共查询到20条相似文献,搜索用时 359 毫秒
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电化学技术在环境保护中的应用 总被引:1,自引:0,他引:1
电化学技术由于其自身的特性和优点,在环境保护方面发挥着重要作用.主要对电化学技术处理环境污染物的基本方法和环境检测等方面的应用进行探讨和研究. 相似文献
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现代电化学技术与环境保护 总被引:2,自引:0,他引:2
介绍了电化学技术在清洁工艺的开发、清洁产品的制备、废水与废气的处理、被污染土壤的修复和环境污染物监测方面的应用情况。电化学技术具有能量利用率高、经济实用以及污染物产生量少或污染物去除率高等特点,在环境保护领域具有广阔的应用前景。 相似文献
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电化学工艺处理有机废水的研究进展 总被引:1,自引:0,他引:1
综述了目前国内外学者在二维电极和三维电极的开发和改进方面的研究成果,指出了电化学氧化技术和电极材料的主要研究方向和发展趋势.提出为解决电化学水处理技术中提高电催化效率和延长电极寿命的问题,当前研究的主要方向应集中在阳极材料、反应器结构和处理工艺方面. 相似文献
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《再生资源与循环经济》2019,(10)
电镀废水的成分差异大且含有大量的重金属及有毒有害物质,对环境的污染严重,常规方法比较难以处理。而电化学法由于其处理效率高、可回收重金属等优点,在电镀废水的处理中得到了迅速发展。简述了电镀废水的分类、特点及危害,详细介绍了电絮凝、电催化氧化、电解法、电浮选以及电沉积等电化学技术在电镀废水中的研究进展,并对电化学的发展趋势进行了展望。 相似文献
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综述了VOCs的来源以及我国VOCs治理的相关政策法规。介绍了冷凝、吸收、吸附-脱附、膜分离、生物法、等离子体法、光催化法、热氧化法等主要的VOCs治理技术各自的特点。概述了中国石化合成橡胶装置尾气VOCs治理项目建设情况。中国石化在“十三五”期间累计投入6亿元,实施合成橡胶装置尾气治理项目14个,到“十三五”末,所有合成橡胶装置的尾气均能实现达标排放。 相似文献
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Chantal C Guénette Gary A Sergy Edward H Owens Roger C Prince Kenneth Lee 《Spill Science & Technology Bulletin》2003,8(3):245-256
Experimental oil spills on three mixed-sediment beaches in Svalbard, Norway, were designed to evaluate the effectiveness of in situ shoreline cleaning treatments to accelerate natural recovery. These were: sediment relocation (surf washing), mixing (tilling), bioremediation (fertilizer application), and bioremediation combined with mixing. Additionally, natural attenuation was studied as a treatment option. An intermediate fuel oil was applied to the sediment surface in the upper intertidal zone at three experimental sites, each of which had different sediment characteristics and wave-energy exposure. Over a 400-day period, the experiments quantified oil removal, documented changes in the physical character of the beach as well as oil fate and behaviour, assessed toxicity effects associated with treatment, and validated oil-mineral aggregate formation as a result of the selected treatment techniques. The three sites were chosen based on significant differences, and each treatment was quantitatively compared only with other treatments at that site.This paper describes the physical location and the experimental design of the field trials. Some of the key issues that were addressed in the design included: the methodology for application of oil, the application of treatment techniques, the realistic simulation of real-world conditions, and the sampling protocols to overcome sediment and oiling heterogeneity typical of mixed-sediment beaches in order to allow quantitative comparisons of the treatments. 相似文献
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Gary A Sergy Chantal C Guénette Edward H Owens Roger C Prince Kenneth Lee 《Spill Science & Technology Bulletin》2003,8(3):237-244
Experimental oil spill studies were conducted to quantify the effectiveness of selected in-situ shoreline treatment options to accelerate natural oil removal processes on mixed-sediment (sand and pebble) shorelines. At each of three distinct shoreline sites, treatment test plots and control plots were established within a 40-, 80- and 143-m continuous stretch of oiled shoreline. A total of 5500 l of oil was deposited along a 3-m wide swath in the upper intertidal zone at each site. Approximately one week after oiling, a different treatment technique was applied to each plot. The treatment techniques were: sediment relocation (surf washing), mixing (tilling), bioremediation (fertilizer application), and bioremediation combined with mixing. One plot at each site was monitored for natural attenuation. The quantity of oil removed from the plots was measured six times up to 60 days post-treatment and then again one year later. Changes in the physical character of the beach, oil penetration, movement of oil to the subtidal environment, toxicity, and biodegradation were monitored over the 400-day period.The results verified quantitatively that relocation of oiled sediments significantly accelerated the rate of oil removal from the shoreline by more than one year. Microscopic observations and image analyses confirmed that the oil-mineral aggregate formation process was active and was increased by sediment relocation. Oil biodegradation occurred in this arctic environment, both in the oiled sediments and on the fine mineral particles removed from the sediment by natural physical processes. The biodegradation of oil in sediment was significantly stimulated by simple bioremediation protocols. Mixing (by tilling) did not clearly stimulate oil loss and natural recovery in the context of this experimental design. None of the treatment techniques elevated toxicity in the nearshore environment to unacceptable levels, nor did they result in consequential alongshore or nearshore oiling. 相似文献
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耦合光催化与生物处理4-氯酚废水 总被引:11,自引:0,他引:11
采用三相内循环式流化床光反应器和固定床生物反应器耦合处理4-氯酚(4-CP)废水。光反应器中采用粗孔硅胶负载的具有高活性和长寿命的TiO2为催化剂,处理效率高。废水的BOD5/COD及固定床生物反应器处理效果表明,4-CP为难生物降解物,光催化预处理能显著增强废水的可生化性。在单级耦合处理中,光催化预处理4h后进行生物处理,能达到最佳效率,但要完全矿化COD则需要延长预处理时间。光催化预处理为生物处理提供可降解性COD,后者却没有机会作用于前者。在多级耦合处理中,两者之间存在协同作用,使多级耦合处理效率大大提高。 相似文献
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