福州CRT产业集群废物产生特征及管理模式研究

根据对福州开发区阴离子射线管(CRT)产业集群进行调查、访谈和统计分析,实证研究了该产业集群的废物产生特征和管理模式.结果发现,福州CRT产业集群在不断发展壮大的同时,随着主导产品生产规模的扩大以及配套企业的进入,废物的产生总量不断增加,单位主导产品的废物产生强度持续上升,废物种类也逐渐丰富,给区域环境带来的压力不断增大;但同时,产业集群借助其规模和集聚效应,不仅为废物交换和工业共生体系的构建提供了基础平台,而且为专营性废物回收组织和处理处置设施的良好运转营造了外部环境.     

利用CRT屏玻璃制备板状泡沫玻璃

以废旧阴极射线管(CRT屏)为主要原料,混合碳粉作为发泡剂,硼砂为助熔剂、稳泡剂,利用烧结法制备出的板状泡沫玻璃是一种高性能无机建筑保温材料。利用TG-DSC-MS研究分析了CRT屏玻璃的热性能与发泡剂协同作用的关系。配合料被预先压制成板块状,然后在发泡温度下进行烧成。研究了发泡剂碳粉的含量、发泡温度和发泡时间与其结构、性能的关系。研究分析表明,以废CRT屏玻璃为主要原料、碳粉为发泡剂,将混合料压制成块,烧制出板状泡沫玻璃。其较佳的发泡温度为850℃、碳粉的最佳用量范围为0.3%～0.5%,较好的发泡时间为30 min。烧制的板状泡沫玻璃的密度为0.292 g/cm3。在相同的制备条件下,随着发泡温度的升高,气泡孔径也呈现增大趋势,孔壁也逐渐变薄。随着发泡时间逐渐增加,气孔的直径迅速增大,并有形成连通孔。     

废旧阴极射线管(CRT)显示器玻壳中铅浸出特性研究

CRT显示器玻壳中含有大量的铅,废旧CRT显示器玻壳被列为危险废物。采用4种浸提方法(水平振荡法(GB5086.2-1997)、翻转法(GB5086.1-1997)、硫酸硝酸法(HJ/T299-2007)、醋酸缓冲溶液法(HJ/T300-2007))研究CRT显示器玻壳中铅的浸出特性。同时探讨浸提液pH和pH缓冲能力、振荡方式、CRT玻壳颗粒粒径、液固比、浸提时间对CRT玻壳颗粒中的Pb浸出的影响。结果表明:上述4种方法浸提液中Pb的平均浓度分别为0.07、0.69、1.64、11.33 mg/L。随着醋酸缓冲液初始pH值从4.0升高到7.0,其浸提的Pb的含量呈现出逐渐下降的趋势。而去离子水的pH值低于5时,其浸提的Pb的含量才明显升高。Visual MINTEQ模型计算结果表明:在去离子水和硫酸硝酸混合液浸提过程中,主要以酸碱反应为主;而在醋酸缓冲液浸提过程中,以酸碱反应和络合反应为主。前3种浸提方法使用的浸提液类似于天然水环境或降水,其浸提的Pb浓度高于地下水环境质量III标准。第4种浸提方法模拟垃圾填埋场环境,其浸提的Pb的浓度高于工业固废最高容许浸出浓度。因此,废旧CRT玻壳无论填埋处置或直接进入土...     

Study on the mechanical and environmental properties of concrete containing cathode ray tube glass aggregate

Cathode ray tube (CRT) glass is considered a hazardous material due to its lead toxicity. In addition, current disposal practices are being phased out due to their adverse environmental impacts. In this project, CRT glass was used as a fine aggregate replacement in concrete. Life-cycle material characterization was conducted by evaluating the durability and strength of the CRT-Concrete. Leaching tests were also conducted to investigate whether the material meets drinking water limits for Pb. Test results show that the plastic state of the CRT-Concrete was affected by the angularity of the glass particles. Moreover, the compressive strength of CRT-Concrete met and exceeded that of the control specimen. However, CRT-Concrete was susceptible to expansive alkali-silica reactions when more than 10% CRT replacement was used. Environmental leaching results show that lead concentrations from CRT-Concrete are below the drinking water limits depending on the CRT volume replacement and if biopolymers are used.     

从废阴极射线管含铅玻璃中回收金属铅的研究进展

随着显像管技术的发展,我国迎来了大量阴极射线管(CRT)玻璃的报废期。废弃的CRT玻璃中含有大量的铅,属于危险废物。从国内外废CRT含铅玻璃的处理处置现状出发,归纳总结了废CRT含铅玻璃中铅的分离回收技术工艺,并分析了其特点及存在的问题。指出,未来该领域新技术的研发应同时注重4个方面:铅的回收率高,对玻璃中的其他组分能够有效利用,满足经济可行性要求,便于工业化生产。     

Global disposal strategies for waste cathode ray tubes

The collection and management of waste electrical and electronic appliances around the world, and the possible negative environmental consequences have been an issue of current debate. Cathode ray tubes (CRTs) used as display screen for computer monitors and televisions contains large quantities of lead, estimated at between 0.5 and 4 kg, depending on the size of the CRT and has been identified as the most polluting of all electronic waste components. Having failed the tests used in the toxicity characterization of solid wastes, CRTs have been declared ‘hazardous’ and subsequently banned from landfills and incinerators in most developed countries. Presently, large quantities of CRTs are generated globally with only few developed countries having effective take back and sound management program. Meanwhile, large quantities of CRT-containing devices are being moved across frontiers into developing countries in the name of ‘reuse’ and ‘bridging the digital divide’. With near absence of recycling infrastructure for electronic wastes in most developing countries, waste CRTs are disposed of with MSW at open dumps and unsanitary landfills. This paper reviews the current practices in the management of CRTs around the world, with emphasis on the role of regulations, availability of recycling infrastructure, recycling/reuse routes, and export into developing countries. Inappropriate disposal of waste CRTs creates the opportunity for large-scale environmental contamination with heavy metals, especially lead. Appropriate disposal routes are required globally in the management of CRTs in order to mitigate environmental contamination and human exposure to toxins.     

报废显像管的适用处置方法

指出了报废显像管的处理是报废电视机处理的关键步骤,分析了显像管屏、锥玻璃的结构组成,概述了报废显像管环保处理的几种方法,介绍了适用于报废显像管玻璃环保处理、再生利用的实用工艺过程。     

利用废CRT屏玻璃为原料制备泡沫玻璃

以废阴极射线管(CRT)屏玻璃为主要原料,碳黑为起泡剂,采用粉末烧结法制备了低密度保温泡沫玻璃。通过扫描电镜(SEM)、导热系数测定仪等分析手段,研究了起泡剂的用量、发泡温度和发泡时间对泡沫玻璃泡径、密度、热学性能以及机械力学性能的影响。结果表明,在相同烧制工艺条件下,随起泡剂掺加量增加,烧制所得的泡沫玻璃密度成"V"型变化;当其掺加量为0.20%时,泡沫玻璃在密度、孔径分布以及力学性能上均达到最佳。随着发泡温度的提高和发泡时间的延长,密度会逐渐减小,泡沫玻璃的气泡会逐渐增大,以致产生连通现象。当发泡温度为820℃、发泡时间为30min时烧制的泡沫玻璃密度为0.180 g/cm3,导热系数为0.0695 W/(m.K)。     

Luminance of the Surround and Visual Fatigue of VDT Operators

Luminance distribution in the visual field is considered as one of causal factors with a significant influence on visual fatigue, especially for intensive and extended Video Display Terminal (VDT) work. The aim of the study was to define visual fatigue of VDT operators for different values of surrounding luminance. Experiments were carried out in laboratory conditions under 3 lighting conditions. Only 1 lighting parameter—the luminance of the wall behind the display (surrounding luminance)—changed. Visual fatigue was measured both by a subjective evaluation of different visual complaints (asthenopic symptoms) and by objective measurements of changes in the following visual functions: accommodation, convergence, habitual horizontal phoria, critical fusional frequency (CFF), and visual acuity. The same experiments were done for CRT (Cathode Ray Tube) and LCD TFT (Liquid Crystal Display with Thin Film Transistor) screens. The results of the study have shown that there was no significant influence of the value of surrounding luminance on the asthenopic symptoms for either type of screen. A general tendency towards bigger visual complaints for LCD TFT than for CRT participants was found. An objective evaluation of visual fatigue demonstrated a tendency towards bigger changes in visual functions with an increase of surrounding luminance for both screens. Statistical analysis of the results has shown that surrounding luminance influences significantly the reduction of the accommodation amplitude (significance level < .05).     

报废CRT中废铅回收的环境效益

为研究报废CRT(阴极射线管)中废铅回收的环境效益,基于治理成本法,从实际治理成本与虚拟治理成本两方面,分别对比研究了废铅单向流动模式与循环利用模式的环境影响. 废铅单向流动模式的环境影响被划分为铅矿开采的污染与生态破坏、粗铅冶炼污染、废铅掺混入建材后的污染,该模式中对废铅的实际治理成本与虚拟治理成本分别为329.20与1 322.56元/t,后者是前者的4倍;在废铅循环利用模式的2种典型工艺中,火法回收工艺对废铅的实际治理成本与虚拟治理成本分别为37.80与3.73元/t,湿法回收工艺的实际治理成本与虚拟治理成本分别为135.10与15.06元/t. 与湿法回收工艺对比,火法回收工艺的治理成本更低、环境效益更好,但其需要在粗铅冶炼阶段中将报废CRT锥玻璃与铅精矿按1∶4(质量比)进行搭配回收. 以典型火法回收与湿法回收工艺治理成本的平均值作为循环利用模式的环境治理成本,与单向流动模式相比,其实际治理成本与虚拟治理成本可分别节省242.75与1 313.16元/t,共节省废铅单向流动模式94.2%的环境治理总成本. 铅矿开采固体废物治理成本、铅矿开采生态破坏治理成本与废铅掺混入建材后产生的地下水污染的治理成本位居前三,三者分别占到了废铅单向流动模式环境治理总成本的47%、19%与17%.