天然和合成沸石材料在废弃矿区土壤改良剂中的应用

S. Giannatou, C. Vasilatos, I. Mitsis, N. Koukouzas
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引用次数: 4

摘要

本文的目的是评价天然和合成沸石材料作为土壤改良剂在污染土壤中的效果。以希腊萨摩斯岛的斜沸石和丝光沸石两种天然沸石作为低成本的改性剂(改进剂)。这两种材料都显示出完美的x射线衍射模式。此外,利用Meliti电厂(Florina, Greece)静电除尘器产生的煤粉煤灰(CFA),经1M NaOH碱性水热处理后,用于合成沸石材料。采用x射线衍射仪(XRD)和扫描电镜(SEM)对天然沸石和合成沸石的矿物组成进行了测试和鉴定。修正后的土壤与来自Lavrion前矿区的原始污染土壤混合并平衡1周,水合达到其持水量的40%。平衡后,采用盆栽试验研究了亚历山大三叶草在改良土和原状土中的生长情况。改性剂对处理后土壤pH值的提高,证实了其缓冲作用,表明了沸石材料对硫化物矿区污染酸性土壤进行调节和修复的可能性。改良土壤的CEC值高于未改良土壤。结果表明,在所测试的改进剂中,以Meliti电厂粉煤灰为原料制备的合成沸石对植物生长最有效。在来自萨摩斯岛的天然沸石材料中,效率最高的是富含斜沸石的沸石,可能是因为它比丝光沸石具有更好的持水能力。
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Utilization of natural and synthetic zeolitic materials as soil amendments in abandoned mine sites
The aim of this paper is to evaluate the effects of natural and synthetic zeolitic materials as soil amendments in contaminated soils. Two species of natural zeolites, clinoptilolite and mordenite, sampled from Samos Island, Greece, were used as low-cost modifiers (amendments). Both of these materials show perfect XRD-patterns. Moreover, coal fly ash (CFA) derived from the electrostatic precipitators of the Meliti power plant (Florina, Greece) converted via an alkaline hydrothermal treatment with 1M NaOH was used to produce a synthetic zeolitic material. The mineralogical composition of natural and synthetic zeolites was tested and identified by X-ray diffraction (XRD) and scanning electron microscope (SEM). The amendments and original contaminated soils from a former mining area of Lavrion, were mixed and equilibrated for 1 week, hydrated up to 40% of their water holding capacity. After the equilibration, the growth of Trifolium alexandrinum both in amended and original soils was studied in a pot experiment. The increase in pH value of treated soil by the tested amendments, confirmed the buffering effect and suggested the opportunity of using zeolitic materials for conditioning and remedying contaminated acidic soils from sulphidic mining areas. Moreover, the amended soils exhibited higher CEC values compared with unamended soil. Results showed that the synthetic zeolite produced by Meliti’s power station fly ash, was the most effective for plant growth, among the tested amendments. Between natural zeolitic materials from Samos Island, the most efficient was the clinoptilolite rich, probably because of its better water holding capacity compared with mordenite.
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