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AbstractThis paper investigated the
Abstract
This paper investigated the heavy metal adsorption of non-treated (RMnt) and acid-treated red muds (RMa), bauxite ore processing waste, in
order to evaluate how efficient they are in reducing metal solubility and bioavaliability in polluted soils. Red mud samples were artificially polluted
with solutions containing increasing concentrations of Pb, Cd and Zn. Cancrinite and hematite were the main phases of the red muds, and were
also the components which adsorbed most heavy metals. The results showed that the RMnt adsorption capacity for the three heavy metals was
Zn ≥ Pb > Cd. Acid treatment with HCl decreased the red mud’s capacity to adsorb the heavy metals by 30%.
In order to study the different heavy metal–RM interaction mechanisms, all samples after artificial contamination were treated with solutions
with gradually increasing extraction capacity. H2O and Ca(NO3)2 treatments only extracted very low concentrations of Pb, Cd and Zn, while EDTA
treatment extracted the most adsorbed heavy metals from the sorbent particles. In particular the water-soluble and exchangeable metal fractions
were higher in the RMa than they were in the RMnt, while the concentrations of Pb, Cd and Zn extracted with EDTA were lower.
The results showed that red muds can be used successfully to reduce the solubility and bioavailability of heavy metals in polluted soils.
© 2005 Elsevier B.V. All rights reserved.
This paper investigated the heavy metal adsorption of non-treated (RMnt) and acid-treated red muds (RMa), bauxite ore processing waste, in
order to evaluate how efficient they are in reducing metal solubility and bioavaliability in polluted soils. Red mud samples were artificially polluted
with solutions containing increasing concentrations of Pb, Cd and Zn. Cancrinite and hematite were the main phases of the red muds, and were
also the components which adsorbed most heavy metals. The results showed that the RMnt adsorption capacity for the three heavy metals was
Zn ≥ Pb > Cd. Acid treatment with HCl decreased the red mud’s capacity to adsorb the heavy metals by 30%.
In order to study the different heavy metal–RM interaction mechanisms, all samples after artificial contamination were treated with solutions
with gradually increasing extraction capacity. H2O and Ca(NO3)2 treatments only extracted very low concentrations of Pb, Cd and Zn, while EDTA
treatment extracted the most adsorbed heavy metals from the sorbent particles. In particular the water-soluble and exchangeable metal fractions
were higher in the RMa than they were in the RMnt, while the concentrations of Pb, Cd and Zn extracted with EDTA were lower.
The results showed that red muds can be used successfully to reduce the solubility and bioavailability of heavy metals in polluted soils.
© 2005 Elsevier B.V. All rights reserved.
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Tóm tắtBài báo này điều tra hấp phụ kim loại nặng không điều trị (RMnt) và điều trị axít đỏ bùn (RMa), Bô xít quặng xử lý chất thải, trongThứ tự để đánh giá hiệu quả như thế nào mà họ đang có trong việc giảm kim loại hòa tan và bioavaliability trong đất bị ô nhiễm. Bùn đỏ mẫu giả tạo bị ô nhiễmvới các giải pháp có chứa nồng độ ngày càng tăng của Pb, đĩa Cd và Zn. Cancrinite và hematit là giai đoạn chính của bùn đỏ, và đãcòn các thành phần mà adsorbed hầu hết các kim loại nặng. Kết quả cho thấy rằng khả năng hấp phụ RMnt cho các kim loại nặng ba làZn ≥ Pb > Cd. Acid điều trị với HCl giảm khả năng của bùn đỏ adsorb kim loại nặng bởi 30%.Để nghiên cứu cơ chế tương tác kim loại nặng-RM khác nhau, tất cả các mẫu sau khi ô nhiễm nhân tạo đã được điều trị với các giải phápvới dần dần tăng năng lực khai thác. H2O và Ca (NO3) 2 phương pháp điều trị duy nhất được giải nén rất thấp nồng độ Pb, đĩa Cd và Zn, trong khi EDTAđiều trị chiết xuất các kim loại nặng đặt adsorbed từ các hạt sorbent. Đặc biệt, hòa tan trong nước và trao đổi kim loại phân sốđã cao trong RMa hơn họ là trong RMnt, trong khi tập trung của Pb, đĩa Cd và Zn chiết xuất với EDTA đã thấp hơn.Kết quả cho thấy bùn đỏ có thể được sử dụng thành công để giảm độ hòa tan và khả dụng sinh học của kim loại nặng trong đất bị ô nhiễm.© 2005 Elsevier B.V Tất cả các quyền.
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Abstract
This paper investigated the heavy metal adsorption of non-treated (RMnt) and acid-treated red muds (RMa), bauxite ore processing waste, in
order to evaluate how efficient they are in reducing metal solubility and bioavaliability in polluted soils. Red mud samples were artificially polluted
with solutions containing increasing concentrations of Pb, Cd and Zn. Cancrinite and hematite were the main phases of the red muds, and were
also the components which adsorbed most heavy metals. The results showed that the RMnt adsorption capacity for the three heavy metals was
Zn ≥ Pb > Cd. Acid treatment with HCl decreased the red mud’s capacity to adsorb the heavy metals by 30%.
In order to study the different heavy metal–RM interaction mechanisms, all samples after artificial contamination were treated with solutions
with gradually increasing extraction capacity. H2O and Ca(NO3)2 treatments only extracted very low concentrations of Pb, Cd and Zn, while EDTA
treatment extracted the most adsorbed heavy metals from the sorbent particles. In particular the water-soluble and exchangeable metal fractions
were higher in the RMa than they were in the RMnt, while the concentrations of Pb, Cd and Zn extracted with EDTA were lower.
The results showed that red muds can be used successfully to reduce the solubility and bioavailability of heavy metals in polluted soils.
© 2005 Elsevier B.V. All rights reserved.
This paper investigated the heavy metal adsorption of non-treated (RMnt) and acid-treated red muds (RMa), bauxite ore processing waste, in
order to evaluate how efficient they are in reducing metal solubility and bioavaliability in polluted soils. Red mud samples were artificially polluted
with solutions containing increasing concentrations of Pb, Cd and Zn. Cancrinite and hematite were the main phases of the red muds, and were
also the components which adsorbed most heavy metals. The results showed that the RMnt adsorption capacity for the three heavy metals was
Zn ≥ Pb > Cd. Acid treatment with HCl decreased the red mud’s capacity to adsorb the heavy metals by 30%.
In order to study the different heavy metal–RM interaction mechanisms, all samples after artificial contamination were treated with solutions
with gradually increasing extraction capacity. H2O and Ca(NO3)2 treatments only extracted very low concentrations of Pb, Cd and Zn, while EDTA
treatment extracted the most adsorbed heavy metals from the sorbent particles. In particular the water-soluble and exchangeable metal fractions
were higher in the RMa than they were in the RMnt, while the concentrations of Pb, Cd and Zn extracted with EDTA were lower.
The results showed that red muds can be used successfully to reduce the solubility and bioavailability of heavy metals in polluted soils.
© 2005 Elsevier B.V. All rights reserved.
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