含铬废渣炻质砖固体块长期稳定性试验和加速试验

在制砖基料中加入２０％铬渣,制成所要求几何形试块,按给定的烧成温度烧成试块,测量烧成块几何尺寸和烧成前后试块所含水溶样Ｃｒ（Ⅵ）值,将烧成试块置于不同条件的浸出液中进行长期浸取,根据Ｉａ的浸出数据,浸出率ＬＲ＝０．８×１０＾－７ｃｍ／ｄ,累积浸出分数ＬＦ＝１×１０＾－４ｃｍ,判断炻质砖试块中Ｃｒ（Ⅵ）的稳定程度,从而判定此处理铬渣方法的可行性。     

Stabilization effects of surplus soft clay with cement and GBF slag

Utilization of industrial waste and surplus construction soft clay as construction material was recommended, and many attempts at geotechnical waste utilization were undertaken. This study aimed at the application of cement and a kind of industrial wastes, i.e. granulated blast furnace slag, on stabilization of surplus soft clay. The results showed that the cement and slag can successfully stabilize Ariake clays even though this high organic clay fails to be stabilized by lime and cement. Addition of slag in cement for stabilization induces higher strength than cement alone for longer curing time. The application of the cement with slag is more suitable than cement alone for stabilization because of economical consideration.     

炼钢精炼渣气固碳酸化反应吸附CO2

采用炼钢精炼渣,通过气固碳酸化反应吸附CO₂,考察了不同吸附温度下精炼渣对纯CO₂和模拟高炉煤气中CO₂的吸附能力。实验结果表明：吸附温度对精炼渣吸附CO₂反应有显著的影响,升高温度可以提高精炼渣对CO₂的吸附能力;在400 ℃时,精炼渣吸附纯CO₂和模拟高炉煤气中CO₂的量分别为4.7 mg/g和9.8 mg/g;吸附温度升高到500 ℃和550 ℃时,精炼渣对纯CO₂的吸附能力强于高炉煤气中CO₂;在550 ℃时,精炼渣吸附纯CO₂和模拟高炉煤气中CO₂的量达到最高,分别为14.7 mg/g和12.9 mg/g。     

Zinc recovery from hazardous construction wastes via an integrated process of the air classification,alkaline leaching,and water washing

Zinc- and lead-containing wastes are often mixed with construction and demolition wastes in many factories, generating abundant of heavy metal-enriched hazardous waste. In the present study, a novel integrated process of air classification, alkaline leaching, and water washing dechlorination was proposed for the efficient recycling of Zinc (Zn) resources. The first air classification process was realized via venturi tube, wherein the content of Zn could increase by 20 wt.%. After that, the product underwent an alkaline leaching process. Results showed that Zn recovery rate increased with fine particle sizes, and a 65% recovery rate was obtained under the following conditions of 5 mol/L NaOH, liquid/solid 10:1, and leaching time 1 h. Finally, water washing associated with microwave and ultrasonic treatments could remove over 85% of Cl and other water-soluble salts. All the results indicated that the integrated method had an excellent recovery rate for Zn resources from construction and demolition wastes.     

重金属污染下龟壳攀鲈组织中ACP和AKP的活力比较

龟壳攀鲈是一种在极端污染水域中具备生存优势的鱼类,收集重污染区和轻污染区的龟壳攀鲈,并通过比较其体内各组织中的酸性磷酸酶(ACP)及碱性磷酸酶(AKP)活性来揭示其耐污能力。贵屿作为重污染区有4个采样点:大陇村、市上村、联堤村和北林村;潮州作为轻污染区有2个采样点:卧石村和洗马桥。水质结果表明,贵屿采样地水中的Pb、Cd、Cr、As、Hg含量分别是潮州采样点的27.6倍、3.9倍、5.8倍、3.9倍和3.5倍,说明贵屿采样地的污染远高于潮州的。酶活结果表明,在龟壳攀鲈所有组织中,内脏组织(胃肠、性腺、肝脏、脾脏、肾脏)中的ACP和AKP活力均高于外周组织(肌肉、鳞片、鳃);重金属污染均能提高攀鲈体内所有组织的ACP和AKP活力;AKP活性更容易受到重金属的影响,各组织的AKP活力增幅普遍超过ACP活力增幅;其中,受重金属影响最大的组织是脾脏,ACP和AKP活力可增长到2.37倍和6.21倍。这些结果说明了龟壳攀鲈可以通过显著升高内脏组织(如肠胃、肝脏、肾脏等)中ACP和AKP活性,以便更好地应对高污染环境;其中AKP更容易受到重金属的影响,适合用于作为评估污染的指标。     

Characteristics of the stabilized/solidified municipal solid wastes incineration fly ash and the leaching behavior of Cr and Pb

Fly ash is a hazardous byproduct of municipal solid wastes incineration (MSWI). An alkali activated blast furnace slag-based cementitious material was used to stabilize/solidify the fly ash at experimental level. The characteristics of the stabilized/solidified fly ash, including metal leachability, mineralogical characteristics and the distributions of metals in matrices, were tested by toxic characteristic leaching procedure (TCLP), X-ray diffraction (XRD) and scanning electron microscopy-energy dispersive spectrometer (SEM-EDS) respectively. Continuous acid extraction was utilized to extract metal ions and characterize their leaching behavior. The stabilization/solidification procedure for MSWI fly ash demonstrates a strong fixing capacity for the metals by the formation of C-S-H phase, hydrated calcium aluminosilicate and ettringite. The stabilized/solidified fly ash shows a dense and homogeneous microstructure. Cr is mainly solidified in hydrated calcium aluminosilicate, C-S-H and ettringite phase through physical encapsulation, precipitation, adsorption or substitution mechanisms, and Pb is mainly solidified in C-S-H phase and absorbed in the Si-O structure.     

壬基酚、五氯酚及硝基苯对端足类河蜾蠃蜚(Corophium acherusicum)的毒性效应

为检测海洋中环境激素及芳烃类化合物对端足类生物的污染危害,实验选择端足类河蜾蠃蜚(Corophium acherusicum)为受试生物,研究了其在壬基酚、五氯酚、硝基苯三种有机污染物暴露下的96 h急性致死毒性效应和7 d慢性DNA损伤毒性效应。计算获得壬基酚、五氯酚和硝基苯对河蜾蠃蜚的96 h半致死浓度(LC50)分别为70、465、25 000μg·L-1,三种有机污染物对河蜾蠃蜚的毒性强弱顺序为壬基酚五氯酚硝基苯。运用碱解旋法检测壬基酚、五氯酚和硝基苯对河蜾蠃蜚DNA损伤的程度,计算得到7 d半效应浓度(EC50)分别为30、256、11 000μg·L-1。实验结果表明:三种有机污染物浓度的不断加大,引起河蜾蠃蜚DNA损伤程度的不断增加,呈显著的剂量-效应关系。     

不同类型植物凋落物参与下炼锌废渣对斑马鱼抗氧化酶和神经毒性的影响

为评价矿山生态修复过程中植物凋落物参与下炼锌废渣体系浸出液对水生生物抗氧化酶和神经毒性的影响,通过模拟添加不同类型代表性修复植物（三叶草、刺槐、构树和法国梧桐）凋落物处理黔西北土法炼锌废渣,检测在不同处理废渣浸出液中暴露28 d斑马鱼（Danio rerio）组织中超氧化物歧化酶（SOD）、过氧化氢酶（CAT）、丙二醛（MDA）和乙酰胆碱酯酶（AChE）的变化,以及红细胞DNA的损伤情况.结果表明,无凋落物组在28 d时SOD和CAT活性受到显著抑制,而添加凋落物组抗氧化酶活性在实验期间无明显规律,基本维持在正常水平;在实验期间,无凋落物组MDA含量显著升高,并在28 d时含量最高,凋落物组MDA含量并无明显升高,仅刺槐组在暴露后期（28 d）时显著高于空白组.随暴露时间延长,各处理组对斑马鱼脑AChE活性表现为先诱导后抑制的作用,并在28 d时受抑制程度明显加强.无凋落物组在28 d时DNA发生明显偏移,而添加凋落物处理后,Olive尾矩（OTM）明显缩短.综上,添加凋落物可明显降低废渣浸出液对斑马鱼抗氧化系统损伤和遗传毒性,其中阔叶高蛋白乔木构树凋落物可以显著降低炼锌废渣生态风险,可作为废渣污染控制的有机改良剂.因此,在开展金属冶炼废渣堆场生态修复过程中选取合适的植物种类及其凋落物对加速冶炼废渣生态修复进程及有效降低废渣污染物的生态风险具有重要意义.     

有机磷细菌的分离鉴定及其对MC-RR的响应(The Isolation and Identification of Organic Phosphorus Bacteria and Its Response to MC-RR)

从云南滇池水样中分离出具有解磷能力的有机磷细菌P-2,并利用现代分子生物学技术进行了初步鉴定.用0.01、5mg·L-1微囊藻毒素(MC-RR)处理有机磷细菌P-2,研究了MC-RR对其生长、细胞内酸碱磷酸酶活性(ACP和AKP)以及培养液中可溶性磷酸盐含量的影响.结果表明,高浓度MC-RR能显著抑制有机磷细菌的生长,延缓其细胞增殖,抑制细胞内酸碱磷酸酶活性以及培养液中可溶性磷酸盐含量的升高,因而可能改变或减缓生态系统中磷循环的进程,这表明微囊藻毒素在一定程度上可能调节水体细菌功能群落.     

钢渣吸附剂吸附机理的研究

采用间歇振荡法,研究了钢渣吸附模式、选择性以及等温吸附方程。结果表明,钢渣对阳离子的吸附容量远远大于对阴离子的吸附容量,其吸附模式属于离子交换;其对重金属离子具有一定的吸附选择性,其选择性能与离子的电性、电价、离子半径和水化热等因素有关;钢渣吸附Pb2＋是单层吸附,符合Langmuir等温吸附方程。