排序方式: 共有31条查询结果,搜索用时 31 毫秒
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富含Na+ 、Ca2+、Al3+、Cr3+蒙脱石对垃圾渗滤液中有机物的吸附 总被引:5,自引:2,他引:5
由于层间含有高价态金属阳离子的蒙脱石对特定有机物的吸附能力可大大增强,故分别用层间含有Na+、Ca2+、Al3+和Cr3+的蒙脱石对垃圾渗滤液中的有机物进行吸附实验,研究它们吸附苯酚、二甲苯和COD的能力及离子形态对吸附效果的影响.结果表明,含高价金属阳离子的蒙脱石对苯酚和COD的吸附能力较高,吸附能力由小到大的顺序为Na+<Ca2+<Al3+<Cr3+蒙脱石;各种类型蒙脱石对二甲苯的吸附能力相对较低,并且没有一定的规律可循.并对氢键吸附机制进行了探讨. 相似文献
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Characterization of coal-mine refuse as backfilling material 总被引:1,自引:1,他引:1
Summary With increased production and more stringent regulations for air, water and ground pollution control, the safe and environmentally acceptable disposal of coal-mine refuse is becoming ever more demanding. Backfilling may provide an environmentally acceptable method for the disposal of waste materials. Increased resource recovery, enhanced ventilation control, and minimizing surface subsidence, underground coal-mine fires and spontaneous combustion of coal are potential advantages of backfilling. In this paper the physical and mechanical properties of coal-mine waste from different sites are described and the effects of these properties on the duty requirements of fill material are assessed. As a result of testing, it is concluded that if improving ground control is the only reason for backfilling, coal refuse alone does not appear to be a suitable stowing material. If coal-refuse disposal is also a consideration, then it may be more attractive as a stowing material. 相似文献
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两种废物材料在地下水环境治理中的应用 总被引:2,自引:1,他引:1
实验利用粉煤灰和矿化垃圾两种废物材料作为反应屏障的反应介质用于修复受渗滤液污染的地下水环境。所设计的两个反应器A、B分别填充矿化垃圾和粉煤灰,利用它们的吸附能力、阳离子交换能力以及微生物的作用去除污染质。试验结果表明:A、B两柱COD的去除率最高可达66%和59%,对铵氮的去除率柱A明显优于柱B,最高可达92.7%,并在81%左右保持稳定。另外柱A对硝酸盐氮和亚硝酸盐氮的去除效果也优于柱B。说明矿化垃圾作为反应屏障介质更加经济可行,可以达到以废治废的目的。 相似文献
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曾玲玉 《地质灾害与环境保护》2008,19(1):20-22
在分析了煤矸石的灾害和综合利用的基础上,有针对性地提出了对停放多年且逐渐风化的煤矸石,为了避免和减少煤矸石所带来的灾害,对煤矸石山进行植被恢复与重建是最经济实惠且行之有效的较为理想的永久性防治方法。 相似文献
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潜孔锤多工艺钻进在水文水井及工程中的应用 总被引:1,自引:0,他引:1
文章分析了潜孔锤钻进技术的优缺点,提出了根据不同地质条件及工程要求,研究与其它的先进钻进工艺方法相结合,克服该方法自身存在的某些缺点,形成了潜孔锤多工艺钻进方法,不仅拓宽了潜孔锤的使用领域,实践证明它发挥了其它钻进方法无法比拟的作用。 相似文献
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钻孔灌注桩施工过程中垃圾渗滤液对地下水的污染分析 总被引:3,自引:0,他引:3
采用大直径钻孔灌注桩时,施工时会破坏现有垃圾填埋场的防渗体系,且渗滤液将对地下水造成一定程度的污染。通过对基桩施工过程中渗滤液污染传输过程以及特征进行分析,提出了包括全护筒支护、膨润土泥浆护壁以及减少钻孔成孔至灌注混凝土的间隔时间等控制污染的主要措施,建立了基桩施工过程中钻孔泥浆浆液的损失模型以及渗滤液传输到地水下中的污染物质浓度的计算模型。根据某一具体施工条件进行估算,预测了地下水中污染物质浓度以及污染程度。最后,提出了垃圾填埋场内钻孔灌注桩的施工工艺以及施工注意事项。 相似文献
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Smriti SinghLal C. Ram Reginald E. MastoSantosh K. Verma 《International Journal of Coal Geology》2011,87(2):112-120
Coal being a limited source of energy, extraction of energy from other sources like lignite, coal-refuse, and biomass is being attempted worldwide. The minerals and inorganic elements present in fuel feeds pose different technological and environmental concerns. Lignite ash, refuse ash, and biomass ash collected from Indian power plants burning lignite, coal-refuse, and mustard stalk, respectively, were analyzed for physico-chemical characteristics and trace elements. The lignite ash has high SiO2, CaO, MgO, Al2O3, and SO3; the refuse ash has high SiO2 and Fe2O3, but low SO3; the biomass ash has high SiO2 (but low Al2O3), and high CaO, MgO, K2O, Na2O, SO3, and P2O5. A substantial presence of chloride (2.1%) was observed in the biomass ash. Quartz is the most abundant mineral species. Other minerals are mullite, hematite, gehlenite, anhydrite, and calcite in the lignite ash; orthoclase in the refuse ash; albite, sanidine, gehlenite, anhydrite, and calcite in the biomass ash. Ashes with high concentrations (> 100 mg/kg) of trace elements are: lignite ash (V < La < Mn < Cr < Ni < Nd < Ba < Ce, Zn < Sr); refuse ash (Cr < Ce < V < Rb < Mn < Sr, Zn < Ba); biomass ash (Cu < Zn < Ba, Sr). Based on Earth crust normalization, Co, Ni, As, Se, Mo, Zn, Pb, U, and REEs (except Pr and Er) are enriched in the lignite ash; molybdenum, Zn, Cs, Pb, Th, U, La, Ce, and Lu in the refuse ash; and Mo, Zn, Sr, Cs, Pb, and Lu in the biomass ash. Elements As, Zn, Mo, Ni, Pb, Rb, Cr, V, Ba, Sr, and REEs are correlated with Al, indicating the possibilities of their association with aluminum silicates minerals. Similarly, barium, Cs, Th, and U are correlated with iron oxides; molybdenum and Sr may also be associated with sulfates and chlorides. Due to the alkaline nature of these ashes, the high concentrations of As and Se in the lignite ash; molybdenum in the biomass ash; and Se in the refuse ash may pose environmental concerns. 相似文献
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