematococcus pluvialis (Food + Feed)
  • Synechocystis sp. (Bioplastic – Polyhydroxybutyrate / PHB)

These organisms will be screened with different waste substrates, such as dairy whey or hydrolysates from straw, potato peels, onion skins and banana peels. The most promising screening results will be upscaled to a photobioreactor. The biomass composition will then be analyzed for nutritional values as well as bioplastic content. The desired cell components will then be extracted with novel sustainable approached to reduce the environmental impact in the downstream as well.




[Translate to English:] Schemativ representation of project approach

Figure 2: Schematic representation of project approach


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