BIOMASSA DAN KADAR PROTEIN DARI SPIRULINA SP. DAN NANNOCHLOROPSIS SP. PADA KULTUR TUNGGAL DAN CAMPURAN DENGAN MEDIA ANAEROBICALLY DIGESTED DAIRY MANURE WASTEWATER (ADDMW) DALAM OPEN RACEWAY POND
Microalgae have been widely considered as a source of protein because of their high protein content. For large-scale microalgae cultivation, synthetic media is not an economical alternative. The use of wastewater for microalgae cultivation is being developed to support sustainable microalgae cult...
Saved in:
| Main Author: | |
|---|---|
| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/68195 |
| Tags: |
Add Tag
No Tags, Be the first to tag this record!
|
| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Microalgae have been widely considered as a source of protein because of their
high protein content. For large-scale microalgae cultivation, synthetic media is not
an economical alternative. The use of wastewater for microalgae cultivation is
being developed to support sustainable microalgae cultivation. Due to the
complexity and variability of wastewater, microalgae cultures used for remediation
purposes are expected to have high stability and resistance. Therefore, in this study,
single and mixed culture microalgae cultivation was carried out for 7 days on
ADDMW waste media which was diluted 25 times with the ratio of microalgae
culture and waste media was 1:4 (v/v) and the ratio of Spirulina sp. and
Nannochloropsis sp. in mixed culture was 1:1 (v/v) to see its effect on cell growth
and biomass, protein production on day 3, and waste remediation. The data taken
during the cultivation process in the open raceway pond were the number of cells
and the weight of the biomass for 7 days of cultivation. Protein content was taken
once during the cultivation process, on the 3rd day, and waste concentration was
taken at the beginning and end of the cultivation process. In biomass production,
the highest values of specific growth rate, biomass yield, and biomass productivity
were produced in the mixed culture variation of Spirulina sp. and Nannochloropsis
sp., which were 3.14 day-1, 3.33 g L-1, and 0.40 g L-1 day-1, respectively. The
highest protein content on day 3 was obtained in a mixed culture variation of 60%,
whereas in a single culture of Spirulina sp. by 44% and single culture of
Nannochloropsis sp. by 40%. Mixed culture had the highest percentage of nitrate
reduction of 74.47%. The culture of Nannochloropsis sp. had the highest
percentage reduction in ammonium, COD, and BOD of 88.29%, 20.01%, and
20.34%, respectively. Culture of Spirulina sp. has the highest percentage of
orthophosphate reduction of 96.42%. The mixed culture was superior based on its
ability to produce biomass and protein, while the culture of Nannochloropsis sp.
superior based on its ability to remediate ADDMW waste.
|
|---|