Use of Sapropel for Removal of Heavy Metals From Solution / Silicinio Sapropelio Naudojimas Sunkiesiems Metalams Šalinti Iš Tirpalo

Birgėlaitė, Rūta; Valskys, Vaidotas; Ignatavičius, Gytautas

doi:10.3846/mla.2016.946

Cited by 4 publications

(2 citation statements)

References 19 publications

(13 reference statements)

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…Sapropelis pasižymi savybe sorbuoti sunkiuosius metalus iš tirpalo, priklausomai nuo laiko ir sunkiųjų metalų koncentracijos tirpale. Jo efektyvumas pasiekia 97,4 % (Birgėlaitė, Valskys ir Ignatavičius, 2016). Molio paviršiaus plotas taip pat pasižymi geromis sorbcinėmis savybėmis.…”

Section: įVadasunclassified

Švino Šalinimo Iš Vandens Naudojant Alternatyvius Sorbentus Tyrimas

Pavlovska¹,

Albrektienė²,

Paliulis³

2018

Proceedings of the 21th Conference for Junior Researchers „Science – Future of Lithuania“

View full text Add to dashboard Cite

Švinas yra sunkusis metalas, pasižymintis stipriomis toksinėmis savybėmis. Šio elemento randama nuotekose, o kartais ir geriamajame vandenyje. Straipsnyje nagrinėjamas švino šalinimas iš vandens, naudojant sorbcijos procesą, norint nustatyti efektyviausiai šviną šalinantį sorbentą. Tyrime naudoti trys sorbentai: molis, sapropelis ir geležies paplavos. Nustatyta, kad molis šviną pašalina 47–91 % efektyvumu, naudojant sapropelį pasiekiamas 94–99 % švino pašalinimas, o naudojant geležies paplavas švino pašalinimo efektyvumas pasiekiamas – 72–99 %. Atlikti tyrimai parodė, kad efektyviausiai šviną iš tiriamojo vandens šalina sapropelis. Naudojant skirtingas sapropelio kiekius ir esant skirtingai kontako trukmei, švino koncentracija tiriamajame vandenyje po valymo neviršija leistinų geriamojo vandens normų (0,01 mg/l), todėl sorbcijai galima naudoti mažiausią sapropelio kiekį – 1 g/l. Efektyviausias švino išvalymas pasiekiamas, kai kontakto trukmė – 150 min.

show abstract

Section: įVadasunclassified

Švino Šalinimo Iš Vandens Naudojant Alternatyvius Sorbentus Tyrimas

Pavlovska¹,

Albrektienė²,

Paliulis³

2018

Proceedings of the 21th Conference for Junior Researchers „Science – Future of Lithuania“

View full text Add to dashboard Cite

show abstract

“…Depending on sapropel composition, it is categorized into organic (50-90% of organic matter by dry weight), calcareous (30-60% of calcium carbonate), siliceous (25-45% of silicon dioxide) and mixed varieties (Bakšienė, 2006). Sapropel has the property of sorbing heavy metals as much as up to 97.4% from solution, depending on contact time and concentration of heavy metals in the solution (Birgėlaitė et al, 2016). An enhancement of efficiency in removing lead from aqueous solution or groundwater is a crucial point that most of the scientific researchers have been developing.…”

Section: Introductionmentioning

confidence: 99%

Investigation of Lead and Iron Removal from Groundwater Using Sapropel and Quartz Sand

Heang

Albrektienė

Paliulis

2020

The 11th International Conference ENVIRONMENTAL ENGINEERING 11th ICEE SELECTED PAPERS

View full text Add to dashboard Cite

In Prey Nop district of Cambodia, a district in coastal area, it was observed that concentration of iron and lead in groundwater was higher than permissible values. Lead is a highly toxic heavy metal, while iron is an element causing several problems related to the deterioration of taste and aesthetic appearance of water and the capacity reduction of water supply pipelines. Therefore, this article investigates the effectiveness of the technology for removing lead and iron from groundwater using the cheapest materials like sapropel and sand. In this study, different doses of sapropel (0.1, 0.2, 0.4, 0.5, 0.6, 0.8, 1, 2, 3, 4, 5 and 6 g/L), different durations of sorption processes (30, 60, 90, 120 and 150 min) and a laboratory bench for iron filtration filled with quartz sand were used for lead and iron ions removal. Results from the bench tests showed that both iron and lead were removed at efficiencies of 70 and 97%, and their concentrations did not exceed the permissible levels by using the lowest dose of 0.1 g/L of sapropel for sorption of lead and filtration through quartz sand filters for iron removal.

show abstract

Investigation on applying sapropel for removal of heavy metals (cadmium, chromium, copper, and zinc) from aqueous solutions

Albrektienė-Plačakė,

Paliulis

2024

Archives of Environmental Protection

View full text Add to dashboard Cite

Sapropel is a layer of sediment composed of organic and inorganic substances that accumulates at the bottom of lakes. The water of such lakes often have elevated levels of heavy metals such as Cd, Cr, Cu, and Zn, which can pose risks to human health. Sapropel may be used as a biosorbent in removing these heavy metals from aqueous solutions. Various doses of sapropel ranging from 1 to 50 g/L and different mixing times from15 to150 minutes have been tested. The maximum removal efficiencies for Cd (93%), Cr (31%), Cu (84%), and Zn (84%) from aqueous solutions were achieved using the minimum doses of sapropel (50 g/L). The study has shown that mixing sapropel for 15 minutes is sufficient for the removal of Cr, 30 minutes for Cd and Cu, and 60 minutes for Zn.

show abstract

Use of Sapropel for Removal of Heavy Metals From Solution / Silicinio Sapropelio Naudojimas Sunkiesiems Metalams Šalinti Iš Tirpalo

Cited by 4 publications

References 19 publications

Švino Šalinimo Iš Vandens Naudojant Alternatyvius Sorbentus Tyrimas

Švino Šalinimo Iš Vandens Naudojant Alternatyvius Sorbentus Tyrimas

Investigation of Lead and Iron Removal from Groundwater Using Sapropel and Quartz Sand

Investigation on applying sapropel for removal of heavy metals (cadmium, chromium, copper, and zinc) from aqueous solutions

Contact Info

Product

Resources

About