Literature DB >> 20383564

Use of fly ash agglomerates for removal of arsenic.

Izabela Polowczyk1, Anna Bastrzyk, Tomasz Koźlecki, Wojciech Sawiński, Piotr Rudnicki, Adam Sokołowski, Zygmunt Sadowski.   

Abstract

The aim of this work is to investigate the application of fly ash adsorbent for removal of arsenite ions from dilute solution (100-1,000 ppm). Experiments were carried out using material from the "Turów" (Poland) brown-coal-burning power plant, which was wetted, then mixed and tumbled in a granulator to form spherical agglomerates. Measurements of arsenic adsorption from aqueous solution were carried out at room temperature and natural pH of fly ash agglomerates, in either a shaken flask or circulating column, to compare two different methods of contacting solution with adsorbent. Adsorption isotherms of arsenic were determined for agglomerated material using the Freundlich equation. Kinetic studies indicated that sorption follows a pseudo-second-order model. Preferable method to carry out the process is continuous circulation of arsenite solution through a column.

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Year:  2010        PMID: 20383564     DOI: 10.1007/s10653-010-9306-x

Source DB:  PubMed          Journal:  Environ Geochem Health        ISSN: 0269-4042            Impact factor:   4.609


  15 in total

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Journal:  Chemosphere       Date:  2006-07-26       Impact factor: 7.086

2.  An effective adsorbent developed from municipal solid waste and coal co-combustion ash for As(V) removal from aqueous solution.

Authors:  Yun Fan; Fu-Shen Zhang; Yinan Feng
Journal:  J Hazard Mater       Date:  2008-02-16       Impact factor: 10.588

3.  A SEM and X-ray study for investigation of solidified/stabilized arsenic-iron hydroxide sludge.

Authors:  Tanapon Phenrat; Taha F Marhaba; Manaskorn Rachakornkij
Journal:  J Hazard Mater       Date:  2005-02-14       Impact factor: 10.588

4.  Solidification/stabilisation of arsenic bearing fly ash from the metallurgical industry. Immobilisation mechanism of arsenic.

Authors:  Carlo Vandecasteele; Veroniek Dutré; Daneel Geysen; Guido Wauters
Journal:  Waste Manag       Date:  2002       Impact factor: 7.145

5.  Arsenic immobilization by calcium-arsenic precipitates in lime treated soils.

Authors:  Deok Hyun Moon; Dimitris Dermatas; Nektaria Menounou
Journal:  Sci Total Environ       Date:  2004-09-01       Impact factor: 7.963

6.  Arsenate removal from aqueous solutions using modified red mud.

Authors:  Shuwu Zhang; Changjun Liu; Zhaokun Luan; Xianjia Peng; Haijing Ren; Jun Wang
Journal:  J Hazard Mater       Date:  2007-07-17       Impact factor: 10.588

7.  Onset of cohesion in cement paste.

Authors:  B Jönsson; H Wennerström; A Nonat; B Cabane
Journal:  Langmuir       Date:  2004-08-03       Impact factor: 3.882

8.  Adsorption of arsenic(V) onto fly ash: a speciation-based approach.

Authors:  Jianmin Wang; Tian Wang; Joel G Burken; Charles C Chusuei; Heng Ban; Ken Ladwig; C P Huang
Journal:  Chemosphere       Date:  2008-04-08       Impact factor: 7.086

9.  Copper and cadmium adsorption on pellets made from fired coal fly ash.

Authors:  A Papandreou; C J Stournaras; D Panias
Journal:  J Hazard Mater       Date:  2007-03-12       Impact factor: 10.588

10.  Biosorption of As(III) and As(V) from aqueous solution by macrofungus (Inonotus hispidus) biomass: equilibrium and kinetic studies.

Authors:  Ahmet Sari; Mustafa Tuzen
Journal:  J Hazard Mater       Date:  2008-09-21       Impact factor: 10.588
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  1 in total

1.  Synthetic Iron Oxides for Adsorptive Removal of Arsenic.

Authors:  Izabela Polowczyk; Piotr Cyganowski; Justyna Ulatowska; Wojciech Sawiński; Anna Bastrzyk
Journal:  Water Air Soil Pollut       Date:  2018-06-08       Impact factor: 2.520
  1 in total

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