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淮南首创第一污水处理厂提标改造工艺设计 被引量:1

Process Design of Upgrading and Reconstruction of Huainan First Wastewater Treatment Plant
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摘要 淮南首创第一污水处理厂改造规模为10×10~4m^3/d,进水碳氮比值较低。提标改造采用ARP/SSH工艺,改造完成后出厂水质各项指标稳定达到一级A排放标准。而竣工报告显示,工程预(决)算价仅为1 577.3万元。ARP/SSH工艺对于进水氮、磷浓度较高而有机物浓度较低的污水处理厂较为适用,投资较低且可减少外加碳源量。 The design capacity of the reconstruction project of the Huainan First Wastewater Treatment Plant was The design capacity of the reconstruction project of the Huainan First Wastewater Treat- 10 ×10^4m^/d, the C/N ratio in influent was low. With the ARP/SSH technology applied to the upgrading and reconstruction project, all the indexes of the effluent after the reconstruction could meet the first class A criteria specified in the Discharge Standard of Pollutants for Municipal Wastewater Treatment Plant (GB 18918 -2002). The project completion report showed that the budget of the project was only 15. 773 million yuan. The ARP/SSH process is suitable for wastewater treatment plants with high concentration of phosphorus and nitrogen but low concentration of organic matter in the influent due to its low investment and less additional carbon source.
作者 曹平 王建西 沈旺 王冰
机构地区 淮南首创有限公司 中国市政工程华北设计研究总院有限公司 首创爱华<天津>市政环境工程有限公司
出处 《中国给水排水》 CAS CSCD 北大核心 2015年第20期88-92,共5页 China Water & Wastewater
关键词 ARP/SSH工艺 污水处理 低碳氮比 ARP/SSH process wastewater treatment low C/N ratio
分类号 X703.1 [环境科学与工程—环境工程]
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  • 1尹军,赵可.腐殖活性污泥工艺在日本和韩国的应用[J].中国给水排水,2007,23(4):101-104. 被引量:28
  • 2刘智晓,崔福义,秦姝兰,丁雷.腐殖土活性污泥技术的除污效能及除臭效果[J].中国给水排水,2007,23(14):18-22. 被引量:17
  • 3Kampas P,Parsons S A,Pearce P,et al.Mechanical sludge disintegration for the production of carbon source for biological nutrient removal[J].Water Res,2007,41(8):1734-1742.
  • 4Canziani R,Pollice A,Ragazzi M.Design considerations on primary sludge hydrolysis under psychrophilic conditions[J].Environ Technol,1996,17(7):747-754.
  • 5Teichgraber B.Acidification of primary sludge to promote increased biological phosphorus elimination and denitrification[J].Water Sci Technol,2000,41(9):163-170.
  • 6Jnsson K,Jansen J C.Hydrolysis of return sludge for production of easily biodegradable carbon:effect of pretreatment,sludge age and temperature[J].Water Sci Technol,2006,53(12):47-54.
  • 7Andreasen K,Petersen G,Thomsen H,et al.Reduction of nutrient emission by sludge hydrolysis[J].Water Sci Technol,1997,35(10):79-85.
  • 8Yuan Q,Sparling R,Oleszkiewicz J A.Waste activated sludge fermentation:effect of solids retention time and biomass concentration[J].Water Res,2009,43(20):5180-5186.
  • 9Thomas M,Wright P,BlackallUrbain L V,et al.Optimization of Noosa BNR plant to improve performance and reduce operating cost[J].Water Sci Technol,2003,47(12):141-148.
  • 10Chen Y,Jiang S,Yuan H,et al.Hydrolysis and acidification of waste activated sludge at different pHs[J].Water Res,2007,41(3):683-689.

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中国给水排水
2015年 第20期

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