Chlorella vulgaris broth harvesting via standalone forward osmosis using seawater draw solution

Microalgae biomass gains interests for its promising sustainability as feed-stock in biofuels production. However, high-energy cost for biomass cultivation and harvesting must substantially be reduced to enhance its viability. This study evaluates the application of standalone forward osmosis (FO) a...

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Bibliographic Details
Published in:Bioresource technology reports 2020-02, Vol.9, p.100394, Article 100394
Main Authors: Nawi, Normi Izati Mat, Arifin, Siti Nor Hidayah M., Hizam, Shafiq M., Rampun, Erdina Lulu Atika, Bilad, Muhammad Roil, Elma, Muthia, Khan, Asim Laeeq, Wibisono, Yusuf, Jaafar, Juhana
Format: Article
Language:English
Subjects:
Chlorella vulgaris
Forward osmosis
Low energy foot-print
Membrane fouling
Microalgae harvesting
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Summary:Microalgae biomass gains interests for its promising sustainability as feed-stock in biofuels production. However, high-energy cost for biomass cultivation and harvesting must substantially be reduced to enhance its viability. This study evaluates the application of standalone forward osmosis (FO) and aeration as fouling control for Chlorella vulgaris dewatering using seawater as draw solution (DS). Overall results reveal the feasibility of using seawater as DS and aeration for membrane fouling control. Application of seawater as the DS offers desirable performance as it produces high water fluxes (>6 L/m2 h) at volumetric concentration factors of up to 6×. The air bubbling significantly increases the flux even at low rates by up to 67%. The proposed system is suitable for handling freshwater microalgae, especially when farmed near the seashore. Technoeconomic analyses and implementation optimization of proposed study are important to gauge its true potential and feasibility, thus will be subjected to future study. [Display omitted] •A standalone forward osmosis is applied for microalgae dewatering.•Seawater and aeration were used as draw solution and fouling control.•The system offers high fluxes of 17–20 Lm−2 h−1.•Aeration is effective to enhance the water flux even at low rate.•The system is attractive when the microalgae are farmed near seashore.
ISSN:2589-014X
2589-014X
DOI:10.1016/j.biteb.2020.100394