不同农作物秸秆原料制备生物炭特性及重金属浸出行为

采用水稻秆、大豆秆、小麦秆和玉米秆为原料在550℃缺氧条件下制备生物炭,考察不同原料生物炭理化性质及热解后重金属(Cr﹑Ni、 Cu﹑As﹑Cd和Pb)迁移转化特征,及其在不同浸出液中的浸出行为.结果表明,4种原料制备的生物炭的理化特性和元素组成基本一致,其中玉米秆生物炭微孔体积(0.006 cm³·g^-1)和比表面积(110.120 m²·g^-1)低于其他原料生物炭.秸秆热解后重金属(除Cd外)含量增加了14.04%～410.81%,且大部分重金属(除Cd和Pb外)化学形态由不稳定态(弱酸提取态和可还原态)向稳定态(可氧化态和残渣态)转化.制备的生物炭中的重金属在超纯水和缓冲盐溶液中无浸出或浸出量较少,在乙酸溶液和腐殖酸溶液中浸出量较高.其中Cu在乙酸溶液中浸出量较高,为2.601～4.224 mg·kg^-1,As在腐殖酸溶液中浸出量较高,介于0.074～0.166 mg·kg^-1.热解后,各种重金属的环境质量指数(PI_i)和内梅罗...     

废物水泥窑共处置产品中重金属的释放特性

选用欧盟固体中无机组分有效量测试方法(EA NEN7371)和块状材料中无机组分的扩散实验方法(EA NEN7375),研究了模拟混凝土样品中重金属(Cr、Ni、As、Cd和Pb)的释放特性.结果表明,混凝土中重金属的有效释放量低于总量;不同重金属的有效释放量与总量比值差异较大.扩散控制是混凝土中Cr、Ni和Cd释放的主要机理,释放曲线与斜率为0.5的直线拟合较佳,且不同区间浸出量曲线的斜率均在0.35~0.65范围内;As在释放前期有延滞现象,但中后期仍以扩散控制为主;Pb的释放为溶解控制,受浸取液的pH值影响较大.重金属扩散系数负对数值按Pb相似文献   

废SCR催化剂中钒和钨的有机酸浸出

在对废SCR催化剂组成进行分析的基础上,采用草酸和酒石酸两种有机酸浸取废SCR催化剂中的V和W。实验结果表明：草酸对V、W的浸出率均大于酒石酸;在草酸浓度为1.00 mol/L、浸取温度为80 ℃、液固比为10 mL/g、浸取时间为180 min时,V和W的浸出率分别为63.50%和13.12%;在酒石酸浓度为0.5 mol/L、浸取温度为100 ℃、液固比为10 mL/g、浸取时间为180 min时,V和W的浸出率分别为44.00%和9.00%。酸性浸出未改变SCR催化剂中TiO₂的晶型,剩余残渣中依然保留着TiO₂骨架,可继续作为催化剂载体使用。     

模拟酸雨对土壤修复中重金属淋溶特征及土壤持水能力的影响

以磷酸二氢钾（PDP）钝化后的重金属污染土壤为研究对象,通过室内土柱淋溶和土壤吸水实验,考察pH为3.1、4.6和5.1的模拟酸雨对污染土壤修复过程中重金属淋溶特征及土壤持水能力的影响。实验结果表明：PDP处理显著增加了淋出液的pH、电导率、TOC和正磷酸盐态磷（ZP）含量,在淋溶初期显著降低了淋出液的Cu、Cd和Pb含量,但在淋溶后期增大了Pb含量;土壤持水量与电导率、pH、TOC和ZP含量呈现极显著负相关性;土壤修复过程中,有机质的淋失、盐分含量及pH的增大可引起土壤持水能力的减弱。     

Occurrence of organic pollutants in recovered soil fines from construction and demolition waste

The objective of this study was to characterize recovered soil fines from construction and demolition (C&D) waste recycling facilities for trace organic pollutants. Over a period of 18 months, five sampling trips were made to 14 C&D waste recycling facilities in Florida. Screened soil fines were collected from older stockpiles and newly generated piles at the sites. The samples were analyzed for the total concentration (mg/kg) of a series of volatile organic compound (VOCs) and semi-volatile organic compounds (semi-VOCs). The synthetic precipitation leaching procedure (SPLP) test was also performed to evaluate the leachability of the trace organic chemicals. During the total analysis only a few volatile organic compounds were commonly found in the samples (trichlorofluoromethane, toluene, 4-isopropyltoluene, trimethylbenzene, xylenes, and methylene chloride). A total of nine VOCs were detected in the leaching test. Toluene showed the highest leachability among the compounds (61.3-92.0%), while trichlorofluoromethane, the most commonly detected compound from both the total and leaching tests, resulted in the lowest leachability (1.4-39.9%). For the semi-VOC analysis, three base-neutral semi-VOC compounds (bis(2-ethylhexyl)phthalate, butyl benzyl phthalate, and di-n-butyl phthalate) and several PAHs (acenaphthene, pyrene, fluoranthene, and phenanthrene) were commonly detected in C&D fines samples. These compounds also leached during the SPLP leaching test (0.1-25%). No acid extractable compounds, pesticides, or PCBs were detected. The results of this study were further investigated to assess risk from land applied recovered soil fines by comparing total and leaching concentrations of recovered soil fines samples to risk-based standards. The results of this indicate that the organic chemicals in recovered soil fines from C&D debris recycling facilities were not of a major concern in terms of human risk and leaching risk to groundwater under reuse and contact scenarios.     

废镉镍电池中镉优先浸出工艺

通过CdO、NiO酸浸反应的热力学和动力学研究 ,得知CdO、NiO二者的浸出条件有较大差异 ,实验确定了废镉镍电池中镉优先浸出的工艺条件 :5 0℃、pH =2的硫酸溶液中浸 5 0min ,在此工艺条件下 ,镉能 10 0 %浸出 ,而镍的浸出率只有 2 5 %。     

不同粒径垃圾焚烧飞灰重金属分布和浸出性质

对烟气净化系统飞灰(以下简称飞灰)按粒径进行分级,研究了飞灰重金属含量、形态分布和浸出毒性随粒径的变化,讨论了不同粒径的飞灰对重金属总量和浸出总量的贡献率.结果表明:飞灰中粒径>154 μm和<30 μm的颗粒较少,粒径为38.5～74 μm的颗粒约占总量的50%.除Ni和Cr外,重金属含量随飞灰粒径的减小呈增加趋势,且主要表现在酸溶态Cd,Zn,Pb,Cu和有机结合态Pb以及晶形氧化铁态Pb,Zn含量的增加.随着飞灰粒径的减小,Cr,Ni,Zn,Hg和Pb的浸出量也呈逐渐增加趋势,其中Zn,Hg和Pb的表现尤为突出.尽管细颗粒上的重金属对飞灰的重金属总量贡献不大,但高浸出率使细颗粒飞灰对重金属浸出总量仍具有较大贡献,尤其是Pb,Zn和Hg,在占飞灰质量8%的粒径<30 μm的飞灰中,富集了约40%的水溶性Pb,Zn和Hg.      

多环芳烃室内土柱淋溶行为的CDE模型模拟

采用土柱淋溶实验方法对多环芳烃(PAHs)在人工污染士柱中表面活性剂淋溶下的运移进行了实验室研究,获得了示踪剂Br^-和PAHs的穿透曲线(BTCs);并通过室内批量平衡试验(PAHs和表面活性剂吸附试验和表面活性剂对PAHs吸附／解吸影响试验)获得了吸附系数,进而获得阻滞因子．基于这些实验室结果,通过CXTFIT2．1软件,用平衡CDE模型拟合了Br^-的BTCs,获得物理和水动力参数;并在此基础上应用CDE非平衡模型拟合PAHs在表面活性剂淋溶条件下土柱中的BTCs以及不同时刻、不同埋深处PAHs浓度的动态变化,预测了PAHs在土柱中的迁移趋势。     

南方土壤酸沉降敏感性研究Ⅷ.盐基离子淋溶的多因素分析

在模拟酸雨条件下土壤盐基离子淋溶特性研究的基础上,采用生成分分析及多元回归分析方法研究了土壤盐基淋溶的影响因子．结果表明,通过主成分分析方法可将选取的15个原始变量综合成为2个主成分,为进一步分析盐基释放量与土壤理化性质之间的关系提供了方便．影响盐基释放量的主要因子有土壤原始pH值、可交换性盐基含量、蒙脱石含量、活性氧化物、1.4nm矿物等,它们表现出效应,而高岭石和可交换性铝含量表现出负效应．利用主成分分析的结果进行多元回归分析,可得到土壤累积盐基释放量与2个主成分之间的回归方程．     

Agricultural Chemicals in the Alluvial Aquifer of a Typical County of the Arkansas Delta

Statistical methods and a Geographic Information System (GIS) were used to investigate potential indicators of ground water vulnerability to agricultural chemical contamination in a representative area of the Mississippi River alluvial aquifer. A total of 47 wells were sampled for analysis of nitrate, phosphorus, potassium, and 13 pesticides commonly-used in the area. Ten soil and hydrogeologic variables and five ground water vulnerability indices were examined to explain the variations of chemical concentrations. The results showed that no individual soil or hydrogeologic variables or their linear combinations could explain more than 25% of the variation of the chemical concentrations. A quadratic response surface model with the values of confining unit thickness, slope, soil permeability, depth to ground water, and recharge rate accounted for 62% of the variation of nitrate, 43% of P, and 83% of K, suggesting that the interactions among soil and hydrogeologic variables were significant. Observed trends of decreasing nitrate and P concentrations with increasing well depth and/or depth to ground water seemed to correlate with carbonate equilibrium in the aquifer and more reduced environment with depth. In view of uncertainties involved, it was recognized that the limitations associated with input data resolution used in GIS and the formulation of leaching indices limited their use for predicting ground water vulnerability. Misuse of pesticides could be another factor that would complicate the relationships between pesticide concentrations and the vulnerability indices.