共查询到18条相似文献,搜索用时 93 毫秒
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循环冷却系统浓缩排污水是电厂最大的排污水,是节水减排和废水零排放的关键问题之一。以河源电厂为例,分析了电厂进水水质条件;选用了5种水稳剂,采取极限碳酸盐硬度计算浓缩倍率的方法,通过静动态阻垢、防腐与杀菌试验,探明了各种药剂的极限浓缩倍率,论证了河源电厂循环冷却系统10倍以上的浓缩倍率运行方式的可行性。按试验所确定的原则,河源电厂循环冷却水系统按10倍的浓缩倍率运行,一年来未出现腐蚀与结垢现象。分析了实际运行期间的运行数据,对我国循环冷却水处理、节约用水、减少排污具有一定的示范意义。 相似文献
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通过系统调查试验,试验室静态及动态模拟试验,提出了解决秦岭电厂二期,三期工程两个循环冷却水系统浓缩倍率相差甚大的办法,并为配合回收灰场澄清水,提出了采用复合配方以提高循环冷却水的浓缩倍率。 相似文献
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针对仪化热电厂将循环水用作冲灰水,导致浓缩倍率只有1.6,以及凝汽器铜管腐蚀结垢严重等问题,提出了隔断循环水与冲灰水的直接联系,实现闲路循环,对凝汽器铜管进行酸洗,并对循环水实施加缓蚀阻垢荆、杀菌剂和旁流过滤等办法,全部实施后产生了很好的效益,值得借鉴。 相似文献
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《再生资源与循环经济》2019,(7)
针对大风量、中低浓度有机废气的治理,"预处理+浓缩转轮+催化燃烧"组合技术具有净化效率高、安装及维护简单等优点。该组合技术是将吸附浓缩技术和催化燃烧技术进行有效地结合,中低浓度废气经吸附转轮浓缩后成为高浓度有机废气,经脱附区脱附后进入催化燃烧设备,燃烧生成无毒无害物质达标排放。对"预处理+浓缩转轮+催化燃烧"组合工艺及关键技术进行详细介绍,包括预处理、浓缩转轮、催化燃烧设备等,而后对研究内容进行分析。 相似文献
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研究了黑白显像玻壳生产中产生的含铅粉尘的水溶性,酸溶性,浸出毒性和铅的存在形态,提出了用盐酸循环浸铅,冷析PbCl2的提铅方法,考察了浸取剂及浓度,浸取温度,浸取时间对铅浸出率的影响,为充分利用铅资源及实现铅尘无害化提供了依据。 相似文献
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采用“混凝沉淀-微滤-组合反渗透”工艺对某煤化工企业的高盐废水进行浓缩处理,浓水通过蒸发结晶进行脱水,产水采用常规反渗透进行水回收。运行结果表明,经30 d运行,水回收率保持在85%以上,脱盐率稳定在95%以上,常规反渗透产水水质稳定,产水电导率、浊度、Cl-质量浓度和COD的平均值分别为12.5 μs/cm,0.1 NTU,7.8 mg/L,1.8 mg/L,满足《炼化企业节水减排考核指标与回用水质控制指标》(Q/SH0104-2007)中污水回用于循环冷却水的水质指标和设计产水水质要求,实现了废水的近“零排放”。 相似文献
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The objective of this study is to provide a calculation of recycling rates of waste home appliances in Taiwan, for the EPA to amend these rates in order to increase the recycling efficiency. The recycling rate is calculated by a formula according to the statistical results obtained through: (1) an estimation of domestic use of home appliances using time series analysis with multiplicative seasonal ARIMA model, (2) a further estimation of generated waste home appliances based upon the estimated domestic use and the corresponding distribution of lifetime span, and (3) a cost analysis of recycling home appliances based on a sampling survey with stratified systematic sampling conducted among collectors and a survey on five recycling plants of waste home appliances. The suggested recycling rates in this study finally used by the EPA show that all of the recycling rates have increased compared with the rates in previous years. This study also implies that amending the recycling rates may only solve some recycling problems temporarily; however, the recycling system of waste home appliances in Taiwan has to be reformed to increase the recycling efficiency for the long term. 相似文献
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Building recycling rates through the informal sector 总被引:1,自引:0,他引:1
Many developing country cities aspire to modern waste management systems, which are associated with relatively high recycling rates of clean, source separated materials. Most already have informal sector recycling systems, which are driven solely by the revenues derived from selling recovered materials, even though they are saving the formal sector money by reducing waste quantities. There is clear potential for 'win-win' co-operation between the formal and informal sectors, as providing support to the informal sector, to build recycling rates and to address some of the social issues could reduce the overall costs of waste management for the formal sector. This paper shows that recycling rates already achieved by the informal sector can be quite high, typically in the range from 20% to 50%; often up to half of this is in the form of clean, source separated materials collected directly from households and businesses by itinerant waste buyers. Four country case studies provide a number of lessons on how this solid foundation could be used to build high recycling rates of clean materials. 相似文献