Heavy Metals Leachability In Fly Ash Remediated Soil
This study focused on recycling fly ash, a by-product of power plants, to stabilize heavy metals in contaminated soil. Fly ash collected from the Sejingkat power plant in Kuching, Sarawak, was applied to soil from the roadside. The potential risk associated with the application of fly ash on the soi...
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my.unimas.ir.252812020-06-23T03:38:44Z http://ir.unimas.my/id/eprint/25281/ Heavy Metals Leachability In Fly Ash Remediated Soil Hollena, Anak Nori Rafeah, binti Wahi Kanakaraju, A/P Devagi Dayang Norfadzila, Binti Awang Johari QD Chemistry This study focused on recycling fly ash, a by-product of power plants, to stabilize heavy metals in contaminated soil. Fly ash collected from the Sejingkat power plant in Kuching, Sarawak, was applied to soil from the roadside. The potential risk associated with the application of fly ash on the soil was assessed in terms of heavy metal concentration in leaching experiments. Deionized water and acidified water (deionized water acidified to pH 4.0 with nitric acid) were used as leaching agents and and passed through columns filled with untreated soil and soil-fly ash mixture (9:1). The Cd, Zn, Ni, Mn, Cu and Fe content in leachates were asessed at Day 0, 5, 10 and 15 after stabilization. Leacheate from the soil-fly ash mixture with acidified water had low pH range (4.5-6.2) compared to soil-fly ash mixture with deionized water (5.8-6.2), and this affected the solubility of heavy metals. The concentration of the metals in soil-fly ash mixture with acidified water leacheate was higher than soil-fly ash mixture with deionized water. In contrast, untreated soil did not show any clear pattern of heavy metal reduction except for Ni. Except for Cr, the concentrations of all the tested heavy metals in treated soil decreased with increasing pH as well as electrical conductivity from Day 0 to 15 of contact time. The results suggested that the solubility of heavy metals in soil leacheate was influenced by pH and the type of leaching agent. Therefore, the application of fly ash as a soil remediation agent may be a sustainable option to manage this by-product. Penerbit UMT 2019-04 E-Article PeerReviewed text en http://ir.unimas.my/id/eprint/25281/1/HEAVY%20METALS%20LEACHABILITY%20IN%20FLY%20ASH%20REMEDIATED%20SOIL%20-%20Copy.pdf Hollena, Anak Nori and Rafeah, binti Wahi and Kanakaraju, A/P Devagi and Dayang Norfadzila, Binti Awang Johari (2019) Heavy Metals Leachability In Fly Ash Remediated Soil. Journal of Sustainability Science and Management, 14 (2). pp. 35-45. ISSN 1823-8556 http://jssm.umt.edu.my/?page_id=120 |
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QD Chemistry Hollena, Anak Nori Rafeah, binti Wahi Kanakaraju, A/P Devagi Dayang Norfadzila, Binti Awang Johari Heavy Metals Leachability In Fly Ash Remediated Soil |
| description |
This study focused on recycling fly ash, a by-product of power plants, to stabilize heavy metals in contaminated soil. Fly ash collected from the Sejingkat power plant in Kuching, Sarawak, was applied to soil from the roadside. The potential risk associated with the application of fly ash on the soil was assessed in terms of heavy metal concentration in leaching experiments. Deionized water and acidified water (deionized water acidified to pH 4.0 with nitric acid) were used as leaching agents and and passed through columns filled with untreated soil and soil-fly ash mixture (9:1). The Cd, Zn, Ni, Mn, Cu and Fe content in leachates were asessed at Day 0, 5, 10 and 15 after stabilization. Leacheate from the soil-fly ash mixture with acidified water had low pH range (4.5-6.2) compared to soil-fly ash mixture with deionized water (5.8-6.2), and this affected the solubility of heavy metals. The concentration of the metals in soil-fly ash mixture with acidified water leacheate was higher than soil-fly ash mixture with deionized water. In contrast, untreated soil did not show any clear pattern of heavy metal reduction except for Ni. Except for Cr, the concentrations of all the tested heavy metals in treated soil decreased with increasing pH as well as electrical conductivity from Day 0 to 15 of contact time. The results suggested that the solubility of heavy metals in soil leacheate was influenced by pH and the type of leaching agent. Therefore, the application of fly ash as a soil remediation agent may be a sustainable option to manage this by-product. |
| format |
E-Article |
| author |
Hollena, Anak Nori Rafeah, binti Wahi Kanakaraju, A/P Devagi Dayang Norfadzila, Binti Awang Johari |
| author_facet |
Hollena, Anak Nori Rafeah, binti Wahi Kanakaraju, A/P Devagi Dayang Norfadzila, Binti Awang Johari |
| author_sort |
Hollena, Anak Nori |
| title |
Heavy Metals Leachability In Fly Ash Remediated Soil |
| title_short |
Heavy Metals Leachability In Fly Ash Remediated Soil |
| title_full |
Heavy Metals Leachability In Fly Ash Remediated Soil |
| title_fullStr |
Heavy Metals Leachability In Fly Ash Remediated Soil |
| title_full_unstemmed |
Heavy Metals Leachability In Fly Ash Remediated Soil |
| title_sort |
heavy metals leachability in fly ash remediated soil |
| publisher |
Penerbit UMT |
| publishDate |
2019 |
| url |
http://ir.unimas.my/id/eprint/25281/1/HEAVY%20METALS%20LEACHABILITY%20IN%20FLY%20ASH%20REMEDIATED%20SOIL%20-%20Copy.pdf http://ir.unimas.my/id/eprint/25281/ http://jssm.umt.edu.my/?page_id=120 |
| _version_ |
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