复合沸石滤床修复北方景观水体的实验研究

以天然矿物质沸石、细砂及煤渣取代传统滤料构建复合基质生态床，表面种植景观植物，采用下向流-上向流运行方式修复北方景观水体。分别进行静态实验及不同循环速率下的动态实验，考察对水体污染物去除过程。结果表明，2种运行方式下对水体NH⁺₄-N去除率都在85%以上，其中以1 h为循环周期的运行方式去除率达97%，较静态提高12.8%；TN去除率最高为84%；TP去除不稳定，过程缓慢。煤渣层对NH⁺₄-N的去除效果差，硝化作用不彻底与反硝化作用的加强使下层出水NH⁺₄-N 、NO^-₂-N及NO^-₃-N浓度均高于上层。提高循环速率有利于对氮的去除。     

生物反应器填埋的沉降加速效应

通过实验室填埋柱模拟实验，研究了生物反应器填埋操作方式对填埋层沉降的影响。结果表明：与传统卫生填埋方式相比，回灌经厌氧生物处理后渗滤液的生物反应器填埋方式能够加速填埋层的沉降，140 d内沉降提高比例达10%以上。我国填埋垃圾高含水率、高易腐有机物含量的特性，使得其填埋层的次沉降系数高于文献值。填埋垃圾有机物降解量及其引起的垃圾水分排出量与填埋层沉降有显著相关性，表明有机物降解是引起填埋层沉降的重要因素，也是造成生物反应器填埋与传统卫生填埋方式初期沉降差异的主要原因。     

氮掺杂氧化钛的简易制备及可见光催化活性的研究

为开发对可见光响应的催化剂，以尿素为氮掺杂剂，采用简易溶胶-凝胶法制备氮掺杂氧化钛，并以2,4-DCP的降解检验其光催化活性。XRD、BET、XPS和UV-Vis漫反射光谱分析表明，随着氮/钛原子比（N/Ti)的增大，各催化剂晶粒尺寸减小，比表面积增大，锐钛矿相向金红石相的转变得到抑制，除0#样品出现金红石相外，其他催化剂均只出现锐钛矿相；掺入催化剂的N位于晶格O位点和晶格间隙，替代N和间隙N掺杂使催化剂的光吸收发生明显的红移。荧光光谱分析表明，当N/Ti在0～6范围内增加时，反应体系中·OH自由基的产生速率增加，当N/Ti增大至8时，速率则下降。相似的规律也表现在氮掺杂量对光催化活性的影响。适量氮掺杂能增强氧化钛的可见光催化活性，该改性催化剂可用于有机污染物的太阳光激催化降解。     

Effects of cadmium on forearm bone density after reduction of exposure for 10 years in a Chinese population

The main focus of this study was to evaluate long term effects of cadmium on forearm bone mineral density after stopping ingestion of cadmium-polluted rice for 10 years in a Chinese population. A total of 532 persons (338 women and 194 men), living in control, moderately and heavily polluted areas, were included in this study. The residents living in the polluted area ceased ingesting cadmium-polluted rice in 1996. All participants were require to answer a questionnaire and the bone mineral density (BMD) was measured by dual energy X-ray absorptiometry (DXA) at the proximal radius and ulna. Samples of urine and blood were collected for determination of cadmium in urine (UCd) and blood (BCd).The BMD of subjects living in the heavily polluted area was significantly lower than that of those living in control area in both men and women (p < 0.01). For the people living in the moderately polluted area, only the women's BMD was greatly lower compared to that in the control area (p < 0.05). The BMD declined with the increasing BCd and UCd in both sexes, especially in the highest level (BCd > 5 µg/L, UCd > 10 µg/g crea) groups (p < 0.01). It was found that there were significant differences in the prevalence of osteoporosis among the different areas (χ² = 13.046, p = 0.0003) and different UCd groups (χ² = 4.511, p = 0.0337) in women, but not in men (χ² = 0.962, p = 0.3268; χ² = 1.906, p = 0.1675). But a significant difference exists in the prevalence of osteoporosis among different BCd groups in both genders (χ² = 9.304, p = 0.00229, in women; χ² = 4603, p = 0.0319, in men). This study suggested that cadmium could play a long-term role on bone and more attention should be paid to cadmium effects on bone metabolism after reduction of exposure.     

有机离子载入-复焙烧失法制备新型净水材料

探索了一种制备介孔复合净水材料的新方法——载入有机离子一复焙烧失法。通过实验得到的最佳工艺参数为：有机载入剂为CTMAB,有机载入剂(质量浓度5g/L)加入量4mL／g,有机离子交换反应时间2h,反应温度40℃,复焙烧失温度230℃,复焙烧失时间1．5h。在最佳工艺条件下制备的净水材料对色度为7400倍、COD为3040mg／L的染料废水的脱色率为98．9％,略优于杏壳活性炭的脱色率(98．2％);COD去除率为91．3％,与杏壳活性炭的COD去除率91．7％相差无几。净水材料的染料吸附量是添加剂升温烧蚀后产品的近85倍,是酸洗刻蚀后产品的近590倍,是原材料的900多倍,其对染料废水的净化能力整体优于杏壳活性炭。     

新型异养氨氧化菌的分离鉴定及氨氧化特性

从青岛海岸采集淤泥．通过富集培养,以硅胶平板点种分离．经纯化得到一株氨氧化菌H9菌株。该菌可以在营养培养基中生长,是一株异养氨氧化菌,经形态、生理生化特性、16SrRNA序列分析等初步鉴定该菌属于假诺卡氏菌属（Pseudonocardia sp．H9）。该菌株具有将氨氧化为硝酸的能力,明显不同于自养型的硝化作用过程需要亚硝化细菌和硝化细菌的密切协作才能把氨氧化成硝酸的特点。此外,该菌可以在无有机碳的培养基或在有机碳C／N达7或更高的培养基中氧化氨至硝酸;在亚硝化培养基与LB的混合培养基中,在LB占15％以下时,LB越高越有利于氨的氧化和菌的生长。该菌株的生长和氧化氨的最适温度为30℃;pH5．0～10．0,最适为8．0;氨离子摩尔浓度1～40mmol／L,最适为8mmol／L;氯化钠质量分数为0％～8％,最适为3．5％。由于该菌株具有以上的特性和优点．在污水的脱氮处理以及养殖海水的氨氮处理中有较高的应用前景,同时也是研究氨的生物氧化机制的理想菌株。     

Design and use of group-specific primers and probes for real-time quantitative PCR

Real-time quantitative polymerase chain reaction (qPCR) has gained popularity as a technique to detect and quantify a specific group of target microorganisms from various environmental samples including soil, water, sediments, and sludge. Although qPCR is a very useful technique for nucleic acid quantification, accurately quantifying the target microbial group strongly depends on the quality of the primer and probe used. Many aspects of conducting qPCR assays have become increasingly routine and automated; however, one of the most important aspects, designing and selecting primer and probe sets, is often a somewhat arcane process. In many cases, failed or non-specific amplification can be attributed to improperly designed primer-probe sets. This paper is intended to provide guidelines and general principles for designing group-specific primers and probes for qPCR assays. We demonstrate the effectiveness of these guidelines by reviewing the use of qPCR to study anaerobic processes and biologic nutrient removal processes. qPCR assays using group-specific primers and probes designed with this method, have been used to successfully quantify 16S ribosomal Ribonucleic Acid (16S rRNA) gene copy numbers from target methanogenic and ammonia-oxidizing bacteria in various laboratory- and full-scale biologic processes. Researchers with a good command of primer and probe design can use qPCR as a valuable tool to study biodiversity and to develop more efficient control strategies for biologic processes.     

Fluent软件在地表水源热泵系统温排水数值模拟中的运用

运用Fluent软件对重庆市嘉陵江化龙桥段瑞安新天地江水水源热泵系统尾水排入受纳水域的过程进行二维数值模拟,选取Fluent中非耦合、隐式求解器对模型内的定常流动进行求解,得出受纳水域受水源热泵系统温排水影响后的温升面积和温度梯度。结果表明:在温排水流量为2.0×103 m3/h、温差为4℃的条件下,计算该水域沿水流方向温升超过1℃的最大影响距离为150.4 m,温升超过1℃的水域面积约为1 525 m2,为模拟江水面积的8.59%。选取1℃温升值作为温升带的边界控制值,并在热泵系统最大负荷工况下,根据W=Q×ΔT计算研究水域热环境容量为19.402 m3.℃/s,剩余热环境容量为17.736 m3.℃/s。根据地表水环境质量标准,该工程温排水量小于受纳水域的热承载力,不会对受纳水域生态环境造成热污染。     

钢铁行业废水零排放技术探索

针对钢铁行业废水特点,分析了目前钢铁行业各工序及全厂主要废水污染控制措施,重点分析了二级反渗透工艺的主要流程及进出水水质,以及该工艺存在的主要问题。通过对大型钢铁集团的现场调研,以太钢采用的反渗透和蒸发结晶工艺为例分析了钢铁行业真正实现废水零排放的技术可行性。该技术可以很好解决钢铁行业浓盐水的外排问题。