Chlorella vulgaris in wastewater treatment processes – practical experience

Вовк, Леся; Matsiyevska, Oksana; Zhdanov, Oleh

doi:10.23939/jtbp2020.02.021

Cited by 2 publications

(2 citation statements)

References 18 publications

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“…According to that table, TSS increased in both treatments. In field applications, Vovk et al (2020) [22] used C. vulgaris in a WWTP system in Ukraine. The results showed TSS removal efficiencies of 93.57-96.84% at 14 and 30 days after microalgae inoculation.…”

Section: Changes In Wastewater Characteristicsmentioning

confidence: 99%

CO₂ Uptake and Domestic Wastewater Treatment by Chlorella vulgaris

Manusiwa,

Purwono,

Nugroho

2024

IOP Conf. Ser.: Earth Environ. Sci.

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Various anthropogenic activities worsen climate conditions and cause water scarcity. As result, many studies have been conducted using microalgae to address these problems. Chlorella vulgaris is known to thrive in different type of environmental condition, making it beneficial for utilization. The objectives of this research were to combine the use of domestic wastewater (DWW) while at the same time inject CO2 in order to analyze C. vulgaris’ ability to perform CO2 uptake and wastewater treatment. Industrial CO2 gas cylinder was used to supply CO2 into the airlift photobioreactor (PBR) containing 40% and 60% DWW. C. vulgaris was inoculated into the biosystem and cultivated for 7 days. The results show that C. vulgaris can grow under high CO2 supply conditions and used DWW as a nutrient source. The efficiency of pollutant absorption, such as ammonia, phosphate, MBAS ranges from 82.28% to 98.91%. However, its productivity is still low, and the organic matter (BOD and COD) treatment in DWW is not yet optimal.

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Section: Changes In Wastewater Characteristicsmentioning

confidence: 99%

CO₂ Uptake and Domestic Wastewater Treatment by Chlorella vulgaris

Manusiwa,

Purwono,

Nugroho

2024

IOP Conf. Ser.: Earth Environ. Sci.

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“…Analysis of selected parameters was carried out in various studies utilizing Chlorella vulgaris, and results revealed a high removal percentage efficiency for every WWT quality 2016) observed an 88%, 82%, and 54% reduction in BOD, N, and P, respectively. Experimental research of Chlorella vulgaris usage in WWT processes was also performed by Vovk et al (2020), wherein the effect of treatment varied for BOD (95.67%), COD (83.73%), ammonium nitrogen concentration (95.93%), phosphates (96.92%), and suspended solids (96.84%) reduction efficiency within the 10.5° to 20°C temperature range of wastewater. Lastly, an analysis of all selected parameters carried out by Ahmad et al, (2014) results in a maximum reduction percentage of almost 100%; for BOD (100%), COD (99.9%), NO3…”

Section: Industrial Originsmentioning

confidence: 99%

Bioremediation by Chlorella vulgaris: Potentials for Treatment of Municipal, Agricultural, and Industrial Wastewater Sources

Alberca¹,

Arbilo²,

Panaglima³

et al. 2023

Preprint

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Developing countries such as the Philippines suffer from a lack of policy development and implementation on wastewater treatment and discharge. Chlorella vulgaris is a microscopic green algae that has been employed in other countries for WWT due to its ability to simultaneously reduce pollutants and produce valuable biomass. However, challenges in technology adaptation such as differential efficiency depending on the location and wastewater types were encountered. Three liquid wastes of different origins—municipal (public market), agricultural (piggery effluent), and industrial (meat processing plant) wastewaters, were used to gauge the remediation potentials of C. vulgaris in a simple photobioreactor setup. Treated samples from municipal, agricultural, and industrial wastewaters showed microalgal growth rates of 0.2685, 0.1527, and 0.1809, respectively, along the 6-day treatment period. Post-intervention comparisons of treated vs. untreated samples revealed a lower electrical conductivity, total dissolved solids, chemical oxygen demand, nutrients (nitrate, ammonia, phosphate), and fecal coliform (MPN/100 mL) on treated samples. Moreover, all treated samples demonstrated relatively higher dissolved oxygen concentrations, denoting the photosynthetic activity by the microalgae. Therefore, Chlorella vulgaris could be harnessed for the remediation of different wastewaters in Nagcarlan, Laguna, Philippines to circumvent issues in water reclamation and degradation.

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Chlorella vulgaris in wastewater treatment processes – practical experience

Cited by 2 publications

References 18 publications

CO₂ Uptake and Domestic Wastewater Treatment by Chlorella vulgaris

CO₂ Uptake and Domestic Wastewater Treatment by Chlorella vulgaris

Bioremediation by Chlorella vulgaris: Potentials for Treatment of Municipal, Agricultural, and Industrial Wastewater Sources

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Chlorella vulgaris in wastewater treatment processes – practical experience

Cited by 2 publications

References 18 publications

CO2 Uptake and Domestic Wastewater Treatment by Chlorella vulgaris

CO2 Uptake and Domestic Wastewater Treatment by Chlorella vulgaris

Bioremediation by Chlorella vulgaris: Potentials for Treatment of Municipal, Agricultural, and Industrial Wastewater Sources

Contact Info

Product

Resources

About

CO₂ Uptake and Domestic Wastewater Treatment by Chlorella vulgaris

CO₂ Uptake and Domestic Wastewater Treatment by Chlorella vulgaris