Optimization of Hydraulic Retention Time and Biomass Concentration in Microalgae Biomass Production from Treated Sewage with a Membrane Photobioreactor

Honda, Ryo; Teraoka, Yuta; Noguchi, Midori; Yang, Sen

doi:10.2965/jwet.15-085

Cited by 25 publications

(8 citation statements)

References 26 publications

(36 reference statements)

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“…Light restriction is one of the possible reasons which could inhibit the microalgal growth. However, it was negligible in this case since the SS concentrations in this research were lower than other reports using various types of photobioreactors [6,12,13]. Another factor could be carbon dioxide concentration in the aeration.…”

Section: Suspended Solids Microalgae Population and Chlorophyll A Ccontrasting

confidence: 43%

“…Another factor could be carbon dioxide concentration in the aeration. In the research by Honda et al [6], they used the same light source but higher CO 2 concentration (1%) since their target was aeration tank in sewage treatment process. Although the N and P concentrations were higher in diluted SADS than general municipal wastewater, some nutrients not measured might be at insufficient level for microalgal growth.…”

Section: Suspended Solids Microalgae Population and Chlorophyll A Cmentioning

confidence: 99%

“…The introduction of the membrane enables the replacement of cultivating media without washing out the microalgae, obtaining large microalgal retention time. It has been shown that the application of MPBR for growing green microalgae with urban-treated sewage was effective [5,6], although the growth efficiency still did not reach a practical level. Besides, anaerobic digestion supernatant or anaerobic digestion effluent is a by-product which can be obtained from activated sludge in the wastewater treatment process.…”

Section: Introductionmentioning

confidence: 99%

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Utilization of Anaerobic Digestion Supernatant as a Nutrient Source in Microalgal Biomass Production with a Membrane Photobioreactor

Noguchi

Hashimoto

Honda

et al. 2017

J. of Wat. & Envir. Tech.

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The green microalgae Chlorella vulgaris, which is known to accumulate valuable substrates, are one of the promising bio-resources. To achieve the mass cultivation of microalgae, anaerobic digestion supernatant was applied as cultivation media in membrane photobioreactor system. In the experiment, the synthesized anaerobic digestion supernatant mimicked from activated sludge collected from an actual wastewater treatment plant in Ishikawa, Japan, was used as cultivation media. In the point of view of nutrient loading, the diluted digestion supernatant satisfied the level for growth. Especially, N/P ratio was 3.8 with high concentration of P, which was previously reported as limiting factor when treated sewage was used as media. Although the maximum biomass productivity (5.58 mg/L/day) was below the previously reported data with treated sewage, the high P concentration in anaerobic digestion supernatant could be utilized as a "supplement" in media.

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Section: Suspended Solids Microalgae Population and Chlorophyll A Ccontrasting

confidence: 43%

Section: Suspended Solids Microalgae Population and Chlorophyll A Cmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Utilization of Anaerobic Digestion Supernatant as a Nutrient Source in Microalgal Biomass Production with a Membrane Photobioreactor

Noguchi

Hashimoto

Honda

et al. 2017

J. of Wat. & Envir. Tech.

Self Cite

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“…5). Short HRT and higher biomass were achieved by the two-module membrane photobioreactor for sewage treatment [35], but this membrane photobioreactor was difficult to adopt to a scaled-up wastewater process, because it costs much more than simple photobioreactors. In addition, mixed microalgae/ sludge was used to treat pre-treated swine manure at HRT of 10 days [36].…”

Section: Effect Of the Hrt On The Wastewater Treatment Performance Inmentioning

confidence: 99%

Enhanced and Balanced Microalgal Wastewater Treatment (COD, N, and P) by Interval Inoculation of Activated Sludge

Lee¹,

Lee²,

Oh³

et al. 2019

Journal of Microbiology and Biotechnology

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Although chemical oxygen demand (COD) is an important issue for wastewater treatment, COD reduction with microalgae has been less studied compared to nitrogen or phosphorus removal. COD removal is not efficient in conventional wastewater treatment using microalgae, because the algae release organic compounds, thereby finally increasing the COD level. This study focused on enhancing COD removal and meeting the effluent standard for discharge by optimizing sludge inoculation timing, which was an important factor in forming a desirable algae/bacteria consortium for more efficient COD removal and higher biomass productivity. Activated sludge has been added to reduce COD in many studies, but its inoculation was done at the start of cultivation. However, when the sludge was added after 3 days of cultivation, at which point the COD concentration started to increase again, the algal growth and biomass productivity were higher than those of the initial sludge inoculation and control (without sludge). Algal and bacterial cell numbers measured by qPCR were also higher with sludge inoculation at 3 days later. In a semi-continuous cultivation system, a hydraulic retention time of 5 days with sludge inoculation resulted in the highest biomass productivity and N/P removal. This study achieved a further improved COD removal than the conventional microalgal wastewater treatment, by introducing bacteria in activated sludge at optimized timing.

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“…Enhanced nutrient consumption and high microalgae biomass productivity caused by lower HRTs was also observed during continuous cultivation of C. vulgaris in treated sewage in membrane photobioreactors [39,40]. Thus, as no washout effect was observed at HRT 3, this short residence time seems to be suitable to maintain a long-term cultivation and achieve an efficient removal of pollutants, even at large scale outdoors, although the risk of contamination by detrimental microorganisms might increase [41].…”

Section: Influence Of the Hrt On The Performance Of C Vulgaris-rhizobium Sp Co-culture During Wastewater Treatmentmentioning

confidence: 73%

Growth performance and nutrient removal of a Chlorella vulgaris-Rhizobium sp. co-culture during mixotrophic feed-batch cultivation in synthetic wastewater

et al. 2019

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Optimization of Hydraulic Retention Time and Biomass Concentration in Microalgae Biomass Production from Treated Sewage with a Membrane Photobioreactor

Cited by 25 publications

References 26 publications

Utilization of Anaerobic Digestion Supernatant as a Nutrient Source in Microalgal Biomass Production with a Membrane Photobioreactor

Utilization of Anaerobic Digestion Supernatant as a Nutrient Source in Microalgal Biomass Production with a Membrane Photobioreactor

Enhanced and Balanced Microalgal Wastewater Treatment (COD, N, and P) by Interval Inoculation of Activated Sludge

Growth performance and nutrient removal of a Chlorella vulgaris-Rhizobium sp. co-culture during mixotrophic feed-batch cultivation in synthetic wastewater

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