Application of Excess Activated Sludge as Waste Sorbent for Dyes Removal from their Aqueous Solutions

Pieczykolan, B.; Płonka, I.

doi:10.1515/eces-2019-0054

Cited by 2 publications

(2 citation statements)

References 29 publications

(56 reference statements)

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“…The dried sludge showed a maximum adsorption capacity of 0.73 mmol 4-chlorophenol/g at pH 5.0 and 15 • C, while the carbonization process allowed to obtain 1.36 mmol/g. Other researchers used the excess activated sludge from a municipal sewage treatment plant as waste sorbent for dye removal [36]. The different models of sorption isotherm were examined, and the sorption capacity calculated on the Langmuir model was 434.8 mg/g for the dye of Acid Green 16 and 109.9 mg/g for Acid Red 18.…”

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confidence: 99%

Possibilities of Biogas Upgrading on a Bio-Waste Sorbent Derived from Anaerobic Sewage Sludge

et al. 2022

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The development of biogas upgrading technologies is now an essential issue in recovering fuel-grade methane. Nowadays, trends in biogas upgrading include investigations of low-cost and renewable materials as sorbents for biogas enrichment to produce biomethane. Therefore, in this work, wastewater anaerobic sludge stabilized with calcium oxide was used as the bio-waste sorbent to capture carbon dioxide from biogas, employing a fixed bed column. The biogas flow rate was the parameter considered for examining the breakthrough responses. It was observed that breakthrough time decreases with increasing biogas inflow rate from 570 ± 10 min at 5 mL/min to 120 ± 12 min at 35 mL/min. The maximum sorption capacity of 127.22 ± 1.5 mg CO2/g TS of sorbent was estimated at 15 mL/min. Biomethane concentration in biogas increased from 56.5 ± 1.7 v% in the raw biogas to 98.9 ± 0.2 v% with simultaneous low carbon dioxide content of 0.44 ± 0.2 v%. A strong positive correlation (R2 = 0.9919) between the sorption capacity and the biogas flow rate was found in the range of biogas inflow rates between 5 mL/min and 15 mL/min. Moreover, the correlation analysis showed a strong negative relationship (R2 = 0.9868) between breakthrough time and the mass of carbon dioxide removal, and the biogas flow rates ranged from 10 mL/min to 20 mL/min.

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Section: Resultsmentioning

confidence: 99%

Possibilities of Biogas Upgrading on a Bio-Waste Sorbent Derived from Anaerobic Sewage Sludge

et al. 2022

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“…The influence of contact time of sorbent with purified solutions (from 5 to 300 minutes) on the efficiency of removing both dyes was also investigated. In the case of AR 18, the most advantageous contact time of sorbent and dye was 60 minutes, while for AG 16 it was necessary to use it 3 times longer to achieve a state of equilibrium [Pieczykolan and Płonka, 2018].…”

Section: Application Of Adsorption Process For Removal Of Dyes From Aqueous Solutionsmentioning

confidence: 99%

Methods of Dyes Removal from Aqueous Environment

Bożęcka¹,

Orlof-Naturalna²,

Kopeć³

2021

J. Ecol. Eng.

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In this paper, selected methods of dyes removal from water environment were discussed, with particular attention to the adsorption method. A literature review of the latest scientific research on colour impurities removal with the use of various types of adsorbents was presented. The efficiency of the methylene blue removal process, with use of selected natural sorbents and activated carbons, was tested. The competitiveness of natural sorbents was shown. It was confirmed that these materials are efficient in removing coloured compounds from aqueous solutions.

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Application of Excess Activated Sludge as Waste Sorbent for Dyes Removal from their Aqueous Solutions

Cited by 2 publications

References 29 publications

Possibilities of Biogas Upgrading on a Bio-Waste Sorbent Derived from Anaerobic Sewage Sludge

Possibilities of Biogas Upgrading on a Bio-Waste Sorbent Derived from Anaerobic Sewage Sludge

Methods of Dyes Removal from Aqueous Environment

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