中国消耗臭氧层物质非法进出口贸易状况和对策分析

分析了我国在保护臭氧层工作中在进出口贸易方面存在的问题,重点分析了消耗臭氧层物质（ODS）非法贸易的形式,尤其是ODS作为制冷剂的非法贸易形式,论述了ODS非法贸易工作的防范重点。同时,分析了非法贸易产生的主要原因,阐述了我国控制ODS非法贸易的措施和成效,以及非法贸易对我国履行环境国际公约工作的危害。最后,就强化ODS进出口管理、减少杜绝ODS非法贸易提出工具体的对策建议：调整氟化工行业产品的出口退税率,加强打击“三非”能力和ODS进出口管理机构建设。     

炭化秸秆吸磷剂的制备及吸附性能研究

以水稻秸秆为原料,经炭化、KMnO4预氧化和FeSO4溶液改性后,制备得到低成本的改性炭化水稻秸秆（modified carbonized rice straw,MCRS）.采用Zeta电位分析仪、扫描电镜、能谱仪、比表面积分析仪、红外光谱分析仪和X射线衍射分析仪多种手段,分析了炭化水稻秸秆和MCRS的理化性能.通过静态吸附试验研究了吸附剂投加量、pH值和温度对MCRS除磷效果的影响.结果表明：MCRS对磷的吸附是一个吸热过程,其吸附等温线可用Langmuir方程进行拟合.当投加量为4g·L^-1、pH值为7时,MCRS对水溶液中磷的去除率最高可达96％;依据Langmuir方程计算得到,30℃条件下,MCRS对磷的最大吸附量为5.49 mg·g^-1.     

非贵金属催化电解无害化去除硝酸盐氮的反应机制

以Ti/Co-Fe-Cu为阴极,Ti/IrO2-RuO2为阳极组成无隔膜电解体系,对非贵金属催化电解无害化去除NO3--N的反应机制进行了实验研究和理论分析.结果表明,NO3--N阴极催化还原过程中,反应物、产物需要通过对流、扩散作用,克服电场力,迁移至目标位置;在非贵金属的催化作用下,NO3--N受还原剂攻击,逐步还原为NH4+-N;还原中间产物NO-N和NH-N直接生成N2-N的过程受抑制,产物NH4+-N难以被再度直接氧化.添加Cl-作为支持电解质,实验电解体系发生阳极析氯、Cl2水解、NH4+-N氯氧化等过程,可将NH4+-N氧化为N2-N,且出水中NO3--N、NO2--N、氯胺类浓度很低.NO3--N无害化去除的反应机制是NO3--N在催化作用下,经传质、吸脱附、电子交换过程,还原为NH4+-N,NH4+-N经由Cl-→Cl2→HOCl→Cl-电解氯氧化循环,最终生成N2-N.     

中国汞污染的来源、成因及控制技术路径分析

汞是一种能长期存在于环境且具有全球迁移性的污染物.汞污染防治是一个复杂的系统工程,涉及多部门、多领域、多行业,国家需要在政策、管理和技术等方面采取综合的战略措施推进汞污染防治.本文基于汞污染的环境和社会影响,分析了中国汞污染的来源、成因并评估了中国汞管理体系,结合中国参加全球汞公约谈判的特定背景,识别出汞污染防控的优先行业,包括汞的无意排放优先控制行业:燃煤、有色金属冶炼、汞矿开采和含汞废物处理;汞的有意使用优先控制行业:电石法聚氯乙烯生产,医疗产品、荧光灯和电池生产.本文也进一步提出了汞污染控制技术路径,包括构建汞风险管理和识别平台、完善汞管理体系、加强环境技术研发、推进绿色转型、保护环境和公众健康等.     

水体中磺胺甲恶唑和甲氧苄氨嘧啶的自然光降解

实验研究了磺胺甲恶唑和甲氧苄氨嘧啶连续暴露于自然光下72 h,在pH值为4.0、7.0、9.0水体中的光降解行为,同时考察了黑暗条件下对照样品在不同pH条件下的稳定性.实验表明,光强、光照时间、水体pH都直接影响到磺胺甲恶唑的去除率.在自然光照环境下,不同pH溶液中的磺胺甲恶唑均易发生光降解,而黑暗对照样品去除率较小.甲氧苄氨嘧啶则比较稳定,几乎未发生降解,但黑暗对照样品在pH值为4.0和7.0的溶液中,与起始浓度相比,去除率大于10%,这可能主要与该药物在不同pH溶液中的离子形态及光照过程中的温度波动有关.     

Selective recovery of Cu, Zn, and Ni from acid mine drainage

In Korea, the heavy metal pollution from about 1,000 abandoned mines has been a serious environmental issue. Especially, the surface waters, groundwaters, and soils around mines have been contaminated by heavy metals originating from acid mine drainage (AMD) and mine tailings. So far, AMD was considered as a waste stream to be treated to prevent environmental pollutions; however, the stream contains mainly Fe and Al and valuable metals such as Ni, Zn, and Cu. In this study, Visual MINTEQ simulation was carried out to investigate the speciation of heavy metals as functions of pH and neutralizing agents. Based on the simulation, selective pH values were determined to form hydroxide or carbonate precipitates of Cu, Zn, and Ni. Experiments based on the simulation results show that the recovery yield of Zn and Cu were 91 and 94 %, respectively, in a binary mixture of Cu and Zn, while 95 % of Cu and 94 % of Ni were recovered in a binary mixture of Cu and Ni. However, the recovery yield and purity of Zn and Ni were very low because of similar characteristics of Zn and Ni. Therefore, the mixture of Cu and Zn or Cu and Ni could be recovered by selective precipitation via pH adjustment; however, it is impossible to recover selectively Zn and Ni in the mixture of them.     

Geochemistry and health risk assessment of arsenic exposure to street dust in the zinc smelting district, Northeast China

The aim of this study was to investigate arsenic (As) accumulation in street dust and health risk of population. The investigation concentrated on: a. pollution levels of As in street dust; b. spatial distribution of As in street dust; c. physicochemical properties analysis of street dust; and d. assessment of population health risk due to As exposure to street dust. As concentration in street dust ranged from 3.33 to 185.1?mg?kg^?1, with a mean of 33.10?mg?kg^?1, which was higher than the background value of Liaoning soil. As contamination level of the area closing to Huludao Zinc Plant (HZP) was highest. Spatial variation showed that the pollution center was close to HZP, formed radial distribution pattern and extended to the northeast and southwest of HZP. The pH and organic matter of street dust were both higher than the background values of soil in Liaoning. There was significantly negative correlation between As concentration and the pH. The mass percentages of particles 180?C100,?<100?C75,?<75?C63, and?<63???m were 29.8, 3.7, 21.3, and 4.2?%, respectively. The highest of As concentration was found in the smallest particle size (<63???m). As loadings in the particles of grain size 180?C100 and?<75?C63???m were higher than other particle fractions. Results of the risk assessment indicated that the highest risk was associated with the ingestion of street dust particles. Health risk for different use scenarios to human decreased in the order of HZP?>?Industrial district?>?School?>?Commercial center?>?Residential area. Around HZP, Hazard Index (HI) for children and cancer risk of As by street dust exposure exceeded the acceptable values. It indicated that there was a potential adverse effect on children health by As exposure to the street dust of Huludao.     

Genotype variations in accumulation of cadmium and lead in celery (Apium graveolens L.) and screening for low Cd and Pb accumulative cultivars

To help reduce risks of heavy metal pollution, two pot experiments were conducted to investigate the variations, transfer potential, and stability of Cadmium (Cd) and Lead (Pb) accumulations in celery (Apium graveolens L.) and to screen for low Cd and Pb accumulative cultivars. The maximum differences in shoot Cd concentration were 4.7-fold under low-Cd exposure and 3.3-fold under high-Cd exposure. These genotype variations in Cd accumulation are sufficiently large to help reduce Cd contamination risk in soil by using the Low-Cd-Accumulative genotypes. Cd accumulation of the Low-Cd-Accumulative genotypes is significantly positive correlated with Pb accumulation. Evidence obtained proves that Cd and Pb accumulations in celery are stable and genotype-dependent at the cultivar level. The presence of high-Pb contamination in soil promoted Cd accumulation in shoots of celery. Celery is considered a species with high risks in Cd pollution and low risks in Pb pollution. Among the tested cultivars, cv. Shuanggangkangbing (SGKB) had the lowest shoot Cd and Pb accumulating abilities, and thus is the most important material for breeding of pollution-safe cultivars (PSCs) to minimize Cd and Pb accumulations in celery.     

一种基于工作流模型的系统运行评估方法

复杂信息系统各功能正常运行依赖于内部各数据处理节点之间的高效协作和数据交互。针对复杂信息系统运行情况评估的需求,提出了一种基于工作流模型的评估方法,能够依据系统运行过程中各节点之间的数据交互关系建立模型,通过该模型对系统的记录数据进行自动化处理,实现系统整体运行情况、各节点运行情况以及各项功能完成情况的统计和分析,实现故障问题的隔离和定位。