Haloalkaline Bioconversions for Methane Production from Microalgae Grown on Sunlight

Daelman MRJ, Sorokin D, Kruse O, van Loosdrecht MCM, Strous M (2016)
TRENDS IN BIOTECHNOLOGY 34(6): 450-457.

Zeitschriftenaufsatz | Veröffentlicht | Englisch
 
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Autor*in
Daelman, Matthijs R. J.; Sorokin, Dimitry; Kruse, OlafUniBi ; van Loosdrecht, Mark C. M.; Strous, Marc
Abstract / Bemerkung
Microalgal biomass can be converted to biofuels to replace nonsustainable fossil fuels, but the widespread use of microalgal biofuels remains hampered by the high energetic and monetary costs related to carbon dioxide supply and downstream processing. Growing microalgae in mixed culture biofilms reduces energy demands for mixing, maintaining axenic conditions, and biomass concentration. Furthermore, maintaining a high pH improves carbon dioxide absorption rates and inorganic carbon solubility, thus overcoming the carbon limitation and increasing the volumetric productivity of the microalgal biomass. Digesting the microalgal biomass anaerobically at high pH results in biogas that is enriched in methane, while the dissolved carbon dioxide is recycled to the phototrophic reactor. All of the required haloalkaline conversions are known in nature.
Erscheinungsjahr
2016
Zeitschriftentitel
TRENDS IN BIOTECHNOLOGY
Band
34
Ausgabe
6
Seite(n)
450-457
ISSN
0167-7799
Page URI
https://pub.uni-bielefeld.de/record/2904539

Zitieren

Daelman MRJ, Sorokin D, Kruse O, van Loosdrecht MCM, Strous M. Haloalkaline Bioconversions for Methane Production from Microalgae Grown on Sunlight. TRENDS IN BIOTECHNOLOGY. 2016;34(6):450-457.
Daelman, M. R. J., Sorokin, D., Kruse, O., van Loosdrecht, M. C. M., & Strous, M. (2016). Haloalkaline Bioconversions for Methane Production from Microalgae Grown on Sunlight. TRENDS IN BIOTECHNOLOGY, 34(6), 450-457. https://doi.org/10.1016/j.tibtech.2016.02.008
Daelman, Matthijs R. J., Sorokin, Dimitry, Kruse, Olaf, van Loosdrecht, Mark C. M., and Strous, Marc. 2016. “Haloalkaline Bioconversions for Methane Production from Microalgae Grown on Sunlight”. TRENDS IN BIOTECHNOLOGY 34 (6): 450-457.
Daelman, M. R. J., Sorokin, D., Kruse, O., van Loosdrecht, M. C. M., and Strous, M. (2016). Haloalkaline Bioconversions for Methane Production from Microalgae Grown on Sunlight. TRENDS IN BIOTECHNOLOGY 34, 450-457.
Daelman, M.R.J., et al., 2016. Haloalkaline Bioconversions for Methane Production from Microalgae Grown on Sunlight. TRENDS IN BIOTECHNOLOGY, 34(6), p 450-457.
M.R.J. Daelman, et al., “Haloalkaline Bioconversions for Methane Production from Microalgae Grown on Sunlight”, TRENDS IN BIOTECHNOLOGY, vol. 34, 2016, pp. 450-457.
Daelman, M.R.J., Sorokin, D., Kruse, O., van Loosdrecht, M.C.M., Strous, M.: Haloalkaline Bioconversions for Methane Production from Microalgae Grown on Sunlight. TRENDS IN BIOTECHNOLOGY. 34, 450-457 (2016).
Daelman, Matthijs R. J., Sorokin, Dimitry, Kruse, Olaf, van Loosdrecht, Mark C. M., and Strous, Marc. “Haloalkaline Bioconversions for Methane Production from Microalgae Grown on Sunlight”. TRENDS IN BIOTECHNOLOGY 34.6 (2016): 450-457.

3 Zitationen in Europe PMC

Daten bereitgestellt von Europe PubMed Central.

Direct capture and conversion of CO2 from air by growing a cyanobacterial consortium at pH up to 11.2.
Ataeian M, Liu Y, Canon-Rubio KA, Nightingale M, Strous M, Vadlamani A., Biotechnol Bioeng 116(7), 2019
PMID: 30906982
Robust, high-productivity phototrophic carbon capture at high pH and alkalinity using natural microbial communities.
Sharp CE, Urschel S, Dong X, Brady AL, Slater GF, Strous M., Biotechnol Biofuels 10(), 2017
PMID: 28367229
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