Sorption properties of fly ash from brown coal burning towards arsenic removal

• Autorzy: Polowczyk I. , Bastrzyk A. , Sawiński W. , Koźlecki T. , Rudnicki P. , Sadowski Z.

Warianty tytułu

PL

Właściwości sorpcyjne popiołów z węgla brunatnego pod kątem usuwania arsenu

• Języki publikacji: EN

Abstrakty

EN

In the present work, the sorptive capacity of fly ash from the combustion of brown coal in relation to arsenic(III) removal from the standard solution as well as the potential application of fly ash in actual wastewater purification have been evaluated.

PL

W tym artykule zbadano pojemność sorpcyjną popiołów lotnych powstających podczas spalania węgla brunatnego w stosunku do arsenu(III) usuwanego z roztworu standardowego oraz zbadano możliwość zastosowania popiołów w oczyszczaniu ścieku rzeczywistego.

Słowa kluczowe

EN

adsorption; arsenic removal; fly ash

PL

adsorpcja; popiół lotny; usuwanie arsenu

• Wydawca: Wydawnictwo Politechniki Krakowskiej im. Tadeusza Kościuszki
• Czasopismo: Czasopismo Techniczne. Chemia
• Rocznik: 2011
• Tom: R. 108, z. 1-Ch
• Strony: 135--142
• Opis fizyczny: Tab., wz., wykr.,Bibliogr. 23 poz.,

Twórcy

autor

Polowczyk I.

autor

Bastrzyk A.

autor

Sawiński W.

autor

Koźlecki T.

autor

Rudnicki P.

autor

Sadowski Z.

• Department of Chemical Engineering, Faculty of Chemistry, Wrocław University of Technology

Bibliografia

• [1] Reijnders L., Disposal, use and treatments of combustion ashes: A review, Resourses, Conservation and Recycling, 43, 2005, 313-336.
• [2] Leist M., Casey D., Caridi D.,The management of arsenic wastes: problems and prospects, J. Hazardous Mat., B67, 2000, 125-138.
• [3] Sari A., Tuzen M., Biosorption of As(III) and As(V) from aqueous solution by macrofungus (Inonotus hispidus) biomass: Equilibrium and kinetic studies, J. Hazardous Mat., 164, 2009, 1372-1378.
• [4] Mohan D., Pittman C.U., Arsenic removal from water/wastewater using adsorbents – A critical review, J. Hazardous Mat., 142, 2007, 1-53.
• [5] Wang J., Wang T., Burken J.G., Chusuei C.C., Ban H., Ladwig K., Adsorption of arsenic(V) onto fy ash: A speciation based approach, Chemosphere, 72, 2008, 381-388.
• [6] Fan Y., Zhang F.-S., Feng Y., An effective adsorbent development from municipal solid waste and coal co-combustion ash for As(V) removal from aqueous solution, J. Hazardous Mat., 159, 2008, 313-318.
• [7] Polowczyk I., Bastrzyk A., Koźlecki T., Rudnicki P., Sawiński W., Sadowski Z., Sokołowski A., Application of fy ash agglomerates in the sorption of arsenic, Polish J. Chem. Technol., 9, 2007, 37-41.
• [8] Polowczyk I., Bastrzyk A., Koźlecki T., Sawiński W., Rudnicki P., Sokołowski A., Sadowski Z., Use of fy ash agglomerates for removal of arsenic, Environ. Geochem. Health, 32, 2010, 361-366.
• [9] Polowczyk I., Bastrzyk A., Sawiński W., Koźlecki T., Rudnicki P., Sokołowski A., Sadowski Z., Właściwości sorpcyjne popiołów za spalania węgla, Inżynieria i Aparatura Chemiczna, 1, 2010, 93-94.
• [10] Vassilev V.V., Vassileva C.G., Methods for characterization of composition of fy ashes from coal-fred power stations: A critical overview, Energy and Fuels, 19, 2005, 1084-1098.
• [11] Hycnar J.J., Factors infuencing physical, chemical and functional properties of solid products from fuidized bed fuels combustion, Katowice, Wydawnictwo Górnicze, 2006.
• [12] Phenrat T., Marhaba T.F., Rachakornkij M., A SEM and X-ray study for investigation of solidifed/stabilized arsenic-iron hydroxide sludge, J. Hazardous Mat., B118, 2005, 185-195.
• [13] Moon D.H., Dermatas D., Menounou N., Arsenic immobilization by calcium-arsenic precipitates in lime treated soils, Science of Total Environment, 330, 2004, 171-185.
• [14] Vandecasteele C., Dutre V., Geysen D., Wauters G., Solidifcation/stabilisation of arsenic bearing fy ash from the metallurgical industry, immobilisation mechanism of arsenic, Waste Management, 22, 2002, 143-146.
• [15] Cho H., Dalyoung O., Kwanho K., A study on removal characteristics of heavy metals from aqueous solution by fy ash, J. Hazardous Mat., B127, 2005, 187-195.
• [16] Aguilar-Corrillo J., Garrido F., Barrios L., Garcia-Gonzalez M.T., Sorption of As, Cd and Tl as infuenced by industrial by-products applied to an acidic soil: Equilibrium and kinetics experiments, Chemosphere, 65, 2006, 2377-2387.
• [17] Lorenzen L., van Deventer J .S. J ., Landi W.M., Minerals Engineering, 8, 1995, 557-569.
• [18] Lim J.-W., Chang Y.-Y., Yang J.-K., Lee S.-M., Adsorption of arsenic on the reused sanding wastes calcinated at different temperatures, J. Colloid Interface Sci. A, 345, 2009, 65-70.
• [19] Deliyanni E.A., Nalbandian L., Matis K.A., Adsorptive removal of arsenites by a nanocrystalline hybrid surfactant-akaganeite sorbent, J. Colloid Interface Sci., 302, 2006, 458-466.
• [20] Ho Y.S., Ng J.C.Y., McKay G., Kinetics of pollutant sorption by biosorbents: Review, Separation and Purifcation Methods, 29(2) (2000) 189-232.
• [21] Rudnicki P., Mioduszewski A., Kowalski Z., Fela K., Technological conception of the treatment of alkaline wastewater collected in the “Górka” reservoir situated in Trzebinia commune area, Polish J. Chem. Technol., 8(2), 2006, 26-33.
• [22] Pattanayak, J., Mondal K., Mathew S., Lalvani S.B., A parametric evolution of the removal of As(V) and As(III) by carbon-based adsorbents, Carbon, 38,2000, 589-596.
• [23] Diamadopoulos E., Ioannidis S., Sakellaropoulos G.P., As(V) removal from aqueous solutions by fy ash, Water Research, 27,1993, 1773-1777.