生活垃圾焚烧二噁英排放对人群健康影响研究进展

综述了二噁英对人体健康的危害特性, 以及我国生活垃圾焚烧厂二噁英排放浓度水平，及其周边环境空气和土壤中二噁英污染浓度水平、人群暴露途径、剂量和健康影响。指出，现有研究显示，我国生活垃圾焚烧排放的二噁英浓度在合理范围之内，垃圾焚烧厂周边人群二噁英暴露量普遍低于世界卫生组织（WHO）推荐的容许标准，但也有研究发现，垃圾焚烧会导致周边环境介质中二噁英浓度水平增高。提出，应重点关注垃圾焚烧排放二噁英的长期低剂量暴露对人群健康的影响。     

M12半自动净化法与手工净化法应用于飞灰中二噁英类检测比较

研究比较了M12半自动净化法与手工净化法应用于二噁英检测的效果。结果显示,采用高分辨气相色谱-高分辨质谱法(HRGC-HRMS)检测飞灰样品中的二噁英,手工净化法的回收率要优于M12半自动净化法的回收率,但M12半自动净化法除2种单体外,其余单体回收率均满足对二噁英的分析要求,且2种净化方法所得二噁英的总毒性当量结果相近,证明手工净化法与HRGC-HRMS联用检测飞灰中二噁英的效果较好,但M12半自动净化法也能够满足HRGC-HRMS检测二噁英的净化要求。应用酶联免疫法检测飞灰样品中二噁英的总毒性量,当样品中二噁英浓度较高时,M12半自动净化法和手工净化法净化测得结果与基准值一致性较好;当样品中二噁英浓度较低时,手工净化法检测结果与基准值差别较大,表明酶联免疫法更适合用M12半自动净化法进行净化。     

生活垃圾焚烧飞灰重金属检测试验方法探讨

生活垃圾焚烧飞灰中由于含有大量重金属等污染物而被列为危险废物,常见的重金属检测方法包括形态分析、全量测试及浸出毒性评价。本文对国内外这3类检测方法进行了系统总结及对比,选择出适合我国垃圾焚烧飞灰的重金属检测方法或标准,为飞灰的无害化资源化处置利用提供参考。     

城市垃圾焚烧炉飞灰中多环芳烃分析研究

报道了气相色谱/质谱分析垃圾焚烧厂飞灰样品中多环芳烃的分析方法和分析结果,建立了气相色谱/质谱分析垃圾焚烧厂飞灰样品中多环芳烃的分析方法。方法的加标回收率基本在80%～110%之间。     

生活垃圾焚烧炉烟气新标准可达性分析

对《生活垃圾焚烧污染控制标准》(GB 18485—2001)和《生活垃圾焚烧污染控制标准》(GB 18485—2014)中各项指标的排放限值作比较,并探讨了二噁英、重金属、酸性气体、烟尘、碳氧化物等烟气污染物的控制措施。结合2010—2014年浙江省部分生活垃圾焚烧厂"三同时"验收废气监测数据,对排放指标的达标情况作分析,结果表明,采用"3T+E"焚烧工艺+SNCR脱硝+半干法脱酸+活性炭喷射+布袋除尘器除尘的烟气污染控制技术,可以同时满足脱氮、脱酸、除尘,以及去除重金属和二噁英的要求。     

垃圾焚烧发电的技术特点及问题分析

随着垃圾产生量的增加,垃圾的处理成为人们十分关注的问题。填埋、焚烧和堆肥是目前普遍采用的三种处理方式,本文在综合介绍、对比三种方法处理特点的基础上,重点针对垃圾焚烧发电技术的相关问题着重进行了分析。采用垃圾焚烧工艺需要满足可燃物含量、低位发热值和垃圾含水率等基本参数,且选择层燃炉、回转炉、流化床等不同炉型,又有其各自的技术特点。同时,把垃圾焚烧发电的焦点问题集中在焚烧处理中产生的有毒物质二恶英、焚烧飞灰及渗滤液几方面,并对其解决对策进行了分析,以解决垃圾焚烧发电技术的瓶颈问题,实现可持续开发利用。     

市政垃圾焚烧飞灰中添加CaO抑制PCDD/Fs生成试验探究

采用自制装置，以CaO作为PCDD/Fs生成抑制剂，对市政垃圾焚烧飞灰做热处理。通过试验考察温度、CaO添加量等因素对飞灰中PCDD/Fs生成的影响。结果表明：质量分数为5%的CaO添加可以减少80%的PCDD/Fs生成。     

某典型生活垃圾焚烧企业烟气中二噁英类变化特征

本文选取了1家典型的生活垃圾焚烧企业作为研究对象,分别采集了净化前和净化后的烟气,结果表明:净化后的烟气中二噁英毒性当量浓度均低于0.1 ng TEQ/Nm 3,去除效率为98.3%;净化前二噁英主要以“从头合成”为主,净化后变化成“前驱物合成”为主;无论是烟气净化前还是净化后,O 8CDD、1,2,3,4,6,7,8-H 7CDD和1,2,3,4,6,7,8-H 7CDF,占比都是最大的;通过相关性分析,1,2,3,4,7,8-H 6CDF质量浓度与I-TEQ相关性最高,可作为二噁英潜在的测定指示物。通过对比研究净化前后的烟气,初步掌握了二噁英工艺流程中变化特征,为企业焚烧控制技术和环境管理提供了数据支持。     

生活垃圾与危险废物焚烧二噁英类排放特征研究

对某省52家焚烧企业(21家生活垃圾和31家危险废物)排放烟气数据进行了分析,结果表明,两类焚烧企业二噁英类17种单体分布有所不同,生活垃圾焚烧烟气中浓度较高的是O8CDD和O8CDF;危险废物焚烧烟气中较大的是2,3,4,7,8-P5CDF、2,3,7,8-T4CDD和1,2,3,7,8-P5CDD;两类焚烧企业二噁英类单体对I-TEQ贡献最高的都是2,3,4,7,8-P5CDF,贡献率分别为0. 7%～45%和10%～67%;两者的17种二噁英类与I-TEQ的相关性分析表明,1,2,3,7,8-P5CDF在2类焚烧炉中与I-TEQ均存在较高的相关性,其相关系数分别0. 932和0. 927,可以作为潜在的测定指示物。     

温州临江垃圾焚烧发电厂飞灰的性质研究

研究了温州临江垃圾焚烧发电厂生活垃圾焚烧产生飞灰的物理和化学性质。飞灰为含水率低、颗粒尺寸集中在43~175μm之间的灰色粉末,主要由Si、Al、Ca、Mg、Fe、Na、K、C和S元素组成。飞灰中Pb、Cd的浸出浓度在酸性条件下都不同程度地高于我国危险废物鉴别标准的允许浓度,其中Pb的浸出浓度在pH值1.06~13.69条件下远远超标,碱性条件下浸出毒性比酸性条件下小。矿物组成主要为石英(SiO2)、赤铁矿αFe2O3、钙长石CaO.Al2O3.2SiO2、钙铝黄长石2CaO.Al2O3.SiO2、KCl、NaCl、CaCO、PbO、TiO2、ZnCO3等,溶解盐含量高达19.5%,化学反应活性较强,热稳定性较差。     

重点区域生活垃圾焚烧行业实施大气污染物超低排放的可行性技术路线研究

随着中国城镇化建设进程的不断加快，生活垃圾焚烧行业迅猛发展。在钢铁、焦化以及燃煤电厂等行业已实施超低排放的情况下，推行生活垃圾焚烧行业超低排放，对进一步改善大气环境具有积极意义。国内一些省份和城市已经或者正在制定生活垃圾焚烧行业地方标准，积极推动行业污染物超低排放。笔者结合各地经验，探讨了4种不同技术方式、不同运行成本的超低排放可行性技术路线，为重点区域垃圾焚烧实施超低排放提供参考和依据。     

Incineration of hazardous wastes

Glaxo has practiced incineration of liquid and gaseous wastes for over twenty years and currently operate eleven liquid and gas incinerators in the United Kingdom and Singapore. The liquid incinerators burn, as their main streams, those solvents that cannot be recovered and recycled within the processes. The early installations were for readily combustible solvents only. However, there has been a progressive move into the destruction of more difficult and hazardous wastes, with the consequential requirements for more sophisticated technology, in the belief that the responsible destruction of waste should be tackled near to its source. The eventual aim is to be self-sufficient in this area of waste management. The incineration of hazardous liquid and gaseous waste has presented a series of design, operational and monitoring problems into account which have all been successfully overcome. The solutions take into account the environmental consequences of the operations from both liquid and gaseous emissions. In order to ensure minimal environmental impact and safe operation the best practicable technology is employed. Environmental assessment forms part of the process development and permitting procedures.Plenary speaker.     

Exploring the “not in my backyard” effect in the construction of waste incineration power plants - based on a survey in metropolises of China

Waste incineration power plants have become the best option in face of the increasing amount of garbage in China's cities. However, constructing waste incineration power plants will cause “not in my backyard” (NIMBY) effect in the public. To identify variables causing this effect and measure the effect quantitatively, we designed and carried out a random survey in four metropolises in China. Of the 3133 questionnaires distributed, 3066 are thought to be effective. Males, persons with higher educational levels, or with higher income, or having underaged children in their families, or thinking their neighborhoods are upscale ones are willing to pay more to avoid the construction of waste incineration power plants in their surroundings than others. In addition, provided that the respondents deem that the construction of waste incineration power plants would have an impact on their lives, they are willing to pay more no matter they own their departments or not. Finally, the estimated willingness to pay (WTP) to avoid the waste incineration power plants is 105 yuan to 133 yuan per month. Hence, the government should treat the NIMBY syndrome well in the construction of waste incineration power plants, with WTP being one perspective to persuade the public.     

生活垃圾与危险废物的焚烧工艺及污染防治措施比较

比较、归纳、总结了生活垃圾和工业危废焚烧项目在生产工艺、污染源产生及治理、污染物排放标准等方面的异同点,提出必须重视废气排污口设施与在线监测仪器的安装,应完善事故防范措施与应急预案等检查要求,为环保部门验收监测、监督管理工作提供技术支持.     

危险废物焚烧处置项目竣工环境保护验收监测要点

对危险废物焚烧处置项目竣工环境保护验收监测中尚需明确的要点进行了剖析,并从入炉危废种类及比例、焚烧量的控制、助燃剂加入量、空气过剩系统的把握,以及安全管理检查要点等方面,提出相应的解决办法。     

Modeling Waste Incineration for Life-Cycle Inventory Analysis in Switzerland

This paper proposes a mathematical model for life-cycle inventory analysis (LCI) of waste incineration in Switzerland. In order to model conventional and new incineration technologies adequately, fundamental aspects of the different technologies relevant for the LCI are discussed. The environmental impact of these technologies strongly depends on the assessment of the long-term emissions of the solid incineration residues and is therefore related to value based decisions about the time horizon considered. The article illustrates that the choice of the landfill model has a significant influence on the results of life-cycle assessment of waste incineration.     

长江经济带工业来源危险废物污染与处理特征分析及监管对策建议

依据2017年环境统计数据, 分析了长江经济带工业危险废物的污染及处理特征:长江经济带危废产生 量较大的省份是江苏、浙江、云南、湖南和四川；危废种类主要是来源于化工、钢铁、有色和造纸行业的废酸、有色金属冶炼废物、废碱和焚烧处置残渣；各地对危废的处理情况各有优劣。根据以上特征,提出加强对重点 区域的监管和调度,针对特定行业和危废种类,建议出台最佳可行的处理技术,建立区域之间危废管理大平台,促进区域危废处理优势互补和均衡发展,挖掘企业自行处理能力,减轻危废集中处理压力。