Optimizing biomethane production from anaerobic degradation of Scenedesmus spp. biomass harvested from algae-based swine digestate treatment

Perazzoli, Simone; Bruchez, Bruna M.; Michelon, William; Steinmetz, R. L. R.; Mezzari, Melissa P.; Nunes, Estela de Oliveira; Silva, Marcio L. B. Da

doi:10.1016/j.ibiod.2015.12.027

Cited by 55 publications

(14 citation statements)

References 41 publications

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“…Perazzoli et al studied Scenedesmus sp. in a nutrient rich medium and estimated 57% of protein content which reduced to 23–27% when studied in nutrient free medium . Further, Scenedesmus almeriensis was grown in photoautotrophic continuous culture condition and showed 45–50% (w/w) protein in the cultured strain .…”

Section: Resultsmentioning

confidence: 99%

Biochemical characterization of microalgae collected from north east region of India advancing towards the algae‐based commercial production

Ghosh

Khanra

Mondal

et al. 2017

Asia-Pacific J Chem Eng

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Selection of suitable strain of microalgae is the crucial factor for large-scale production of algae-based products. Efforts have been made here for isolation, identification and biochemical characterization of five microalgae strains collected from Tripura (a small state in north-eastern region of India). Two Chlorococcum sp. (NITAAP008 and NITAAP019) demonstrate their high lipid (15-24%), equal amounts of carbohydrate and protein (35-40%), with specific growth rate of 0.13 day À1 . These strains are potential resource for biofuel production. After lipid extraction, remaining biomass can be used as source of carbohydrate for the production of other biofuels. One isolated strain is identified as Chlorella sp. (NITAAP009) and shows 22-33% carbohydrate, 41-50% protein and 5% chlorophyll with specific growth rate of 0.125 day À1 . Another Chlorella sp. (NITAAP011) isolated from lake area exhibits significant chlorophyll (5-6.4%), 30-50% carbohydrate, 48-60% protein and low lipid (1-10%) with lower specific growth rate (0.10 day À1 ). Both strains are having industrial competence for chlorophyll production due to their synthesizing ability of significant amount of chlorophyll (5-6.4%). The last one, Korshikoviella sp. (NITAAP017), has 15-18% lipid, 22-34% carbohydrate, 30-43% protein and 3-4% chlorophyll with specific growth rate of 0.12 day À1 and can be used for food supplement production or lipid synthesis.

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Section: Resultsmentioning

confidence: 99%

Biochemical characterization of microalgae collected from north east region of India advancing towards the algae‐based commercial production

Ghosh

Khanra

Mondal

et al. 2017

Asia-Pacific J Chem Eng

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“…Feedstocks such as food waste or lignocellulosic biomass [2,3] have been studied as substrates for anaerobic digestion. One recent development is the use of microalgae, both as a way to recover nutrients from wastewater effluents and as a feedstock for biogas production through anaerobic 3 digestion [4] since previous studies reported that microalgae biomethanization is an economically feasible approach when their cell lipid content is lower than 40% [5]. Microalgae exhibit several characteristics that make them a promising biomass resource such as a high photosynthetic efficiency, a growth rate of 20-30 fold higher than energy crops and no direct competition with food production since microalgae could be grown on non-arable land [6].…”

Section: Introductionmentioning

confidence: 99%

“…Alternatively, hydrolytic activity can be increased by carrying out the anaerobic digestion under thermophilic conditions since thermophilic microbial populations exhibits higher enzymatic activity [11], although the thermophilic process is more prone to instability than the mesophilic one due to inhibition by free ammonia [12], especially when substrates with high protein content such as 4 microalgae are digested [13].…”

Section: Introductionmentioning

confidence: 99%

Microbial community characterization during anaerobic digestion of Scenedesmus spp. under mesophilic and thermophilic conditions

et al. 2017

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ElsevierGreses-Huerta, S.; Gaby, JC.; Aguado García, D.;Ferrer, J.; Seco Torrecillas, A.; Horn, SJ. (2017). Microbial community characterization during anaerobic digestion of Scenedesmus spp. under mesophilic and thermophilic conditions. AbstractMicrobial communities were thoroughly characterized in a mesophilic anaerobic membrane bioreactor (AnMBR) and a thermophilic continuous stirred tank reactor (CSTR), which were both treating recalcitrant microalgal biomass dominated by Scenedesmus. 16S rRNA amplicon sequencing analysis was performed when the AnMBR achieved 70% algal biodegradation and revealed high microbial diversity, probably due to the high solid retention time (SRT) of the AnMBR configuration. The bacterial community consisted of Chloroflexi (27.9%), WWE1 (19.0%) and Proteobacteria (15.4%) as the major phyla, followed by Spirochaetes (7.7%), Bacteroidetes 2 (5.9%) and Firmicutes (3.6%). These phyla are known to exhibit proteolytic and cellulolytic capabilities required to degrade the Scenedesmus cell-wall. Methanosaeta was the most abundant methanogen detected in the AnMBR suggesting that methane was mainly produced by the acetoclastic pathway. In comparison, the thermophilic CSTR achieved 32.6% algal biodegradation, and its bacterial community had fewer Operational Taxonomic Units (977 OTUs) than the AnMBR (1396 OTUs), as is generally observed for high temperature biogas reactors. However, phyla with high hydrolytic potential were detected such as Firmicutes (34.6%) and the candidate taxon EM3 (38.7%) in the thermophilic CSTR. Although the functional metabolism of EM3 in anaerobic digesters is unknown, the high abundance of EM3 suggests that this taxon plays an important role in the thermophilic, anaerobic degradation of Scenedesmus. The abundant syntrophic bacteria and the detection of hydrogenotrophic methanogens in the thermophilic CSTR suggest that the hydrogenotrophic pathway was the dominant pathway for methane production in this reactor.

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“…Furthermore, the obtained values were significantly higher than that for previously reported for Chlorella pyrenoidosa (TMP = 190.41 mL g −1 VS) 35 , Spirulina platensis (SMP = 278–305 mL g −1 VS) 36 , Scenedesmus spp. (TMP = 400 mL g −1 VS) 37 , and Chlamydomonas reinhardtii (TMP = 549 mL g −1 VS) 38 . Values for both SMP and TMP at each IONPs concentration advocates enhancement in methane potential.…”

Section: Resultsmentioning

confidence: 99%

New insights on improved growth and biogas production potential of Chlorella pyrenoidosa through intermittent iron oxide nanoparticle supplementation

Rana

Bhushan

Prajapati

2020

Sci Rep

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In the present work, the effect of α-Fe 2 O 3 -nanoparticles (IONPs) supplementation at varying doses (0, 10, 20 and, 30 mg L −1 ) at the intermittent stage (after 12th day of growth period) was studied on the growth and biogas production potential of Chlorella pyrenoidosa . Significant enhancements in microalgae growth were observed with all the tested IONPs doses, the highest (2.94 ± 0.01 g L −1 ) being at 20 mg L −1 . Consequently, the composition of the biomass was also improved. Based on the precedent determinations, theoretical chemical oxygen demand (COD th ) as well as theoretical and stoichiometric methane potential (TMP, and SMP) were also estimated. The COD th , TMP, SMP values indicated IONPs efficacy for improving biogas productivity. Further, the biochemical methane potential (BMP) test was done for IONPs supplemented biomass. The BMP test revealed up to a 25.14% rise in biogas yield (605 mL g –1 VS fed ) with 22.4% enhanced methane content for 30 mg L −1 IONPs supplemented biomass over control. Overall, at 30 mg L −1 IONPs supplementation, the cumulative enhancements in biomass, biogas, and methane content proffered a net rise of 98.63% in biomethane potential (≈ 2.86 × 10 4 m 3 ha −1 year −1 ) compared to control. These findings reveal the potential of IONPs in improving microalgal biogas production.

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Optimizing biomethane production from anaerobic degradation of Scenedesmus spp. biomass harvested from algae-based swine digestate treatment

Cited by 55 publications

References 41 publications

Biochemical characterization of microalgae collected from north east region of India advancing towards the algae‐based commercial production

Biochemical characterization of microalgae collected from north east region of India advancing towards the algae‐based commercial production

Microbial community characterization during anaerobic digestion of Scenedesmus spp. under mesophilic and thermophilic conditions

New insights on improved growth and biogas production potential of Chlorella pyrenoidosa through intermittent iron oxide nanoparticle supplementation

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