Immobilization of Cadmium in a Cd-Spiked Soil by Different Kinds of Amendments

Q4 Medicine

Journal of Chemical Health Risks Pub Date : 2015-09-14 DOI:10.22034/JCHR.2015.544110

Mahboub Saffari, N. Karimian, A. Ronaghi, J. Yasrebi, R. Ghasemi-Fasaei

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引用次数: 9

Abstract

Chemical stabilization of heavy metals is one of the soil remediation methods based on the application amendments to reduce mobility of heavy metals. A laboratory study was conducted to investigate the influence of different kinds of amendments on cadmium (Cd) stabilization in a Cd-spiked soil. The amendments were municipal solid waste compost (MSWC), Coal fly ash (CFA), rice husk biochars prepared at 300°C (B300) and 600°C (B600), zero valent iron (Fe 0 ) and zero valent manganese (Mn0). The Cd-spiked soils were separately incubated with selected amendments at the rates of 2 and 5% (W/W) for 90 days at 25 °C. Soil samples were extracted by EDTA for periods of 5 to 975min. In addition, sequential extraction was used as a suitable method for identification of chemical forms of Cd and their plant availability. The addition of amendments to soil had significant effects on desorption and chemical forms of Cd. Changes in Cd fractions and their conversion into less soluble forms were clear in all treated soils. The addition of amendments resulted in a significant reduction in mobility factor of Cd compared to the control treatment. Among all amendments tested, Fe 0 was the most effective treatment in decreasing dynamic of Cd. Biphasic pattern of Cd desorption kinetic was fitted well by the model of two first-order reactions. In general, from the practical point of view, Fe

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不同改良剂对镉在镉污染土壤中的固定化作用

重金属化学稳定是基于应用改良剂降低重金属迁移率的土壤修复方法之一。在室内研究了不同类型的改良剂对镉污染土壤中镉(Cd)稳定的影响。改性物为城市生活垃圾堆肥(MSWC)、粉煤灰(CFA)、300℃(B300)和600℃(B600)制备的稻壳生物炭、零价铁(Fe 0)和零价锰(Mn0)。在25°C条件下，以2%和5% (W/W)的速率分别培养cd加标土壤90天。EDTA提取土壤样品5 ~ 975min。此外，序贯提取是鉴定Cd化学形态及其植物可利用性的一种合适方法。在土壤中添加改良剂对Cd的解吸和化学形态有显著影响。在所有处理过的土壤中，Cd组分的变化及其向较难溶形式的转化都很明显。与对照处理相比，添加改良剂导致Cd的迁移系数显著降低。在所有修正剂中，fe0是降低Cd动力学最有效的处理。两个一级反应模型很好地拟合了Cd脱附动力学的双相模式。总的来说，从实用的角度来看，Fe

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