共查询到19条相似文献,搜索用时 78 毫秒
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文章介绍了轿子山垃圾渗滤液处理场设计概况,并对处理场的调试和试运行进行了系统介绍,主要包括调试和试运行的前期准备工作,系统调试方案及过程、协调管理工作等方面。 相似文献
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文章系统的介绍了南京天井洼垃圾渗滤液处理工程的基本情况,天井洼垃圾渗滤液处理工程采用的是外置式膜生化反应器(MBR)+反渗透(RO)的工艺,同时对该渗滤液处理工程的工艺流程、主要设计技术参数以及浓水和污泥的处理、投运及其运营管理的意义进行了阐述和说明. 相似文献
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反渗透法处理城市垃圾填埋场渗滤液 总被引:52,自引:0,他引:52
采用反渗透法处理城市垃圾填埋场渗滤液在国内尚属首次。我们先从八种膜中,筛选出了本工艺最合适的3#醋酸纤维素反渗透膜,经此膜处理后的出水能达到国家一级排放标准。并进行了操作压力、pH值对膜通量及产水水质影响的试验研究,确定了最佳的操作压力和进水的最佳pH范围。为工程设计提供了必要的设计参数。 相似文献
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常用的渗滤液处理方法分为生物处理法、物理化学处理法、土地处理法。物理化学处理法包括混凝沉淀法、化学氧化法、吸附法和膜分离法等。 相似文献
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采用MLSS为6000mg/L的活性污泥为吸附剂,对水样进行三级吸附试验,研究了在不同的曝气时间、pH和污泥浓度对活性污泥吸附量的影响及活性污泥吸附深度处理垃圾渗滤液的吸附等温线。试验结果表明:活性污泥吸附平衡时间为2h,pH为3~9时,活性污泥吸附量几乎不变。随着污泥浓度的升高,活性污泥的吸附量增大,污泥浓度升至6000mg/L后吸附量变化不大。一级、二级活性污泥吸附等温线更好的符合Freundlich公式等温式,吸附常数n介于1~10之间,说明活性污泥是良好的吸附剂,三级活性污泥吸附等温线则更好的符合Iangmuir公式等温式。 相似文献
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介绍了采用管式反渗透工艺处理垃圾渗滤液的工程实例.实践表明,管式反渗透工艺占地面积小,运行管理简单,出水可用于绿化、洗车及景观用水,社会、环境效益均较显著.其CODCr去除率达95%,BOD5去除率达97%,管式反渗透工艺是处理城市垃圾渗滤液较理想的工艺选择. 相似文献
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采用机械压缩蒸发-低压反渗透(MVC-RO)工艺对云南省某县城生活垃圾填埋场渗滤液进行处理,处理规模为70 m3/d,运行期间出水CODCr质量浓度为23~59 mg/L,BOD5质量浓度为14~24 mg/L,NH3-N质量浓度为6~9 mg/L,TN质量浓度为8~13 mg/L,SS质量浓度为3~6 mg/L,出水水质稳定,且耐冲击负荷能力强,出水水质满足GB 16889—2008《生活垃圾填埋场污染控制标准》中一般地区对渗滤液出水水质的要求。运行费用为34.91元/t。 相似文献
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A Critical Review of Biological Processes and Technologies for Landfill Leachate Treatment 下载免费PDF全文
Dario Bove Sara Merello Davide Frumento Saleh Al Arni Bahar Aliakbarian Attilio Converti 《化学工程与技术》2015,38(12):2115-2126
The most common method to deal with the huge production of municipal wastes is still the disposal in landfills which, however, generates a leachate with high contents of organic and nitrogen pollutants. Requirements must be fixed by law to control leachate release from such landfills, and effective treatment processes and technologies must be applied to reduce its impact on the environment. Biological processes for leachate treatment are discussed in this review, in the former part of which attention is paid to leachate formation and its qualitative and quantitative features, while the latter deals with the state‐of‐the‐art of the most effective biotechnological treatments presently employed. Processes, alternative methods, and technological improvements are compared, with special focus on novel technologies to remove nitrogen pollutants from leachate, highlighting advantages and drawbacks of each treatment. 相似文献
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电去离子(EDI)技术在热电厂水处理中的应用 总被引:8,自引:0,他引:8
电去离子 (Electrodeionization简称EDI) ,是一种将膜分离技术与离子交换技术有机结合起来去除水中离子获得低电导率产品水的新型水处理技术 ,在电力、电子、医药、化工、冶金、机械、化妆品、电镀电解、食品饮料、纺织印染等多个领域具有广泛的应用空间 ,本文简要介绍了这种新型水处理技术的原理、特点及在热电厂化学水处理中的成功应用情况 相似文献
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Leachate treatment by the reverse osmosis system 总被引:1,自引:0,他引:1
Kenichi Ushikoshi Tetsuo Kobayashi Kazuya Uematsu Akihiro Toji Dai Kojima Kanji Matsumoto 《Desalination》2002,150(2):121-129
The DT-Module system for landfill leachate treatment installed at Yachiyo Town in the Kanto District of Japan was put into service in April 1999. The system, which is equipped with a disc-tube type reverse osmosis (RO) membrane module called the DT-Module, has been operating satisfactorily for more than two and a half years, producing very-high-quality product water, after treating very-high-salinity water with high-scaling ions. On the other hand, in Japan, the dioxin problem has become increasingly severe, and development work for dioxin removal incorporated in leachate treatment has also been requested. The DT-Module system showed excellent performance in removing dioxins from leachate. For dioxins in sludge from the settling basin and dried salt from the concentrate of the RO system, successful destruction data were obtained by furnace system heating in an oxygen-deficient atmosphere. The removal rate of dioxins by the DT-Module system and the destruction rate by the furnace were both higher than 99.9%. By applying the DT-Module system together with the furnace system, an excellent leachate treatment and a complete dioxin removal and destruction system have become available for leachate from landfills depositing incineration residue-containing dioxins. 相似文献
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由于垃圾渗滤液COD、NH4-N浓度高,并且含有重金属等有毒污染物,通常,单纯的生物处理方式效果并不理想.高COD浓度的垃圾渗滤液经混凝沉淀后,调节pH=12,进行氨吹脱,经此预处理后的垃圾渗滤液,进行Fed-Batch Reactor(FBR)好氧生物处理,比较投加粉末活性碳(PAC)和不投加两种情况下对COD和NH4-N去除效果.当PAC投加量为2 g/L时,COD去除率达86 %,NH4-N去除率达26 %. 相似文献
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活性污泥污水处理厂生物泡沫产生机理及控制 总被引:7,自引:0,他引:7
在城市污水处理厂活性污泥法工艺的运行中,生物泡沫与浮渣(简称生物浮沫)和活性污泥膨胀一样.是困扰运行管理的重要问题。该文对国外生物泡沫的产生现状、成因、影响因素、丝状微生物研究和控制方法等方面进行了综述,提供国内相关研究参考。 相似文献