钻井废弃液中石油污染物及细菌生态多样性

采用GC/MS分析方法,发现平湖油田钻井废弃液中含有烃类、酸类和酯类等23种有机污染物质,含量达到49 800 mg/L。运用16S rRNA基因分析法测得的微生物生态多样性表明,废弃液中微生物种类丰富,包括γ和β变形杆菌,γ-Proteobacteria是优势菌群,占克隆总数78.6%。Oceanospirillales、Pseudomonadales和Enterobacteriales是γ-Proteobacteria纲的主要菌群。     

衡阳市城市垃圾处理现状及改进建议

城市垃圾数量大、成分复杂,如果不好好处理会对环境和人体健康造成很大危害.就城市垃圾的危害及垃圾处理现状进行了分析,并对衡阳市垃圾处理提出改进建议.参6.     

利用废弃物煅烧水泥时重金属Pb、Cd的逸放污染

利用废弃物作为代替原料煅烧水泥已广泛应用于水泥生产,但其带来的环境污染问题不容忽视。以利用废弃物生产水泥的厂家为研究对象,采用原子吸收分光光度法检测所采集样品中重金属Pb、Cd的含量,对水泥生产过程中重金属Pb、Cd的逸放及其对周围土壤的污染进行研究。研究结果表明：利用废弃物煅烧水泥的过程中,重金属Pb、Cd的逸放率很高,其中立窑的Pb、Cd逸放率高达84％～90％。湿法回转窑的Pb、Cd逸放率达到63％～74％;在水泥厂上下风向500m、1000m和2000m处采集土壤样品,工厂周围的土壤均已受到不同程度的重金属污染,位于工厂下风向的土壤受到的污染更为严重,距离工厂500m处土壤中重金属Pb、Cd的含量均超过了国家标准的最大限量;对几家工厂员工的头发进行随机取样,头发样品中Pb含量均超过正常限量：     

基于健康风险的土壤修复目标研究程序与方法——以多环芳烃污染土壤再利用工程为例

提出了基于人体健康风险的土壤修复目标的制定方法和程序,并以上海市某重大工程多环芳烃污染土壤处理后再利用工程为例,模拟了多环芳烃在处置场地上的多介质迁移途径及人体暴露场景。模拟结果显示,填埋场污染土壤苯并(a)芘(该污染物毒性因子高,毒性强,致癌风险相对较大)经口摄入和皮肤接触途径最大致癌暴露量分别为1.89×10-6和0.93×10-6mg.kg-1.d-1,人体最大致癌风险水平分别为1.38×10-5和6.79×10-6,超出了中国规定的单致癌污染物的可接受风险水平(≤10-6)。苯并(a)芘呼吸吸入途径最大致癌暴露量为7.79×10-10mg.m-3,人体最大致癌风险水平为6.86×10-10。基于场地的特征条件和参数,以保护人体健康为目的,确定了再利用作为填埋场中层覆土的土壤中5种多环芳烃污染物的修复目标限值(w,mg.kg-1)分别为:苯并(a)芘,0.994;二苯并(a,h)蒽,0.995;苯并(a)蒽,9.95;苯并(b)荧蒽,9.95;苯并(k)荧蒽,99.5。     

Ergonomic Program Effectiveness: Ergonomic and Medical Intervention

The implementation of a successful ergonomic and medical intervention program designed to reduce the number and severity of injuries and illnesses and the associated levels of discomfort in the workplace is presented. Because of the recent activity concerning the on-again-off-again Occupational Safety and Health Administration (OSHA) Ergonomic Program Standard questions have been raised as to the value and effectiveness of an organization’s ergonomics program. In light of these concerns, the immense cost associated with work-related injury and illness, and the related pain and suffering associated with such injuries and illnesses, it is important to present a workable and effective ergonomic and medical intervention program. The results of this applied study demonstrate that through the application of an ergonomic and medical intervention program, workplace-related injuries and illnesses can be reduced or eliminated.     

典型进口废物循环利用技术园区投资建设模式研究

随着社会经济的快速发展、资源及原材料需求量的不断增加,以进口废物为原料进行加工利用的循环经济园区也随之蓬勃发展。循环经济产业园区建设过程中有投资巨大、资本回收周期长、投资主体众多的特点。在考虑经济效益的同时,也要统筹考虑社会效益和环境效益,因此选择何种投资建设模式来指导园区建设具有十分重大的意义。本文通过对国内三省的四个园区投资建设模式的调查研究,分析对比了不同投资建设模式的典型特征,总结概括了不同模式之间的优缺点,为同类园区的开发建设提供了有益参考。     

进口废塑料环境保护管理研究

随着塑料资源的大量消耗,废塑料的利用引起了社会的高度重视。工艺简单,投入成本少,入行门槛低导致部分废塑料加工利用企业技术水平低、管理模式差、环境污染重。为规范进口废塑料行业,通过调研统计、实验分析、咨询论证和研究了进口废塑料环境保护管理规定,对进口废塑料企业的规模、设备、人员和管理等方面提出了要求,为进一步规范提升进口废塑料行业提供技术支撑。     

危险废物出口管理的虱际经验及对我国的启示

中国危险废物的产生量呈增长态势,危险废物出口的数量也逐年增加。本文重点分析美国、日本等发达国家的危险废物出口管理经验,结合发展中国家马来西亚的管理模式,通过综合研究国际危险废物出口管理政策,对我国危险废物出口管理工作提出了建议。     

Municipal solid waste management in South Africa: from waste to energy recovery through waste-to-energy technologies in Johannesburg

ABSTRACT

“Waste-to-energy” (WTE) technologies have been presented as one of the avenues to improve the management of solid waste whilst promoting clean and healthy urban environments through the recovery of waste and generation of energy. Research suggests that with the right investment in technologies and institutional changes, waste can potentially become a resource that can contribute to the socio-economic development of cities. It is in this context that this paper presents a review of the literature on WTE technologies and their implications on sustainable waste management in urban areas. The paper particularly contributes to our understanding of WTE technologies and its potential on Municipal Solid Waste Management (MSWM) in Johannesburg, South Africa. It is estimated that the city of Johannesburg’s landfills airspace will be completely depleted by year 2023. This projection becomes a motivation for the identification of suitable WTE alternative avenues to manage waste in the city. The paper argues that WTE technologies can contribute significantly to sustainable waste management, economic growth, ecological and environmental well-being.     

Biorefinery study of availability of agriculture residues and wastes for integrated biorefineries in Brazil

Brazil has a great potential for use renewable raw materials in biorefineries. It is one of the largest producers of agricultural and animal commodities, which produce large amounts of residues and wastes. These agricultural residues and animal waste can be effectively transformed to energy and other products in systems similar to a ethanol refinery where an integrated process involves conversion for biomass into fuel, energy and chemicals, integrated in the context of a biorefinery. The objective of this work is the determination of the actual availability of main agricultural residues and animal wastes generated in Brazil and of their generation potential index and their prospects for 2020. The results indicate that the sugarcane has the highest agronomic availability, reaching 157 million tons of fresh material and an estimated reuse potential of 19.6 million tons (dry basis), followed by soybeans, rice, maize, orange, wheat, cotton, cassava and tobacco.