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危险废物名录制度是危险废物环境管理的基础。2016年6月14日,环境保护部、国家发改委、公安部联合公布了《国家危险废物名录》(2016年版),对2008年版危险废物名录进行了调整。本文介绍了主要发达国家和地区危险废物名录制度的基本情况,对其优缺点进行了对比分析,以期为更好的理解新版危险废物名录提供参考。主要发达国家和地区的危险废物名录管理体系具有以下优点:一是完善的危险废物豁免排除制度加强了企业和管理部门的责任意识。二是危险废物和一般固体废物共享分类体系便于对废物的统筹管理,废物代码内容翔实,增加了名录的可操作性。三是基于不同处理责任主体进行分类,避免了名录方式或列举方式造成的"漏分"现象。四是根据环境风险实行分级管理,重点突出。同时存在几点不足:一是鉴别程序繁琐,降低了危险废物处置效率;二是存在部分行业产生的废物遗漏、同类危险废物分类过细等问题;三是部分国家危险废物分类过于笼统,不利于企业对危险废物种类及属性的识别。 相似文献
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固体废物管理是环境保护的有机组成部分。众所周知,固体废物利用或处置不当,将造成二次污染。水和大气污染治理,不解决其所产生的污泥、飞灰等固体废物,污染物不过是从水相或气相转移到固相转移而已,并未实现彻底的治理。 相似文献
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危险废物名录是危险废物环境管理的技术基础和关键依据,《国家危险废物名录(2021年版)》已发布,新名录的实施对我省危废环境管理工作具有较强的指导意义。 相似文献
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本文报道了四川食用菌183种,其中属于食、药兼用菌的有84种,我国新记录10种,四川新记录43种。为我省食用菌的开发利用及有关科研、生产等提供了科学依据。 相似文献
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2006年10月11日,“中国环境NGO在线名录发布仪式”在北京举行。中国环境NGO在线名录(GreenNGODirectory)项目是中国发展简报为环境NGO建立的。此项目由福特基金会支持,并由部分中国环境NGO的代表组成编辑咨询组作为顾问。中国环境N G O在线名录拥有独立的网站(www.greengo.cn), 相似文献
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结合辽宁省危险废物排放现状,提出辽宁省危险废物污染控制战略。建立全省危险废物管理与登记交换中心,建设省级危险废物安全填埋处置中心、危险废物焚烧中心、省级危险废物污染事故预警系统。提出全省医疗废物处置设施建设布局和技术路线选择方案、硼泥和铬渣处置技术路线。在大城市或经济较发达城市,可采取回转炉方法集中焚烧医疗废物,而运输半径之外偏远山区或经济欠发达城市可采用高温灭菌方法处置本辖区内的医疗废物。硼泥、铬渣则优先采用资源化技术进行处置。 相似文献
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在油气田开发生产过程中,会产生大量危险废物,如处置不当会造成严重污染,但如何判别危险废物是环境管理中的难点问题。文章分析了石油和天然气开采业生产工艺流程,对石油和天然气开采业的油井、联合站、集输管道产生危险废物的类型、环节进行了分析,可为有关人员对危险废物判定提供参考。 相似文献
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重金属螯合剂处理危险废物的研究进展 总被引:3,自引:0,他引:3
本文在综述重金属螯合剂处理危险废物技术现状的基础上,重点论述了重金属螯合剂处理危险废物的机理和方法,提出重金属螯合剂在重金属污染治理中将发挥重要作用。 相似文献
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/ Siting hazardous waste facilities is an extremely complex and difficult endeavor. Public aversion to the construction of these facilities in or near their community often results in concerted opposition, referred to as the NIMBY syndrome. For the most part, siting processes do not fail because of inadequate environmental or technical considerations, but because of the adversarial decision-making strategies employed by the proponents. Innovative siting processes used in the provinces of Alberta and Manitoba offer tangible evidence of the successful application of an innovative siting approach based on the principles of decentralization of decision-making authority and full and meaningful public involvement. The purpose of this paper is to evaluate four Canadian siting processes from the perspective of public participation and access to decision-making authority. Examples of siting processes related to hazardous waste management facilities are provided from the provinces of Alberta, Manitoba, British Columbia, and Ontario. Siting has evolved from approaches dominated by top-down decision making to increasing decentralized and pluralistic approaches. Focusing on social and political concerns of potentially affected communities and on the process of decision making itself are fundamental to achieving siting success. In Alberta initially, and later in Manitoba, this new "open approach" to siting has resulted in the construction of the first two comprehensive hazardous waste treatment facilities in Canada.KEY WORDS: Hazardous waste facilities; Siting methodologies; Public participation 相似文献
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分析了国内当前危险废物治理工作中普遍存在的问题及原因,对解决这些问题的方法进行了探讨,并对危险废物的管理工作提出了建议,同时结合国内外的成功经验,提出了一些新的思路。 相似文献
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我国危险废物处置收费政策在十多年的发展历程中逐步建立健全,促进了危险废物处置行业的发展壮大。本文基于对我国各省份危险废物处置收费政策的定价主体、分档方式、收费标准、调整情况等制定和执行状况的梳理分析发现,各省份以不同形式出台了危险废物处置收费政策,然而,重要内容缺失、动态调整滞后、有效监管不足等问题较为普遍。针对这些问题,文章提出了因地制宜健全收费政策、科学开展处置价格核算、加快建立动态调整机制、实施部门联动管理监督等建议,可为完善我国危险废物处置收费政策提供参考。 相似文献
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/ Animal burrowing is critical to the formation of soils and contributes to the interface between geological materials and organic life. It also influences the management of hazardous materials at nuclear waste facilities and elsewhere. For example, residues and waste products from the production of nuclear weapons are released onto the ground surface and within engineered burial structures. Soil bioturbation has exposed radionuclides and other hazardous materials to wind and rain, thereby risking inhalation and injury to humans and wildlife on and off site. Soil bioturbation can expand soil depths and spatial distributions of the source term of hazardous waste, potentially increasing chronic exposures to wildlife and humans over the long term. Ample evidence indicates that some of the large quantities of hazardous materials around the world have been released from soil repositories, where they have also contaminated and harmed biota. Key burrowing parameters influencing these outcomes include the catalog of resident species, and their abundance, typical burrow volumes (void space created by soil displacement), burrow depth profiles, maximum depth of excavation, constituents and structural qualities of excavated soil mounds, and proportion of the ground covered by excavated soil. Other important parameters include rate of mound construction, depth of den chambers, and volume of burrow backfill. Soil bioturbation compromised the integrity of some hazardous waste management systems using soil, but the environmental impact remains largely unknown. Designers and operators of waste management facilities, as well as risk assessors, need to understand how burrowing animals influence hazardous waste storage.KEY WORDS: Burrowing; Environmental impact; Radioactivity; Risk; Soil bioturbation; Hazardous waste 相似文献