啤酒行业涉氨环境风险特征、评估及防控对策

为了解和掌握啤酒行业涉氨环境风险状况,分析了啤酒行业液氨在运输、贮存和使用过程中的环境风险单元和特征。以典型啤酒厂为例,对其环境风险进行评估,确定环境风险等级,并利用环境风险评价系统(RiskSystem)模型对其在不同风速条件下发生液氨泄漏的环境风险进行了预测分析,进而提出有针对性的环境风险防控对策。研究结果表明:啤酒行业在液氨贮存和运输环节存在较大的环境风险,阀门、法兰、接口等连接部位腐蚀和操作不当是氨泄漏的主要原因。根据典型案例环境风险评估和模拟预测结果,在受体敏感区域环境风险较大,风速对氨泄漏事故的影响范围有较大作用,需要严格预防和加强风险控制。建议国家和地方尽快出台相应的环境风险防范技术规范;涉氨单位应以预防为主,加强环境风险单元和重点环节的隐患排查力度,严格落实风险防控措施和要求。     

河南省煤化工行业环境风险等级划分研究

基于目前国家建立环境污染责任保险制度的规划需求和河南省当前新发展形势需要,选择以河南省典型高污染、高风险行业(即煤化工行业)为研究对象.在对相关理论进行分析的基础上,识别影响河南省煤化工行业的环境风险因子,并确定指标的评估标准(权重及评分结果).遵照指标体系的建立原则,采用层次分析法,从内在性和外在性两方面因素构建煤化工行业环境风险等级划分指标体系,进一步将评分结果与环境风险等级比对,最终将煤化工行业的环境风险等级划分为5个等级,为河南省环境污染责任保险制度的建立奠定基础.     

焦化行业的环境风险评价方法

结合具体实例，对焦化行业环境风险评价中，环境风险污染源的识别、影响预测及环境风险的减缓措施和应急预案的制定等评价方法进行了分析。     

基于区域环境风险敏感性分析的石油化工行业规划环境风险评价

石油化工行业规划涉及多个石油化工项目的选址和多个备选方案的比选,增大了环境风险评价的不确定性.基于区域环境风险敏感性分析,研究了环境风险评价方法.在传统的环境风险分析框架即事故的发生概率(风险度)与事故的环境后果的基础上,考虑区域环境风险敏感性对环境风险评价的影响,对规划布局涉及区域的环境风险进行评价,最后将该方法初步应用于实际案例中.研究表明,该方法可以有效地分析多个备选方案的规划的环境风险,分析结果直观、可行,且可以辅助决策者对产业布局的合理性作出准确的判断,通过对该方法在应用中存在问题的分析,展望了规划环境风险评价的进一步工作.     

流域水污染源环境风险分类分级管理研究

为了恢复和维持流域水环境的物理完整性、化学完整性和生态完整性,在对潭江流域和辽河流域印染、造纸、电镀、制药、石化等行业企业采样监测和问卷调查的基础上,识别出了流域主要的水污染源及其环境风险,并提出了基于环境风险大小的自控污染源、监控污染源、严控污染源和特控污染源4个分级管理策略。     

化工厂环境风险评估方法探讨

对某化工厂事故隐患进行了周密调查及工程分析，筛选出主要风险因子并进行风险预测；运用概率统计法对不同生产方案、不同污染源强及不同环境功能区的污染风险进行了综合评价研究。     

论环境风险社会放大的制度根源与法律应对

环境风险的社会放大是指公众对环境风险的感知及其行为反应超越了环境风险应有的影响程度。环境风险的社会放大具有信息判断的主观性、形成原因的复杂性和影响后果的多层性,对社会稳定、经济发展和政府形象都会产生不良影响。中国环境风险社会放大的制度根源在于环境风险评估制度不科学、环境风险信息交流制度不健全、环境风险责任分配制度不合理。为了避免环境风险社会放大所带来的不必要的损失,法律应从环境风险评估、环境风险信息交流、环境风险责任分配等3个方面进行制度完善。     

环境风险全过程管理机制研究

中国突发性环境污染事件已进入高发期.结合中国环境风险控制的要求,针对环境风险发生的3个阶段(事前预防、事中响应、事后处置)从环境风险源、控制管理机制、环境风险受体3个因素人手,在环境风险源管理、区域环境安全规划、环境风险应急管理、环境污染事后评估与环境修复等4个环节搭建环境风险管理长效机制,建立环境风险全过程管理体系.     

中国造纸行业的环境风险评价及防范措施

结合全国造纸行业发展现状和趋势,分析了行业中的主要风险源、风险类型、产生原因、概率等进行风险预测,并提出相应的防范措施与应急预案。     

化工厂环境风险评价方法探讨

对某化工厂事故隐患进行了周密调查及工程分析，筛选出主要风险因子并进行风险预测，运用概率统计法对不同生产方案，不同污染源强及不同环境功能区的污染风险进行了综合评价研究。     

Emission factors of air toxics from semiconductor manufacturing in Korea

The development of local, accurate emission factors is very important for the estimation of reliable national emissions and air quality management. For that, this study is performed for pollutants released to the atmosphere with source-specific emission tests from the semiconductor manufacturing industry. The semiconductor manufacturing industry is one of the major sources of air toxics or hazardous air pollutants (HAPs); thus, understanding the emission characteristics of the emission source is a very important factor in the development of a control strategy. However, in Korea, there is a general lack of information available on air emissions from the semiconductor industry. The major emission sources of air toxics examined from the semiconductor manufacturing industry were wet chemical stations, coating applications, gaseous operations, photolithography, and miscellaneous devices in the wafer fabrication and semiconductor packaging processes. In this study, analyses of emission characteristics, and the estimations of emission data and factors for air toxics, such as acids, bases, heavy metals, and volatile organic compounds from the semiconductor manufacturing process have been performed. The concentration of hydrogen chloride from the packaging process was the highest among all of the processes. In addition, the emission factor of total volatile organic compounds (TVOCs) for the packaging process was higher than that of the wafer fabrication process. Emission factors estimated in this study were compared with those of Taiwan for evaluation, and they were found to be of similar level in the case of TVOCs and fluorine compounds.     

Emission Factors of Air Toxics from Semiconductor Manufacturing in Korea

Abstract

The development of local, accurate emission factors is very important for the estimation of reliable national emissions and air quality management. For that, this study is performed for pollutants released to the atmosphere with source-specific emission tests from the semiconductor manufacturing industry. The semiconductor manufacturing industry is one of the major sources of air toxics or hazardous air pollutants (HAPs); thus, understanding the emission characteristics of the emission source is a very important factor in the development of a control strategy. However, in Korea, there is a general lack of information available on air emissions from the semiconductor industry. The major emission sources of air toxics examined from the semiconductor manufacturing industry were wet chemical stations, coating applications, gaseous operations, photolithography, and miscellaneous devices in the wafer fabrication and semiconductor packaging processes. In this study, analyses of emission characteristics, and the estimations of emission data and factors for air toxics, such as acids, bases, heavy metals, and volatile organic compounds from the semiconductor manufacturing process have been performed. The concentration of hydrogen chloride from the packaging process was the highest among all of the processes. In addition, the emission factor of total volatile organic compounds (TVOCs) for the packaging process was higher than that of the wafer fabrication process. Emission factors estimated in this study were compared with those of Taiwan for evaluation, and they were found to be of similar level in the case of TVOCs and fluorine compounds.     

啤酒厂废水处理技术浅析

根据国内啤酒废水水质水量特点，比较分析了国内啤酒废水治理技术和可供选择的治理方案，同时综合实例，指明了清洁生产是啤酒行业治理污染的必然选择，指出啤酒行业可以通过节约用水、啤酒酵母回收利用以及CO2回收利用等途径，实施清洁生产，从而实现经济效益、社会效益、环境效益三个统一。     

Recent developments in MnO2-based photocatalysts for organic dye removal: a review

The textile industry consumes a large volume of organic dyes and water. These organic dyes, which remained in the effluents, are usually persistent and difficult to degrade by conventional wastewater treatment techniques. If the wastewater is not treated properly and is discharged into water system, it will cause environmental pollution and risk to living organisms. To mitigate these impacts, the photo-driven catalysis process using semiconductor materials emerges as a promising approach. The semiconductor photocatalysts are able to remove the organic effluent through their mineralization and decolorization abilities. Besides the commonly used titanium dioxide (TiO₂), manganese dioxide (MnO₂) is a potential photocatalyst for wastewater treatment. MnO₂ has a narrow bandgap energy of 1~2 eV. Thus, it possesses high possibility to be driven by visible light and infrared light for dye degradation. This paper reviews the MnO₂-based photocatalysts in various aspects, including its fundamental and photocatalytic mechanisms, recent progress in the synthesis of MnO₂ nanostructures in particle forms and on supporting systems, and regeneration of photocatalysts for repeated use. In addition, the effect of various factors that could affect the photocatalytic performance of MnO₂ nanostructures are discussed, followed by the future prospects of the development of this semiconductor photocatalysts towards commercialization.

     

浅谈电镀清洁生产技术与管理

介绍了电镀行业的清洁生产技术与加强清洁生产管理。通过发展环保技术，从源头削减和技术改造来减少污染物的产生量，不断加强企业清洁生产管理，促进电镀行业实现社会效益、经济效益和环境效益的统一，走可持续发展的道路。     

Generic scenario for the impact of cooling lubricants into the hydrosphere

According to directive 93/67/EEC of the European Commission, this paper deals with the generic exposition evaluation of the environmental concentration of cooling Lubricant chemicals from the metal working industry into the hydrosphere. After considering the relevant life-cycle steps and the selection of a representative point source for the 'reasonable worst case', the emission per day Elocal(water) is determined. It leads to the predicted environmental concentration (PEClocal(water)) for the local stage in the compartment water. In order to gain the PEClocal(water) for an example--a corrosion inhibitor as additive in a cooling lubricant--, the relevant emission paths and the corresponding representative point source are described for the reasonable worst case. For non-water-miscible cooling lubricants, none of the operations in the life cycle leads to a release into the compartment water. To evaluate the hazard potential for cooling lubricant chemicals, the complete risk assessment has to be done. Also, the assessment has to be done for all high production volume chemicals, new substances and existing hazard chemicals. This means that even industrial categories like chemicals used in the textile industry or biocides and others have to be evaluated.     

化工项目环境影响评价要点

化工项目的环境影响评价应严格执行有关的法律、法规和导则,并结合行业特点执行特定的条例和规范。在其评价过程中应确保工程分析数据的可靠性和措施的可行性,对是否符合清洁生产进行详细阐述,针对事故风险进行评价并提出防范措施,最后对有毒废渣的处理提出要求。     

Economic analysis of environmental problems in textile dyeing units: a case study from Ranaghat, West Bengal

The dye and dye intermediaries industry is an important segment of the chemical industry that provides inputs to a large number of industries. Currently, the Indian dyestuff industry is in the midst of a major restructuring and consolidation phase. With the emphasis on product innovation, rebuilding and environmental friendliness, this industry is increasingly moving towards greater customer orientation. Given the dynamic nature of the dyestuff industry in India and its tremendous potential, this study aims to conduct an economic analysis of the industry, with specific reference to its inherent environmental problems. The scope of the study was limited to a study of some units in Ranaghat, a town in the Nadia district of West Bengal. The potential environmental problems and the health hazards arising as results of dyes and dye production have been investigated. A case study of a dyeing unit in Ranaghat is presented, highlighting the negative impact on the water quality of its adjoining river, followed by some suggestions on ways of handling the pollution problem. A cost–benefit analysis of a dyeing unit in Ganganagar, and application of the results to the dyeing industry in Ranaghat, is also reported. The study also suggests some policies for consideration.     

European union system for the evaluation of substances: the second version

This publication presents major changes in the assessment of the risks of chemicals to human health and the environment as implemented in the second version of the European Union System for the Evaluation of Substances, EUSES 2.0. EUSES is a harmonised quantitative risk assessment tool for chemicals. It is the PC-implementation of the technical guidelines developed within the framework of EU chemical legislation for industrial chemicals and biocides. As such, it is designed to support decision making by risk managers in government and industry and to assist scientific institutions in the risk assessment for these substances. The development of EUSES 2.0 is a co-ordinated project of the European Chemicals Bureau, EU Member States and the European chemical industry. Several model concepts, the technical background and the user interface of EUSES have been improved considerably. Major changes in the environmental assessment such as the implementation of emission scenario documents for industrial chemicals and biocides, the addition of the marine risk assessment, the enhancement of the regional model to include global scales, and improvements in the secondary poisoning and environmental effects modelling will be discussed. The update of the human risk assessment module in EUSES focuses on the risk characterisation for both threshold and non-threshold substances with, among others, the introduction of assessment factors. The performance of EUSES is illustrated in an example showing the human and environmental risk assessment of a sanitation disinfectant for private use.