共查询到19条相似文献,搜索用时 234 毫秒
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将物质流分析应用于我国再生铅冶炼行业典型工艺(铅膏炼前预脱硫—还原熔炼—精炼)的铅污染研究,构建了再生铅冶炼过程的铅元素流图,并针对铅污染提出了应对措施。研究结果表明:再生铅典型工艺的铅直收率、铅回收率、铅废物循环利用率分别为85.38%,93.96%,97.57%;应重点监控的铅有组织排放依次为外排烟气、熔炼渣、脱硫石膏渣;针对外排烟气中铅烟尘的PM2.5占比高及铅烟尘活性较高易于释放的特点,应选用高效除尘器,进一步提高细烟尘的捕集率;铅无名损失的重点工序依次为熔炼工序、电解精炼工序、合金熔铸工序;冶炼烟尘返回熔炼炉时,应增加制粒工序,以降低熔炼炉的烟尘率。 相似文献
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各省、自治区、直辖市人民政府:
近年来,我国铅酸蓄电池和再生铅行业快速发展,成为全球铅酸蓄电池生产、消费和出口大国.由于部分企业规模小、工艺技术落后,污染治理水平低,导致铅污染事件频发,严重威胁群众健康,影响社会稳定.为加强铅污染防治和资源循环利用,杜绝铅污染事件发生,促进铅酸蓄电池和再生铅行业规范有序发展,经国务院同意,提出以下意见. 相似文献
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以20台沸腾炉(功率小于等于60 MW)的燃料特性分析数据和大气污染物的排放实测数据为基础,利用统计分析方法,研究了燃烧过程中排放的颗粒物(PM)、SO_2和NO_x初始排放浓度的影响因素,分析了沸腾炉PM、SO_2和NO_x排放现状,探讨了我国中小型沸腾炉PM、SO_2和NO_x排放管理控制的潜力和可行性.实验结果表明:在锅炉运行负荷大于等于80%的条件下,中小型沸腾炉PM的初始排放浓度基本上不受锅炉出力、过量空气系数和燃煤灰分含量的影响;燃煤的硫含量越高,SO_2初始排放浓度越高;过量空气系数越大,燃煤挥发分越低,NO_x初始排放浓度越高. 相似文献
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我国现行环境保护法规以控制排放浓度为基础,利用大气和水体的扩散稀释能力使环境中污染物浓度不超过规定限度,但污染物排放总量实际上并未减少。只有实行排放总量控制,才可从总体上有效地控制污染。限于我国的经济条件,不能象工业发达国家 相似文献
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玉环电厂1 000 MW机组降低Nox排放的技术分析与环境评价 总被引:1,自引:0,他引:1
介绍了玉环电厂采用PM型燃烧器和MACT分级燃烧技术,降低了NOx生成量.预测不同负荷下的NOx排放浓度,对照《火电厂大气污染物排放标准》,分析玉环电厂的环境性能,为其他电厂降低NOx排放提供借鉴. 相似文献
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《再生资源与循环经济》2015,(6)
<正>为贯彻《中华人民共和国环境保护法》、《中华人民共和国水污染防治法》、《中华人民共和国大气污染防治法》、《中华人民共和国海洋环境保护法》等法律、法规,保护环境,防治污染,促进再生有色金属(铜、铝、铅、锌)工业生产工艺和污染治理技术进步,制定《再生铜、铝、铅、锌工业污染物排放标准》。本标准规定了再生有色金属(铜、铝、铅、锌)工业企业生产过程中水污染物和大气污染物排 相似文献
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以重庆市某铅污染场地为研究对象,选用多种稳定化药剂对土壤开展稳定化修复技术研究,着重探讨了不同单一药剂与复配药剂对土壤铅浸出浓度的影响。实验结果表明:磷酸二氢钠(MSP)、磷酸氢二钠、磷酸钠和石灰4种无机药剂中MSP的稳定化修复效果最佳,且磷酸盐类的稳定化修复效果整体上优于石灰;MSP与少量有机药剂腐殖酸复配施用的稳定化修复效果优于单独施加MSP;在MSP投加比(与土壤的质量比)为5%、腐殖酸投加比为2%、养护时间为7 d的最优工艺条件下,土壤中铅的浸出浓度由41.70 mg/L降至0.16 mg/L,低于《生活垃圾填埋场污染控制标准》(GB 16889—2008)中规定的0.25 mg/L浓度限值。 相似文献
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石化企业的酸性水汽提装置、酸性干气脱硫装置和硫磺回收装置统称为#x0201c;两酸#x0201d;装置。对#x0201c;两酸#x0201d;装置所采用的工艺流程进行详细分析,得出#x0201c;两酸#x0201d;装置的有组织排放大气污染物主要为SO2和NOx,无组织排放大气污染物主要为H2S、NH3、有机硫化物和烃类。无组织排放源集中在各单元反应器、储罐和酸性气管线。针对无组织排放源,从防止逸散和恶臭治理两个方面提出了相应的污染防治措施,并比较了溶剂吸收法、燃烧法、湿法化学吸收法等目前常用的恶臭治理技术的优缺点。 相似文献
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Stephen A. Norton 《Water, Air, & Soil Pollution: Focus》2007,7(1-3):93-98
Pollution of the atmosphere with cadmium (Cd), mercury (Hg), and lead (Pb) is a consequence of human activities. Natural archives
are necessary to reconstruct the long-term history of metal deposition because accurate measurement of atmospheric deposition
is a recent accomplishment. Reconstructions require: (1) accurate determination of concentrations of elements and isotopes,
(2) accurate chronology of archives, and (3) archives that faithfully record atmosphere deposition. The most useful long-term
archives are accumulations of ice and snow, peat, and lake sediment. Quantification of Cd deposition is uncommon because of
its low concentration and substantial chemical mobility. Nonetheless, trends in peat and lake sediment are similar to those
of Hg and Pb since ca. 1800 a.d. Both Hg and Pb are relatively chemically immobile and thus the peat and lake archives are believed to record historic trends
of atmospheric deposition. Isotopic and concentration studies of Pb indicate a history of northern hemisphere atmospheric
pollution extending back prior to 0 a.d. Although measurements of Hg concentration are now routine, isotopic measurements are in their infancy. Some Hg pollution
sources have unique isotopic ratios, thereby contributing unique signals to the total Hg. Maximum accumulation rates of Hg
and Pb occur up to 10 years later than for Cd (1970s versus 1960s in eastern North America, perhaps slightly later in Europe).
By 2004, deposition of Cd, Hg, and Pb had declined from peak values in eastern North America more than 75, 75, and 90%, respectively. 相似文献
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K. D. Karatzas 《Water, Air, & Soil Pollution: Focus》2002,2(5-6):669-676
Urban Air Quality Management Systems are software tools that combine air quality models with various software modules like geographical information systems, databases, expert systems and statistical analysis tools. Such systems try to interpret as accurately as possible the complex interactions between various atmospheric, emission, land use and topographic parameters involved in the air pollution management problem, in order to provide support for environmental strategic planning and decision making. As this process involves a huge set of parameters, some of which may only be roughly estimated, air quality management systems tend to aggregate parameters in order to simplify their analysis and make it more effective and operational. Yet, this aggregation may lead to deviations in the analysis results, as proved in this theoretical article, and thus influence the decision making and strategic planning process. According to the findings of this article, such a policy making process should focus primarily on short term measures when dealing with air pollution episode management. 相似文献
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Incineration of healthcare wastes: management of atmospheric emissions through waste segregation 总被引:2,自引:0,他引:2
The amount of atmospheric pollutants emitted through the incineration of healthcare wastes can be estimated using emission factors. Emission factors have been published without including sufficient information about the types of wastes incinerated. This paper reports the first emission factors estimated for the incineration of wastes segregated into different types according to the Portuguese legislation. One controlled-air incinerator without air pollution control devices was used in the research. The main objectives of the study were: (i) to estimate the emission factors for particulate matter, dioxins, heavy metals and gaseous pollutants, according to the type of waste incinerated; (ii) to evaluate the quality of atmospheric emissions; and (iii) to define a methodology for the management of atmospheric emissions, evaluating the influence of type of waste incinerated and of the segregation method used on the emitted amounts. It was concluded that: (i) when emission factors are not associated with the type of incinerated mixture, the utility of the emission factors is highly doubtful; (ii) without appropriate equipment to control atmospheric pollution, incineration emissions exceed legal limits, neglecting the protection of human health (the legal limit for pollutant concentrations could only be met for NO(x), all other concentrations were higher than the maximum allowed: dioxins, 93-710 times; Hg, 1.3-226 times; CO, 11-24 times; SO(2), 2-5 times; and HCl, 9-200 times); (iii) rigorous segregation methodologies must be used to minimize atmospheric emissions, and incinerate only those wastes that should be incinerated according to the law. A rigorous segregation program can result in a reduction of the amount of waste that should be incinerated by 80%. A reduction in the quantity of waste incinerated results in a reduction on the amounts of pollutants emitted: particulate matter, 98%; dioxins, 99.5%; As, Cd, Cr, Mn and Ni, respectively, 90%, 92%, 84%, 77% and 92%; Hg and Pb, practically eliminated; SO(2) and NO(x), 93%; and CO and HCl, more than 99%. 相似文献
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