Superior drainage treated by combinational technique of biologic contact oxidation and constructed wetland

Superior drainage treated by combinational technique of biologic contact oxidation and constructed wetland

下载PDF

导出

摘要 The superior drainage was pre-treated by biologic contact oxidation on BOD5 load of 0.72 kg/(m3·d),and then post-treated by constructed wetland. The results about the effect on the constructed wetland post-treatment show that the total nitrogen (TN) is the restrictive index of the combinational technique treatment effect. To meet the reclaimed water quality standard and reuse for waterscape,the peak hydraulic load of constructed wetland is 0.50 m/d in summer (30-36 ℃) and 0.33 m/d in winter (8-12℃),and the load ratio of the peak hydraulic under the two temperature conditions is 3-2. The results are combined of reclaimed water quantity requirements in different seasons of green building. Reasonable scale of the reclaimed water treatment systems can be determined. The treatment efficacy can be well predicted,and both the design and operations can be effectively guided,by which the reclaimed water treatment systems regard superior drainage as the source and are purified by combinational technique of contact oxidation and artificial wetland. The superior drainage was pre-treated by biologic contact oxidation on BOD5 load of 0.72 kg/(m3·d),and then post-treated by constructed wetland. The results about the effect on the constructed wetland post-treatment show that the total nitrogen (TN) is the restrictive index of the combinational technique treatment effect. To meet the reclaimed water quality standard and reuse for waterscape,the peak hydraulic load of constructed wetland is 0.50 m/d in summer (30-36 ℃) and 0.33 m/d in winter (8-12℃),and the load ratio of the peak hydraulic under the two temperature conditions is 3-2. The results are combined of reclaimed water quantity requirements in different seasons of green building. Reasonable scale of the reclaimed water treatment systems can be determined. The treatment efficacy can be well predicted,and both the design and operations can be effectively guided,by which the reclaimed water treatment systems regard superior drainage as the source and are purified by combinational technique of contact oxidation and artificial wetland.

作者胡学斌徐志恒柴宏祥龙腾锐

机构地区 Key Laboratory of Three Gorges Reservoir Region's Eco-Environment Key Laboratory of Three Gorges Reservoir Region’s Eco-Environment

出处《Journal of Central South University》 SCIE EI CAS 2009年第S1期292-297,共6页 中南大学学报（英文版）

基金 Project(SWITCH018530) supported by the EU Sixth Framework Program-Sustainable Water management Improves Tomorrow’s Cities Project(2008DFA91770) supported by the International Cooperation Items of the Ministry of Science and Technology,China

关键词 green building BIOLOGIC contact oxidation CONSTRUCTED WETLANDS reclaimed water green building biologic contact oxidation constructed wetlands reclaimed water

分类号 X703 [环境科学与工程—环境工程]

引文网络
相关文献

参考文献12

1李璐,温东辉,张辉,谢曙光.分段进水生物接触氧化工艺处理河道污水的试验研究[J].环境科学,2008,29(8):2227-2234. 被引量：26
2李晓东,孙铁珩,李海波,王洪.人工湿地除磷研究进展[J].生态学报,2007,27(3):1226-1232. 被引量：124
3CHAI Hong-xiang.Study on technology and economy of water-saving about green building community. . 2008
4HE Qiang,CHAI Hong-xiang,GOU Hong-ying.A discussion on modification of reclaimed-water pre-treatment of green building. Water & Wastewater . 2007
5MARGARET G.The role of constructed wetlands in secondary effluent treatment and water reuse in subtropical and arid Australia. Ecological Engineering . 2005
6JAUME P,JOSE V,JUAN J.Subsurface-flow constructed wetlands in Spain for the sanitation of small communities: A comparative study. Ecological Engineering . 2007
7GROSS A,SHMUELI O,RONEN Z.Water recycled vertical flow constructed wetland (RVFCW)—A novel method of recycling greywater for irrigation in small communities and households. Chemosphere . 2007
8Beijing Municipal Water Conservation Office.Cases and Evaluation of Reclaimed Water Projects. . 2003
9AKRATOS C S,PAPASPYROS J N,TSIHRINTZIS V A.Total nitrogen and ammonia removal prediction in horizontal subsurface flow constructed wetlands: Use of artificial neural networks and development of a design equation. Bioresource Technology . 2009
10Rousseau D P L,Lesage E,Story A,et al.Constructed wetlands forwater reclamation. Desalination . 2008

二级参考文献30

1王荣昌,文湘华,景永强,钱易.悬浮载体生物膜反应器修复受污染河水试验研究[J].环境科学,2004,25(S1):67-69. 被引量：16
2蒋跃平,葛滢,岳春雷,常杰.人工湿地植物对观赏水中氮磷去除的贡献[J].生态学报,2004,24(8):1718-1723. 被引量：175
3祝贵兵,彭永臻,周利,马勇,张新兰.优化分段进水生物脱氮工艺设计参数[J].中国给水排水,2004,20(9):62-64. 被引量：16
4周训华.适用于河流治理的地面廊道污水处理系统的设计[J].水电站设计,2004,20(3):44-46. 被引量：8
5袁东海,景丽洁,张孟群,高士祥,尹大强,王连生.几种人工湿地基质净化磷素的机理[J].中国环境科学,2004,24(5):614-617. 被引量：120
6尹炜,李培军,尹澄清,台培东,李海波,郭伟.潜流人工湿地的局限性与运行问题[J].中国给水排水,2004,20(11):36-38. 被引量：62
7梁威,吴振斌,詹发萃,邓家齐.人工湿地植物根区微生物与净化效果的季节变化[J].湖泊科学,2004,16(4):312-317. 被引量：74
8袁东海,景丽洁,高士祥,尹大强,王连生.几种人工湿地基质净化磷素污染性能的分析[J].环境科学,2005,26(1):51-55. 被引量：165
9林岩清,何苗,胡洪营,管运涛,张建.渗流式生物床处理受污染河水的中试[J].中国给水排水,2005,21(3):8-11. 被引量：12
10谭洪新,周琪.湿地填料的磷吸附特性及潜流人工湿地除磷效果研究[J].农业环境科学学报,2005,24(2):353-356. 被引量：64

共引文献147

1谌宏伟,蔡雪璨,杨欣怡,彭向训,吴必朗,蒋序情,盛丰,卢诗卉.南方挺水植物净化城镇污水总磷的对比试验[J].环境科学与技术,2020(S02):95-100. 被引量：5
2闵敏.平原河网区村级河道生态治理实践与思考[J].城市建设理论研究（电子版）,2023(20):214-216.
3朱铁群,解蒙,袁航.人工湿地基质及其去污机理[J].节水灌溉,2008(10):37-40. 被引量：11
4魏晓慧,冯佳,谢树莲,张峰.六种水生植物对汾河太原段污水的修复研究[J].给水排水,2012,38(S1):102-105. 被引量：5
5李秋华,刘送平,高廷进,陈峰峰,李小峰,林陶,杨凯.复合垂直流人工湿地净化城镇生活污水的研究[J].给水排水,2012,38(S1):187-190. 被引量：7
6何强,张成,柴宏祥,樊明玉.Orthogonal experiment on reclaimed water treatment and economic optimization model in green building[J].Journal of Central South University,2009,16(S1):322-328.
7王婷,耿绍波,常高峰.人工湿地植物对生活污水净化作用的研究进展[J].环境科学与技术,2013,36(S1):210-212. 被引量：15
8汪洪,李录久,王凤忠,李书田,刘荣乐.人工湿地技术在农业面源水体污染控制中的应用[J].农业环境科学学报,2007,26(B10):441-446. 被引量：22
9李晓东,李海波,马铮铮,孙铁珩.人工湿地基质净化磷素的吸附剂性能[J].东北大学学报（自然科学版）,2008,29(5):730-733. 被引量：6
10魏成,刘平,秦晶.不同基质和不同植物对人工湿地净化效率的影响[J].生态学报,2008,28(8):3691-3697. 被引量：40

1何强,张成,柴宏祥,樊明玉.Orthogonal experiment on reclaimed water treatment and economic optimization model in green building[J].Journal of Central South University,2009,16(S1):322-328.
2李明顺.滇池草海污染应急治理对策探讨[J].广州环境科学,1998,13(4):27-31. 被引量：1
3赵大传,杜家伟.ABR-人工湿地组合工艺处理生活污水[J].安徽大学学报（自然科学版）,2011,35(1):97-101. 被引量：6
4Hong Yang~(1,3),Chen Lü~2,Zhongyue Lu~3,Weixing Zhu~3,Min Gao~4,Chuang Chen~4 1.Harbin Institute of Technology,Harbin 150090,China 2.China Northeast Municipal Engineering Design and Research Institute,Changchun 130021,China 3.China University of Geosciences(Beijing),Beijing 100083,China 4.Department of Building and Management of Hunnan New Developed Area,Shenyang 110179,China.The Application of Biological Removal Technology Used on the Treatment of Groundwater with Low-Iron and High-Manganese[J].地学前缘,2009,16(S1):39-39.
5唐礼庆,何成达,王惠民,周保昌.四环素类制药废水厌氧生化预处理研究[J].安徽师范大学学报（自然科学版）,2011,34(3):250-255. 被引量：5
6西得乐.实现环境和经济的双节能——Combi Predis/Capdis^(TM)FMa新技术[J].中国包装工业,2012(1):72-72. 被引量：3
7Hailiang SONG,Xianning LI,Wei LI,Xiwu LU.Role of biologic components in a novel floating-bed combining Ipomoea aquatic, Corbicula fluminea and biofilm carrier media[J].Frontiers of Environmental Science & Engineering,2014,8(2):215-225. 被引量：1
8Tian WAN,Guangming ZHANG,Fcngwci DU,Junguo HE,Pan WU.Combined biologic aerated filter and sulfur/ceramisite autotrophic denitrification for advanced wastewater nitrogen removal at low temperatures[J].Frontiers of Environmental Science & Engineering,2014,8(6):967-972. 被引量：6
9Luan Zhaokun,Chen Ming,Tang Hongxiao(Research Center for Eco-Environmental Sciences,Chinese Academy of Sciences,Beijing 100085,China).Adsorption　characteristics　of　copper　in　rivers　contaminated　by　acid　mine　drainage　from　copper　mine[J].Journal of Environmental Sciences,1996,8(1):28-37.
10Qiuying CHEN,Jingling LIU,Feng LIU,Binbin WANG,Zhiguo CAO.Biologic risk and source diagnose of 16 PAHs from Haihe River Basin, China[J].Frontiers of Environmental Science & Engineering,2016,10(1):46-52. 被引量：1

Journal of Central South University

2009年第S1期

浏览历史

内容加载中请稍等...

Superior drainage treated by combinational technique of biologic contact oxidation and constructed wetland

参考文献12

二级参考文献30

共引文献147

相关作者

相关机构

相关主题

浏览历史