Page 198 - Refining Biomass Residues for Sustainable Energy and Bioproducts
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al. Champagne (2016) (2016) (2016) al.
et and and and et
Reference Goncalves (2016) and Ge (2016) AlMomani Ormeci AlMomani Ormeci AlMomani Ormeci Sepulveda ´ (2015)
streams. Biomass productivity (mg/L/day) 35.9 47 96.8 57.6 60.6 420
waste
plants phosphorus (mg/L) (96.2% removal) 85.8 (91.4% removal) (34.8% 10.0 removal) (5.7% 26.0 removal) 200.0 (50.0% removal) 25.1 TP removal)
treatment Initial content 10 TP: PO 4 -P: TP: TP: TP: PO 4 -P: (80%
and (mg/ removal) removal) removal) removal)
centrate content removal) removal) (89.4% removal) (71.7% TN
in nitrogen (100% (85.9% 464.8 (60.7% (9.9% (67.5% (33.3% 130.0 (60.0% 334.0 (24%
growing Initial 45 TN: 478.7 TN: NH 3 -N: removal) 14.0 NO 3 -N: 40.8 NH 3 -N: 0.2 NO 3 -N: 44.0 NH 3 -N: 18.0 NO 3 -N: NH 3 -N: removal) 6.5 NO 3 -N: NH 3 -N: 4.6 NO 3 -N: removal)
microalgae L) C: a
by secondary- in wastewater a with with 2.3:2.4:1 C:N:P from digestate in
nutrients medium medium a effluent 36.2% at effluent 24.2:4.1:1 effluent of a with 4.4:1:1.5 of obtained 50% at NH 3 -N, Nitrogen from ammonia; NO 3 -N, nitrogen from nitrates; PO 4 -P, phosphorus from phosphates; TN, total nitrogen; TP, total phosphorus.
of Culture description Synthetic mimicking treated Centrate secondary effluent Primary of N:P Secondary C:N:P Centrate ratio Centrate filtering diluted seawater
uptake
total of culture
and consortium
content and asburiae microalgae gaditana
Initial vulgaris oleoabundans indigenous
7.5 Microalgae bacteria Chlorella Enterobacter vulgaris vulgaris Nannochloropsis
Table Species C. C. Neochloris Mixed
