0000000000736828

AUTHOR

Anna Mikola

0000-0002-1629-9276

showing 3 related works from this author

Bioflocculation of Euglena gracilis via direct application of fungal filaments: a rapid harvesting method

2021

Funding Information: Special thanks to the US Agricultural Research Service for the provision of fungal strains. Thanks also to Dr Marilyn Wiebe (Technical Research Centre of Finland) for her expert advice on fungi and Johanna Oja for her technical help. This research was enabled by funding from The Land and Water Technology Foundation, The Finnish Cultural Foundation, and The Finnish Foundation for Technology Promotion. Publisher Copyright: © 2021, The Author(s). The high cost and environmental impact of traditional microalgal harvesting methods limit commercialization of microalgal biomass. Fungal bioflocculation of microalgae is a promising low-cost, eco-friendly method but the range of …

FlocculationEuglena gracilisFilamentous fungifungal pelletizationved/biology.organism_classification_rank.speciesBiomassPlant ScienceAquatic ScienceleväthiutaleetmenetelmätPenicillium restrictumAlgaeSettlingDry weightBioflocculationEuglena gracilisFungal pelletizationMicroalgal harvestingmicroalgal harvestingbiologyChemistryved/biologyfilamentous fungibiofocculationmikrolevätPulp and paper industrybiology.organism_classificationhiutaloituminenkustannuksetsadonkorjuuympäristövaikutuksetPleurotus ostreatus
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Particle balance and return loops for microplastics in a tertiary-level wastewater treatment plant.

2021

Highlights: Dewatering by centrifugation was a step that removed a high number of MPs from the sludge. Sludge retained especially the fibrous microplactics. Reject water transported microplastics inside a wastewater treatment plant. Disc filter-based tertiary treatment ensured removal of 99% of microplastics in wastewater. Microplastics (MPs) from households, stormwater, and various industries are transported to wastewater treatment plants (WWTPs), where a high proportion of them are captured before discharging their residuals to watersheds. Although recent studies have indicated that the removed MPs are mainly retained in wastewater sludge, sludge treatment processes have gained less atten…

wastewater sludgeMicroplastics0208 environmental biotechnologySewage02 engineering and technology010501 environmental sciencesWastewater01 natural sciencesEnvironmental technology. Sanitary engineeringWaste Disposal Fluidenzymatic purificationREMOVALTD1-1066FinlandWater Science and Technologymikromuovisewage sludgeSewagePulp and paper industry6. Clean waterparticle balancewastewater treatmentWastewaterSewage treatmentPlasticsMicroplasticsEnvironmental EngineeringmicroplasticsSEWAGE-SLUDGEFATEjätevesilietereturn loopWater Purificationreject waterEffluentwastewater treatment plant0105 earth and related environmental sciencesjäteveden käsittelyjätevedenpuhdistamotvedenpuhdistusIDENTIFICATIONbusiness.industryremoval020801 environmental engineeringmikroroskatmuoviSewage sludge treatmentEnvironmental scienceidentificationbusinessSludgeWater Pollutants ChemicalWaste disposalWater science and technology : a journal of the International Association on Water Pollution Research
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Original data for article: Particle balance and return loops for microplastics in a tertiary-level wastewater treatment plant

2020

Microplastics (MPs) from households, stormwaters and various industries are transported to wastewater treatment plants (WWTPs) where a high proportion of them are captured before discharging their residuals to watersheds. Although recent studies have indicated that the removed MPs are mainly retained in wastewater sludge, sludge treatment processes have gained less attention in MP research compared to water streams at primary, secondary and tertiary treatments. In this study, we sampled twelve different phases in a tertiary-level municipal WWTP in Central Finland. Our results showed that compared to plant influent load, three times higher number of MPs was circulating via reject water from …

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