2020年危险废物市场分析

危险废物处理与政策、法规、标准、技术、市场等影响因素关系密切。对2019年以来我国出台的危险废物管理政策法规、管理措施和标准规范情况进行梳理,对危险废物产生和利用处置情况进行对比分析,对危险废物利用处置技术进展、价格变动和市场投资趋势等进行概述,对环境违法案件舆情及突发事件等因素对危险废物市场影响进行分析,综合运用类比、归纳和演绎等方法,对2020年危险废物市场进行预测分析。     

电解铝工业危险废物处理技术的发展方向

针对电解铝工业产生的大量含氟危险废物,综述了国内外该类危险废物处理技术的发展历程和研究进展,并就目前国内电解铝工业危险废物的两种典型处理工艺进行了对比分析。指出:分类处理和浮选—浸出是目前处理电解铝工业危险废物的最佳工艺;湿法处理是实现电解铝工业危险废物资源化的技术发展方向;有价元素的进一步高效回收需要对工艺条件进行精细控制,从理论层面和分子水平进行深入研究。     

危险废物鉴别标准体系的发展与实践研究

危险废物鉴别是实现危险废物环境管理的关键环节和重要手段.在全面梳理危险废物鉴别标准体系的建立与发展的基础上,从危险废物鉴别实践的视角出发,对我国危险废物鉴别工作开展情况进行探究和分析,指出危险废物鉴别实践中存在的不足,并提出针对性的建议.     

危险废物焚烧厂烟气净化工艺设计与探讨

参考国内外已有的危险废物焚烧工程相关设计和研究资料,针对国内具有代表性的危险废物成分,采用设计计算得到危险废物焚烧烟气的污染物初始浓度,分析成熟的烟气净化工艺,对适合中国危险废物特点的危险废物焚烧厂烟气净化工艺进行了设计和探讨,为危险废物焚烧厂建设单位及设计单位等提供参考。     

重庆市危险废物市场分析及预测

随着危险废物政策的不断完善,以及重庆市对环境监管力度的不断加大,危险废物收集体系日益健全,危险废物产生、收集、集中处置量将继续增长.现有利用处置设施能力不足,规划的利用处置设施能力与处置缺口出现结构不平衡问题.针对这些问题,对重庆市危险废物的产量及处置现状、现有及规划的危废利用处置设施进行了统计整理分析,并对未来产量进...     

家居危险废物收集处置模式探讨

通过对家居危险废物种类和危害分析,明确了对其分类收集与安全处置的必要性,指出当前家居危险废物收集处置上存在的问题与弊病,对家居危险废物收集处置的管理模式进行了深入探讨,并提出合理化建议。     

国外超临界水氧化法在有机危险废物处理上的应用

介绍了以超临界水为反应介质的超临界水氧化法的特点及其在处理多氯联苯、二恶英等有机危险废物中的应用。     

国家禁建简易危险废物处置设施

针对一些地方建设的危险废物和医疗废物焚烧装置造成二次污染严重的情况，国家环保总局日前发出《关于严禁建设简易危险废物和医疗废物焚烧处置设施的紧急通知》，要求严禁建设各类简易危险废物和医疗废物焚烧处置设施，严禁以应急的方式和技术建设长期安全使用的设施，并严格建设程序。     

略谈清洁生产战略在医院废物处理中的指导意义

清洁生产战略作为环境管理的一项手段,是实现可持续发展战略的一项重要举措.医院废物作为一种危险废物,在其处理处置过程中,也应引入清洁生产思想,这对于有效利用资源和能源,减轻环境压力,都具有重要意义.     

危险废物安全填埋场渗滤液处理试验研究

采用聚铁混凝和 H2 O2 - Fe2 催化氧化二级串联法对某危险废物安全填埋场渗滤液进行处理试验。结果表明 ,在适宜条件下 ,渗滤液 COD和色度的去除率可分别达到 88.3%和98% ,砷可达到检不出水平     

Management of hazardous waste in Thailand: present situation and future prospects

 This paper deals with the present scenario of hazardous waste management practices in Thailand, and gives some insights into future prospects. Industrialization in Thailand has systematically increased the generation of hazardous waste. The total hazardous waste generated in 2001 was 1.65 million tons. It is estimated that over 300 million kg/year of hazardous waste is generated from nonindustrial, community sources (e.g., batteries, fluorescent lamps, cleansing chemicals, pesticides). No special facilities are available for handling these wastes. There are neither well-established systems for separation, storage, collection, and transportation, nor the effective enforcement of regulations related to hazardous wastes management generated from industrial or nonindustrial sectors. Therefore, because of a lack of treatment and disposal facilities, these wastes find their way into municipal wastewaters, public landfills, nearby dump sites, or waterways, raising serious environmental concern. Furthermore, Thailand does not have an integrated regulatory framework regarding the monitoring and management of hazardous materials and wastes. In addition to the absence of a national definition of hazardous wastes, limited funding has caused significant impediments to the effective management of hazardous waste. Thus, current waste management practices in Thailand present significant potential hazards to humans and the environment. The challenging issues of hazardous waste management in Thailand are not only related to a scarcity of financial resources (required for treatment and disposal facilities), but also to the fact that there has been no development of appropriate technology following the principles of waste minimization and sustainable development. A holistic approach to achieving effective hazardous waste management that integrates the efforts of all sectors, government, private, and community, is needed for the betterment of human health and the environment. Received: February 26, 2001 / Accepted: October 11, 2002     

The current situation of solid waste management in China

With economic development, the quantity of solid waste is increasing rapidly in China; the total quantities of municipal solid waste (MSW), industrial solid waste (ISW), and hazardous waste (HW) in 2002 were 136.5 million tons, 945 million tons, and 10 million tons, respectively. In 2002, the quantity of MSW disposed of was 74.04 million tons, 89.30% of which was landfilled, 3.72% was incinerated, and 6.98% was composted. There are currently 651 disposal facilities for MSW in China. Mining gangue is the largest component of ISW, making up 27.5% of the total. In the Chinese industrial sector, the coal mining and processing industry contributed most to the total quantity of ISW, with 16.0% of the total quantity of ISW generated by this sector. In total, 44% of HW was recycled, 27% was stored, 13.5% was disposed of, and 15.4% was discharged. Of the total HW generated, 40% was produced by the chemical materials and chemical products industry. Five categories of HW, i.e., waste alkali, waste acid, inorganic fluoride waste, copper waste, and inorganic cyanide waste, made up 57.8% of the total HW generated. Solid waste pollution has become a huge challenge faced by those involved in Chinese environmental management, but this can be seen as an opportunity to improve environmental quality. This article introduces the strategies taken to improve solid waste management in China.     

Current status and future focus of hazardous waste management in China

 Rapid social and economic development in China has caused the amount of hazardous wastes being generated to increase drastically. The necessary regulations and systems regarding the management of hazardous wastes are currently still not in place. Based on an analysis of the characteristics of hazardous waste pollution and pollution trends in China, this paper reports on China's current status regarding hazardous waste management, and introduces the main difficulties to be faced. The principles and objectives, and the action plan for hazardous waste pollution control in China are also explained in detail. These principles and objectives have been stipulated in the Technological Policies on Hazardous Waste Pollution Control, which is issued by China State EPA, State ETC, and the Science and Technology Ministry. Received: April 30, 2002 / Accepted: October 17, 2002     

The current situation of solid waste generation and its environmental contamination in China

In China, controlling environmental pollution resulting from solid waste (SW) and hazardous waste (HW) has become one of the most pressing tasks in the field of environmental engineering. It is reported that the annual generation of industrial solid waste (ISW) in China exceeded 0.6 billion tons in the 1990s, and is increasing every year. Although ISW management has been strengthened in recent years, about 40% of SW is put in uncontrolled landfill without appropriate treatment. According to statistics from the national Environmental Protection Agency, the cumulative ISW uncontrolled landfill in China had reached 6.6 billion tons by the end of 1995, occupying around 55 000 hectares of land. Although some major uncontrolled landfills were constructed, nonetheless groundwater contamination resulted from the use of low-standard liners and poor management. Furthermore, about 20 million tons of ISW was discharged into the environment illegally, and a third of this waste was discharged directly into water bodies, making ISW one of the greatest pollution sources for surface water and ground water. Environmental pollution accidents resulting from SW occur about 100 times a year in China, and environmental issues frequently arise because of ISW pollution. The practices of SW management, treatment, and disposal started relatively late in China, and for a long time the management of SW pollution has received little attention compared with water and air pollution management. China faces problems such as the insufficiency of management laws and regulations, insufficient investment, inadequate treatment and disposal technology, and a lack of qualified technicians. At present, most treatment and disposal technology cannot meet the requests for solid waste pollution control. In order to protect, restore, and improve environmental quality in China and to realize sustainable development, the safe management and disposal of solid and hazardous wastes is a pressing challenge. In recent years, much attention has been paid to SW management in China, and investment to develop management and treatment technologies has increased. In 1995, the Law for Solid Waste Pollution Protection was issued, and work on solid waste treatment and disposal began to be legally managed. SW treatment and disposal facilities have been constructed, and now operate in some large and medium-sized cities. In particular, rapid improvements have been seen in ISW recycling, collection, and disposal of municipal solid waste and regional HW management. All the figures in this paper are from 1995, and represent the situation in China in that year. Received: April 18, 2000 / Accepted: May 15, 2000     

废旧塑料的再生及其在制管行业中的应用

总结了再生、降解、焚烧及填埋等几种废旧塑料处置方式的特点,指出对于品种单一、老化程度低的废旧塑料应优先选择再生利用.重点介绍了废旧聚氯乙烯塑料、聚乙烯塑料、聚丙烯塑料、氯化聚氯乙烯塑料的再生及其在制管行业中的利用情况进展.     

油基钻屑处理处置研究新进展

油基钻屑是在勘探和开采油气资源的钻井过程中产生的一种典型危险废弃物。本文首先将现有各类繁杂技术划分为处置技术和处理技术,再通过进一步细化分类,系统综述了每项技术的原理、优缺点及应用潜力,总结出了“环保达标、经济可行”的处理处置基本原则,指出高值资源化是未来的研究方向之一。