Optimizacija fermentacijske proizvodnje pha-bioplastike z b. thuringiensis in z glukozo bogatimi hidrolizati: Difference between revisions

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== UVOD ==
== Uvod ==


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== OPTIMIZACIJA FERMENTACIJE ==
== Optimizacija fermentacije ==


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== TERMIČNE IN MEHANIČNE LASTNOSTI POLIMEROV ==
== Termične in mehanske lastnosti polimerov ==


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== ZAKLJUČEK ==
== Zaključek ==


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== VIRI ==
== Viri ==


1. S. Singh, B. Sithole, P. Lekha, K. Permaul, and R. Govinden, “Optimization of cultivation medium and cyclic fed-batch fermentation strategy for enhanced polyhydroxyalkanoate production by Bacillus thuringiensis using a glucose-rich hydrolyzate,” Bioresour. Bioprocess., vol. 8, no. 1, 2021.
1. S. Singh, B. Sithole, P. Lekha, K. Permaul, and R. Govinden, “Optimization of cultivation medium and cyclic fed-batch fermentation strategy for enhanced polyhydroxyalkanoate production by Bacillus thuringiensis using a glucose-rich hydrolyzate,” Bioresour. Bioprocess., vol. 8, no. 1, 2021.

Latest revision as of 09:08, 18 April 2021

Uvod

WIP

Optimizacija fermentacije

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Termične in mehanske lastnosti polimerov

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Zaključek

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Viri

1. S. Singh, B. Sithole, P. Lekha, K. Permaul, and R. Govinden, “Optimization of cultivation medium and cyclic fed-batch fermentation strategy for enhanced polyhydroxyalkanoate production by Bacillus thuringiensis using a glucose-rich hydrolyzate,” Bioresour. Bioprocess., vol. 8, no. 1, 2021.

2. A. Neelamegam, H. Al-Battashi, S. Al-Bahry, and S. Nallusamy, “Biorefinery production of poly-3-hydroxybutyrate using waste office paper hydrolysate as feedstock for microbial fermentation,” J. Biotechnol., vol. 265, no. September 2017, pp. 25–30, 2018.

3. S. Singh, B. Sithole, P. Lekha, K. Permaul, and R. Govinden, “Pretreatment and enzymatic saccharification of sludge from a prehydrolysis kraft and kraft pulping mill,” J. Wood Chem. Technol., pp. 10–24, 2021.