土壤酸化及天然土壤溶液中铝的形态

采用真空式土壤溶液采样器收集了宜昌、巫山松树林中天然土壤溶液,采用高效液相色谱法Al－Lumogallion柱后荧光检测,分析测试了土壤溶液中可溶性铝的形态,研究了由于土壤酸化引起天然土壤溶液中不同形态铝的迁移转化结果表明,天然土壤溶液中含有不同形态的铝,主要是有机铝、 AISO₄⁺、AIF₂⁺、Al（OH）²⁺、Al³⁺等．宜昌、巫山地区土壤溶液中活性铝（Al³⁺、AlOH^2+F）的含量比较低．土壤的酸化使得天然土壤溶液中总铝含量增加、铝形态的优势态发生变化,即土壤的酸化使得天然土壤溶液中活性铝－Al³⁺、AlOHF²⁺含量和比例增加．土壤酸化还降低了大然土壤溶液中的BC/Al比值,这些变化的结果都增加了对森林潜在的危害．     

用螯合树脂研究光解作用对水中铝形态的影响

本文对用螯合树脂分离水中无机铝和有机铝的方法、螯合树脂的制备及其对无机铝的交换进行了探讨。结果表明,水体中的有机铝在紫外光照射下能分解为无机铝,其分解速度随光照时间的增加而增加。由于无机单聚体铝对鱼类有致毒作用,因此,光解作用的结果使水体中铝的毒性增加。     

Al13形态在混凝中的作用机制

从铝的水解形态转化角度考察了铝盐在高碱度和高有机物浓度水体中的混凝行为.结果表明,铝盐的混凝效能是与混凝过程中的Al13含量成正比.高投药量时氯化铝(AlCl3)既可以有效调节水体pH值又能在混凝过程中原位水解产生较多的Al13形态,因而混凝效能要高于聚合氯化铝(PACl).在铝盐混凝中,调节pH值到6～7之间可以控制铝形态分布从而达到提高混凝效能和减少残留铝的目的.在调节pH值强化混凝的方法中使用传统铝盐的效果要好于无机高分子絮凝剂.     

混凝沉淀过程中铝系混凝剂的形态转化规律

研究了模拟配水中硫酸铝和氯化铝2种传统铝凝聚剂和2种聚合氯化铝(PAC)絮凝剂在混凝过程中的形态转化规律以及原水浊度和溶解性有机碳(DOC)对残余铝形态分布的影响.结果表明,在低浊体系中,投加铝系混凝剂是导致出水余铝升高的主要原因;但在高浊体系中,铝系混凝剂,尤其是聚合铝具有一定的除铝功能;混凝沉淀过程中传统铝凝聚剂的残余铝总量明显高于聚合铝混凝剂的残余铝总量;聚合铝混凝剂的残余铝全部为悬浮态铝,传统铝混凝剂的残余铝中还存在着胶体态铝和溶解态铝.原水浊度和DOC浓度增加,会提高残余铝中胶体态铝和溶解态铝的含量.     

基于化学反应动力学的饮用水铝形态分布模型研究

目前饮用水中的总铝超标现象十分严重,其危害与铝的存在形态密切相关.本研究利用三层前反馈式的人工神经网络技术,建立了基于化学反应动力学的铝形态预测模型.结果表明,无机单核铝和溶解铝的浓度变化速率与反应时间及水温、pH、总铝、氟离子、磷酸根和硅酸根等水质参数密切相关,二者的反应级数均为三级.通过人工神经网络可有效地进行饮用水中无机单核铝和溶解铝反应动力学参数的预测;反应速率常数k和初始浓度项1/c02的计算值和模型预测值的相关系数R均大于0.999.由M市管网水铝形态的预测结果可知:当总铝浓度0.05mg·L-1时,模型对无机单核铝浓度的预测误差较大;而当总铝浓度0.05mg·L-1时,模型有较好的预测能力,无机单核铝和溶解铝的相对预测误差分别为±15%和±10%.     

典型酸雨地区森林土壤中不同形态铝的分析

对2个典型酸雨地区森林土壤样品中不同形态的铝进行了检测,结果表明:两地土壤中无定形铝和有机结合铝占主导地位,弱有机结合铝和可交换铝的含量相对较低(约为10%).有机配位体会减弱铝的交换能力,而且这些有机铝配合物大部分是强有机结合态铝;Al3+对其他碱基阳离子有较强的置换能力.土壤的酸度增大,可交换铝和弱有机结合铝的含量增高,不同土层中可交换铝和弱有机结合铝的垂直变化与相应的pH变化相一致.用复合草酸铵法提取无定形和有机态铝的方法机理尚待进一步研究.      

天然水中砷化合物的存在状态和浓度分布

天然水体中砷的化合物在厌氧条件下,由于甲烷菌的作用,有使无机砷转化为有机的甲基砷的过程,从而再次进入生物链,毒害环境。本文介绍了天然水体中微量砷的预测方法,和砷在自然界中的存在形态及其甲基化转变过程。这是一篇很有针对性,现实性的文章。     

Al13形态在混凝中的作用机制

从铝的水解形态转化角度考察了铝盐在高碱度和高有机物浓度水体中的混凝行为.结果表明,铝盐的混凝效能是与混凝过程中的Al₁₃含量成正比.高投药量时氯化铝(AlCl₃)既可以有效调节水体pH值又能在混凝过程中原位水解产生较多的Al₁₃形态,因而混凝效能要高于聚合氯化铝(PACl).在铝盐混凝中,调节pH值到6～7之间可以控制铝形态分布从而达到提高混凝效能和减少残留铝的目的.在调节pH值强化混凝的方法中使用传统铝盐的效果要好于无机高分子絮凝剂.     

酸性铬深蓝-示波吸附计时电位法快速测定土壤溶液中不同形态铝

报道了酸性铬深蓝-示波吸附计时电位法分别在酸性和碱性条件下直接检测土壤溶液中的无机单核铝[AIi]和总单核铝[AIa]浓度，并用该法测定了酸消化水样中的总铝[AIT]．由[AI8]-[AIi]间接得到有机单核铝[AIo]，[AIT]-[AIa]得到酸溶态铝[AIr]，从而实现了土壤溶液中5种AI形态的电化学测定测定了十多个实际土壤水样，与Driscoll方法所获结果进行了对照，结果基本一致。     

淤泥沉积物中有机碳的环境意义

该文讨论了广泛存在的沉积物"淤泥"中有机碳形态特征、环境指示功能和几种主要的环境效应。有机碳形态主要分为游离态和有机矿质结合态,根据不同的方法可细分为轻组、重组有机碳和颗粒有机碳等。天然沉积的淤泥中,总有机碳(TOC)、碳氮比(C/N)和有机碳同位素(δ13Corg)组成能够反映古气候、原始生产力水平与区域生物量变化等环境信息。不同地表水体和海洋淤泥沉积物中的有机碳因水动力条件和O2浓度的变化导致的分解矿化会引发水体富营养化和重金属等污染物释放等环境问题。最后,从淤泥沉积埋藏的角度提出在淤泥演化为黏土弱透水层的过程中有机碳参与的复杂水岩相互作用和沉积物颗粒团聚作用对地下水环境可能产生的影响,提供新的研究思路。     

Transfer and transport of aluminum in filtration unit

Aluminum salt coagulants were used prevalently in various water works.In this article,the effects of filtration on residual aluminum concentration and species distribution were researched by determining the concentration of diiferent aluminum species before and after single layer filter,double layer filter,and membrane filtration units.In the research,size exclusion chromatography(SEC)was used to separate colloidal and soluble aluminum,ion exchange chromatography(IEC)was used to separate organic and inorganic aluminum, and inductivity coupled plasma-atomic emission spectrometry(ICP-AES)was used to determine the aluminum concentration.The results showed that the rapid filtration process had the ability of removing residual aluminum from coagulant effluent water,and that double layer filtration was more effective in residual aluminum removal than single layer filtration,while nano filtration was more effective than micro filtration.It was found that when the residual aluminum concentration was below 1mg/L in sediment effluent,the residual aluminum concentration in treated water was above 0.2 mg/L.The direct rapid filtration process mainly removed the suspended aluminum.The removal of soluble and colloidal aluminum was always less than 10% and the natural small particles that adsorbed the amount of soluble or small particles aluminum on their surface were difficult to be removed in this process.Micro filtration and nano filtration were good technologies for removing aluminum;the residual aluminum concentration in the effluent was less than 0.05 mg/L.     

Study on the effects of organic matter characteristics on the residual aluminum and flocs in coagulation processes

Characteristics of organic matter may affect the residual aluminum after the coagulation process. This study reported the results of a survey for one drinking water treatment plant and measured the concentration of residual aluminum species with different molecular weights. Survey results indicated that humic acid or organic matter whose molecular weight was smaller than 1500 Da had significant effects on residual aluminum. All the treatment processes were ineffective in removing dissolved organic matter whose molecular weight was smaller than 1500 Da. These results also indicated that the addition of sand or polyacrylamide in the coagulation process could greatly decrease the concentration of humic acid, and the concentration of residual aluminum also decreased. These results revealed that for all water samples after filtration, the majority of total residual aluminum existed in the form of total dissolved aluminum, accounting for 70%–90%. The concentration of residual aluminum produced in bovine serum albumin solutions indicated that when the DOC was larger than 4.0 mg/L, there were still significant differences when the solution pH value varied from 4.0 to 9.0.     

Effects of advanced oxidation pretreatment on residual aluminum control in high humic acid water purification

Due to the formation of disinfection by-products and high concentrations of Al residue in drinking water purification, humic substances are a major component of organic matter in natural waters and have therefore received a great deal of attention in recent years. We investigated the effects of advanced oxidation pretreatment methods usually applied for removing dissolved organic matters on residual Al control. Results showed that the presence of humic acid increased residual Al concentration notably. With 15 mg/L of humic acid in raw water, the concentrations of soluble aluminum and total aluminum in the treated water were close to the quantity of Al addition. After increasing coagulant dosage from 12 to 120 mg/L, the total-Al in the treated water was controlled to below 0.2 mg/L. Purification systems with ozonation, chlorination, or potassium permanganate oxidation pretreatment units had little effects on residual Al control; while UV radiation decreased Al concentration notably. Combined with ozonation, the effects of UV radiation were enhanced. Optimal dosages were 0.5 mg O3/mg C and 3 hr for raw water with 15 mg/L of humic acid. Under UV light radiation, the combined forces or bonds that existed among humic acid molecules were destroyed; adsorption sites increased positively with radiation time, which promoted adsorption of humic acid onto polymeric aluminum and Al(OH)3(s). This work provides a new solution for humic acid coagulation and residual Al control for raw water with humic acid purification.     

铝及铝合金在自然水环境中的腐蚀行为对比研究

目的 分析研究铝及铝合金在自然水环境中的腐蚀行为。方法 通过开展LM3纯铝、5083铝、LF6M去包铝及带包铝在淡海水交替、海水及淡水自然环境下2 a的暴露试验,将3种环境下材料的腐蚀形貌、腐蚀速率进行对比。总结4种铝及铝合金材料在不同水环境下的腐蚀规律,对其腐蚀机理进行简要的探讨,并对其长周期的腐蚀行为进行预测。结果 通过对4种材料局部腐蚀协同影响因子(b)的对比可以发现,淡水环境对LM3纯铝局部腐蚀的影响最大,淡海水环境对5083铝合金局部腐蚀影响最大,淡水及淡海水环境对2种LF6M铝合金材料局部腐蚀的影响都很大。结论 5083、LF6M带包铝及去包铝,在淡海水交替自然环境下的耐蚀性能最差,LM3纯铝在淡水环境下耐蚀性能最差。     

铝氧化物-水界面化学及其在水处理中的应用

天然水体中,铝氧化物矿物表面上的吸附等各种反应在很大程度上影响着金属阳离子、无机阴离子和一些天然有机物的迁移转化和归趋.在水处理等工业领域中,铝氧化物由于其水合表面的吸附能力而被用做离子交换剂和催化剂载体.因此,对铝氧化物表面化学过程的研究具有重要意义.铝氧化物-水界面上的反应十分复杂,对各种无机、有机污染物的吸附结合能力取决于氧化物固相表面性质、溶液条件和吸附质的性质.从对铝氧化物表面荷电特性和吸附活性的认识出发,就各种铝氧化物的结构特征和表面反应活性及其在水处理技术中的应用进行了简要综述.     

Effects of fulvic acid and humic acid on aluminum speciation in drinking water

This article focused on the influences of fulvic acid and humic acid on aluminum speciation in drinking water. Factors including the concentration of residual chlorine and pH value had been concerned. Aluminum species investigated in the experiments included inorganic mononuclear, organic mononuclear, mononuclear, polymer, soluble, and suspended forms. It was found that the e ects of fulvic acid and humic acid on aluminum speciation depended mainly on their molecular weight. Fulvic acid with molecular weight less than 5000 Dalton had little influence on aluminum speciation; while fulvic acid with molecular weight larger than 5000 Dalton and humic acid would increase the concentration of soluble aluminum significantly even at concentration below 0.5 mg/L (calculated as TOC). Aluminum species, in the present of fulvic acid with molecular weight larger than 5000 Dalton and humic acid, were more stable than that in the present of fluvic acid with molecular mass less than 5000 Dalton, and varied little with reaction time. Within pH range 6.5–7.5, soluble aluminum increased notably in water with organic matter. As the concentration of residual chlorine increased, the e ects of fulvic acid and humic acid became weak. The reactions between humic acid, fulvic acid with large molecular weight, and aluminum were considered to be a multi-dentate coordination process. With the consideration of aluminum bioavailability, reducing the concentration of fulvic acid and humic acid and keeping the pH value among 6.5–7.5 were recommended during drinking water treatment.     

Factors effecting aluminum speciation in drinking water by laboratory research

Effects of aluminum on water distribution system and human health mainly attribute to its speciation in drinking water. Laboratory experiments were performed to investigate factors that may influence aluminum speciation in water supply system. The concentration of soluble aluminum and its transformation among other aluminum species were mainly controlled by kinetics processes of related reactions. Total aluminum concentration had a notable e ect on the concentrations of mononuclear and soluble aluminum in the first 4 day; then its e ect became weak. At pH above 7.50, both fluoride and orthophosphate had little e ect on aluminum speciation; while, when the solution pH was below 7.50, the concentrations of mononuclear and soluble aluminum were proportional to the concentration of fluoride and inversely proportional to the concentration of orthophosphate. Both mononuclear and polynuclear silicic acids could complex with mononuclear aluminum by forming soluble aluminosilicates. In addition, the adding sequence of orthophosphate and aluminum into drinking water would also a ect the distribution of aluminum species in the first 4 day. In order to minimize aluminum bioavailability in drinking water, it was suggested that orthophosphate should be added prior to coagulant process, and that the concentrations of fluoride and silicic acids should be controlled below 2.0 and 25 mg/L, respectively, prior to the treatment. The solution pH in coagulation and filtration processes should be controlled in the range of 6.50–7.50.     

Spatial variations of aluminum species in drinking water supplies in Xi’an studied applying geographic information system

This article aimed to investigate the variation of aluminum species and the effects of coagulant type and water quality on aluminum speciation in drinking water.Statistical analysis showed that the concentration of total aluminum(AlT) of drinking water in Xi'an ranged from 0.051 to 0.417 mg/L and the concentration of AlT in about 24.7% studied samples was higher than the currently recommended value(0.2 mg/L).The areas fed by surface water plants had a larger portion(39.4%) of samples over the recommended value.In drinking water treated by alum coagulant,the average concentration of monomeric aluminum(Ala) was higher than that in water treated by poly aluminum chlorine(PACl) and poly aluminum ferric chloride(PAFC).The average concentrations of polynuclear aluminum(Alb) and colloidal/suspended aluminum(Alc) in the drinking water treated by alum were lower than those in water treated by PACl and PAFC.There was a notable decrease in AlT along with the delivery pipeline away from the plants,with an average decline of about 36 μg/(L·km).Besides coagulant type,water quality also could afflect aluminum speciation.In drinking water without orthophosphate,the concentrations of Ala and AlT were positively correlated with pH;while,in drinking water with orthophosphate,the concentrations of Ala and AlT were negatively correlated with pH.The addition of orthophosphate salts in the drinking water treatment process would be an effective method for aluminum control in pH range 6.5-8.2.