合肥市琥珀山庄污水处理厂工艺改造的研究
|
摘要
合肥市琥珀山庄污水处理厂是琥珀山庄住宅小区的配套工程,主要处理小区的生活污水,日处理能力4000t,采用活性污泥法(单沟氧化沟工艺)。该污水处理厂自94年正式投产运行以来,随着山庄入住人口的不断增加和餐饮业的迅速发展,污水中有机物和油脂浓度明显高于原设计值。冬季,因油脂降解不彻底,产生多糖类物质聚集在氧化沟内,所以易发生污泥膨胀现象,导致处理出水不能稳定达标;夏季,因洗涤剂大量使用,氧化沟表面时有大量泡沫产生,给生产操作带来困难,并且影响转刷的曝气充氧能力,氧化沟出水水质明显下降。
鉴于以上问题,经过分析研究,提出在氧化沟前增加涡凹气浮反应池或者水解酸化反应池,对原有氧化沟工艺进行改造。通过对两套方案的可行性分析和技术经济分析,选择其中一个处理效果可靠、基建费用低而且运行费用又较省的处理方法,作为最终的选择方案。
Sewage Works of Amber Village in Hefei, which is applied to treating municipal sewage, is an auxiliary project of Amber Village. The treatment technology of Sewage Works whose treating capacity is 4000 tons per day is activated sludge process. Sewage Works of Amber Village was put into production in 1994. With the population increasing continuously and the catering trade developing swiftly, the concentration of the organic matter and the oil and fat is evidently higher than the design value. In the winter the polysaccharide substance that results from the effect that the oil and fat is degraded completely is assembled together in the oxidation ditch, so the phenomenon of sludge expansion takes place often, which brings about that the water quality cannot reach the standard constantly. In the summer the foams on the surface of the oxidation ditch, which are caused by the use of the detergent, not only leads to the difficulty of the production and operation but also influence the aerating capacity of the revol
ving scrubs. Consequently the quality of effluent from the sewage works declines obviously.
According to the problems above, two schemes are proposed in the paper, that is a cavitation-pocket flotation tank or a hydrolysis(acidification) tank is constructed before the oxidation ditch, in order to improve the treatment effect. On the basis of analyses on the feasibility and technical economy, a scheme, which has the virtues that its treatment effect is in condition and its investment and operating cost is less, will be adopted.
鉴于以上问题,经过分析研究,提出在氧化沟前增加涡凹气浮反应池或者水解酸化反应池,对原有氧化沟工艺进行改造。通过对两套方案的可行性分析和技术经济分析,选择其中一个处理效果可靠、基建费用低而且运行费用又较省的处理方法,作为最终的选择方案。
Sewage Works of Amber Village in Hefei, which is applied to treating municipal sewage, is an auxiliary project of Amber Village. The treatment technology of Sewage Works whose treating capacity is 4000 tons per day is activated sludge process. Sewage Works of Amber Village was put into production in 1994. With the population increasing continuously and the catering trade developing swiftly, the concentration of the organic matter and the oil and fat is evidently higher than the design value. In the winter the polysaccharide substance that results from the effect that the oil and fat is degraded completely is assembled together in the oxidation ditch, so the phenomenon of sludge expansion takes place often, which brings about that the water quality cannot reach the standard constantly. In the summer the foams on the surface of the oxidation ditch, which are caused by the use of the detergent, not only leads to the difficulty of the production and operation but also influence the aerating capacity of the revol
ving scrubs. Consequently the quality of effluent from the sewage works declines obviously.
According to the problems above, two schemes are proposed in the paper, that is a cavitation-pocket flotation tank or a hydrolysis(acidification) tank is constructed before the oxidation ditch, in order to improve the treatment effect. On the basis of analyses on the feasibility and technical economy, a scheme, which has the virtues that its treatment effect is in condition and its investment and operating cost is less, will be adopted.
引文
[1] 冯生华,城市中小型污水处理厂的建设与管理[M],北京:化学工业出版社,2001
[2] 王凯军、贾立敏,城市污水生物处理新技术开发与应用[M],北京:化学工业出版社,2001
[3] 尤作亮等,城市污水强化一级处理的研究进展[J],中国给水排水,Vol.14,3,1998,28~31
[4] 姜应和、李玲玲,混凝法强化城市污水厂一级处理的试验研究[J],中国给水排水,Vol.16,3,2000,12~15
[5] J.Gregory, Interfatial phenomena in The Scientific Basis of Filtration. Noordhoff: A.W. SIJTHOFF INTERNATIONAL PUBLISHING CO, 1975
[6] 许保玖,给水处理理论[M],北京:中国建筑工业出版社,2000
[7] Jour. Coll.& Inter. Sci.,59:381(1977)
[8] P.C.Hiemens, Principles of Colloid and Surface Chemistry. New York: MARCEL DEKKER, INC, 1977
[9] 浙江大学普通化学教研组,普通化学(第四版)[M],北京:高等教育出版社,1995
[10] 梁为民,凝聚与絮凝[M],北京:冶金工业出版社,1987
[11] J.N.Israelachvil, Intermolecular and Surface Force, Chap. 12. London: ACADEMIC PRESS INC, 1985
[12] 严煦世、范谨初,给水工程[M],北京:中国建筑工业出版社,1995
[13] 穆永江,混凝剂在气浮过程中的作用与机理[J],新疆环境保护,Vol.18,1,1996,46~48
[14] 甘光奉、张依华、甘莉,高分子铁盐混凝剂的开发与应用进展[J],工业水处理,Vol.17,5,1997,1~2
[15] Rgensons and M.E.Straumanis, A Short Textbook of Colloid Chemistry, Chap. 13.Oxford:PERGAMON PRESS LTD, 1953
[16] 许保玖、龙腾锐,当代给水与废水处理原理(第二版)[M],北京:高等教育出版社,2000
[17] JAWWA,74:600(1982)
[18] Water Research,21:1023(1987)
[19] 严煦世、范谨初,给水工程(第三版)[M],北京:中国建筑工业出版社,
1995
[20] 朱瑞,废水混凝处理及混凝剂[J],纸和造纸,3,1997,48
[21] 谢丽、周琪、孙仲平,合成洗涤剂生产废水的混凝处理技术[J],给水排水,Vol.27,2,2001,46~49
[22] 周可师、朱莉、郑怡,混凝剂性能试验及应用[J],华东电力,8,2000,10~13
[23] 张希衡,废水厌氧生物处理工程[M],北京:中国环境出版社,1996
[24] 周群英、高廷耀,环境工程微生物学(第二版)[M],北京:高等教育出版社,2000
[25] 沈耀良、王宝贞,水解酸化工艺及其应用研究[J],哈尔滨建筑大学学报,Vol.32,6,1999,35~38
[26] 王凯军等,低浓度污水厌氧——水解处理工艺[M],北京:中国环境科学出版社,1991
[27] 高廷耀、顾国维,水污染控制工程(第二版)[M],北京:高等教育出版社,1999
[28] 温江、杨秀强、董梅,水解酸化处理工艺的理论与实践[J],山东环境,3,1999,8~9
[29] 北京水环境技术与设备研究中心等,三废处理工程技术手册(废水卷)[M],北京:化学工业出版社,2000
[30] 余静、张林生,生活污水处理回用技术研究[J],给水排水,Vol.27,4,2001,31~34
[31] Inco..Performance of a two-phase anaerobic disgestion system when treating dairy wastewater[J], Water Res., 9, 1998, 2707~2713
[32] 佘宗莲,厌氧——好氧序列间歇式反应器处理生物制药废水的研究[J],环境科学研究,1,1998,49~52
[33] 陶有胜,水解酸化——生物接触氧化工艺处理啤酒废水工程实例[J],环境工程,4,1998,20~22
[34] 杨阿香、郑天凌,水解酸化对城市污水活性污泥法处理效果的影响[J],福建环境,Vol.18,3,2001,16~17
[35] Chyi, Dague, Effects of Particulate Size in Anaerobic Acidogenesis Using Cellulose as a Sole Carbon Source, Water Environment Research, 66(5),1994, 670~678
[36] 陈新宇、陈翼孙、李长兴,水解酸化——生物接触氧化处理难降解丁苯橡胶废水的研究[J],给水排水,Vol.23,2,1997,32~35
[37] 李燕城,水处理实验技术[M],北京:中国建筑工业出版社,1989
[38] 奚旦立、孙裕生,环境监测(修订版)[M],北京:高等教育出版社,1995
[39] 叶志宏,聚铁——混凝剂在污水处理中的应用[J],石油化工环境保护,4,1994,19~22
[40] 路光杰、孙永刚、杨日光,聚合铝混凝机理研究的新进展[J],东北电力学院 学报,Vol.17,1,1997,96~99
[41] 曾祥文、王志盈,改进混凝气浮处理印染接触氧化废水的研究[J],西安建筑科技大学学报,Vol.29,3,1997,246~249
[42] 甄玉东,含油污水处理研究——混凝剂的选择与应用[J],铀矿冶,Vol.20,11,2001,264~268
[43] 许玉东,混凝沉淀、一体化氧化沟工艺处理化纤废水[J],中国给水排水,Vol.16,2,2000,44~46
[44] 宁奎、张喜瑞、郎宝山,混凝法处理采油污水的研究与应用[J],水处理技术,Vol.27,2,2001,112~114
[45] 谢雄飞、肖锦、汪晓军等,混凝生化法处理表面活性剂废水[J],给水排水,Vol.27,2,2001,58~60
[46] 胡锋平、刘建斌,水解酸化——生物接触氧化——气浮工艺处理肉类加工废水[J],给水排水,Vol.27,9,2001,54~55
[47] 周律,环境工程技术经济和造价管理[M],北京:化学工业出版社,2001
[48] 王和平,给水排水工程概预算[M],北京:中国建筑工业出版社,1999
[49] 孙力平等,污水处理新工艺与设计计算实例[M],北京:科学出版社,2001
[50] 杨健、王士芬、郭长虹,水解酸化——好氧工艺处理异丙醇工业废水[J],重庆环境科技,Vol.21,8,1999,26~29
[2] 王凯军、贾立敏,城市污水生物处理新技术开发与应用[M],北京:化学工业出版社,2001
[3] 尤作亮等,城市污水强化一级处理的研究进展[J],中国给水排水,Vol.14,3,1998,28~31
[4] 姜应和、李玲玲,混凝法强化城市污水厂一级处理的试验研究[J],中国给水排水,Vol.16,3,2000,12~15
[5] J.Gregory, Interfatial phenomena in The Scientific Basis of Filtration. Noordhoff: A.W. SIJTHOFF INTERNATIONAL PUBLISHING CO, 1975
[6] 许保玖,给水处理理论[M],北京:中国建筑工业出版社,2000
[7] Jour. Coll.& Inter. Sci.,59:381(1977)
[8] P.C.Hiemens, Principles of Colloid and Surface Chemistry. New York: MARCEL DEKKER, INC, 1977
[9] 浙江大学普通化学教研组,普通化学(第四版)[M],北京:高等教育出版社,1995
[10] 梁为民,凝聚与絮凝[M],北京:冶金工业出版社,1987
[11] J.N.Israelachvil, Intermolecular and Surface Force, Chap. 12. London: ACADEMIC PRESS INC, 1985
[12] 严煦世、范谨初,给水工程[M],北京:中国建筑工业出版社,1995
[13] 穆永江,混凝剂在气浮过程中的作用与机理[J],新疆环境保护,Vol.18,1,1996,46~48
[14] 甘光奉、张依华、甘莉,高分子铁盐混凝剂的开发与应用进展[J],工业水处理,Vol.17,5,1997,1~2
[15] Rgensons and M.E.Straumanis, A Short Textbook of Colloid Chemistry, Chap. 13.Oxford:PERGAMON PRESS LTD, 1953
[16] 许保玖、龙腾锐,当代给水与废水处理原理(第二版)[M],北京:高等教育出版社,2000
[17] JAWWA,74:600(1982)
[18] Water Research,21:1023(1987)
[19] 严煦世、范谨初,给水工程(第三版)[M],北京:中国建筑工业出版社,
1995
[20] 朱瑞,废水混凝处理及混凝剂[J],纸和造纸,3,1997,48
[21] 谢丽、周琪、孙仲平,合成洗涤剂生产废水的混凝处理技术[J],给水排水,Vol.27,2,2001,46~49
[22] 周可师、朱莉、郑怡,混凝剂性能试验及应用[J],华东电力,8,2000,10~13
[23] 张希衡,废水厌氧生物处理工程[M],北京:中国环境出版社,1996
[24] 周群英、高廷耀,环境工程微生物学(第二版)[M],北京:高等教育出版社,2000
[25] 沈耀良、王宝贞,水解酸化工艺及其应用研究[J],哈尔滨建筑大学学报,Vol.32,6,1999,35~38
[26] 王凯军等,低浓度污水厌氧——水解处理工艺[M],北京:中国环境科学出版社,1991
[27] 高廷耀、顾国维,水污染控制工程(第二版)[M],北京:高等教育出版社,1999
[28] 温江、杨秀强、董梅,水解酸化处理工艺的理论与实践[J],山东环境,3,1999,8~9
[29] 北京水环境技术与设备研究中心等,三废处理工程技术手册(废水卷)[M],北京:化学工业出版社,2000
[30] 余静、张林生,生活污水处理回用技术研究[J],给水排水,Vol.27,4,2001,31~34
[31] Inco..Performance of a two-phase anaerobic disgestion system when treating dairy wastewater[J], Water Res., 9, 1998, 2707~2713
[32] 佘宗莲,厌氧——好氧序列间歇式反应器处理生物制药废水的研究[J],环境科学研究,1,1998,49~52
[33] 陶有胜,水解酸化——生物接触氧化工艺处理啤酒废水工程实例[J],环境工程,4,1998,20~22
[34] 杨阿香、郑天凌,水解酸化对城市污水活性污泥法处理效果的影响[J],福建环境,Vol.18,3,2001,16~17
[35] Chyi, Dague, Effects of Particulate Size in Anaerobic Acidogenesis Using Cellulose as a Sole Carbon Source, Water Environment Research, 66(5),1994, 670~678
[36] 陈新宇、陈翼孙、李长兴,水解酸化——生物接触氧化处理难降解丁苯橡胶废水的研究[J],给水排水,Vol.23,2,1997,32~35
[37] 李燕城,水处理实验技术[M],北京:中国建筑工业出版社,1989
[38] 奚旦立、孙裕生,环境监测(修订版)[M],北京:高等教育出版社,1995
[39] 叶志宏,聚铁——混凝剂在污水处理中的应用[J],石油化工环境保护,4,1994,19~22
[40] 路光杰、孙永刚、杨日光,聚合铝混凝机理研究的新进展[J],东北电力学院 学报,Vol.17,1,1997,96~99
[41] 曾祥文、王志盈,改进混凝气浮处理印染接触氧化废水的研究[J],西安建筑科技大学学报,Vol.29,3,1997,246~249
[42] 甄玉东,含油污水处理研究——混凝剂的选择与应用[J],铀矿冶,Vol.20,11,2001,264~268
[43] 许玉东,混凝沉淀、一体化氧化沟工艺处理化纤废水[J],中国给水排水,Vol.16,2,2000,44~46
[44] 宁奎、张喜瑞、郎宝山,混凝法处理采油污水的研究与应用[J],水处理技术,Vol.27,2,2001,112~114
[45] 谢雄飞、肖锦、汪晓军等,混凝生化法处理表面活性剂废水[J],给水排水,Vol.27,2,2001,58~60
[46] 胡锋平、刘建斌,水解酸化——生物接触氧化——气浮工艺处理肉类加工废水[J],给水排水,Vol.27,9,2001,54~55
[47] 周律,环境工程技术经济和造价管理[M],北京:化学工业出版社,2001
[48] 王和平,给水排水工程概预算[M],北京:中国建筑工业出版社,1999
[49] 孙力平等,污水处理新工艺与设计计算实例[M],北京:科学出版社,2001
[50] 杨健、王士芬、郭长虹,水解酸化——好氧工艺处理异丙醇工业废水[J],重庆环境科技,Vol.21,8,1999,26~29