自吸式空心环流射流曝气器充氧性能研究(二)
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摘要
作为污水生化处理核心的曝气工艺是污水厂的能耗大项,其基建投资也十分巨大。
因此开发结构简单、能耗低、易管理的曝气设备成为各国共同关心的重要问题。射流曝气,
尤其是自吸式射流曝气就可较好地满足这一要求。但国内外现有的普通自吸式射流器的动
力效率并不占优,因此影响了它的推广应用。
本课题研制开发出一种自吸式空心环流射流器,其结构特点是在普通自吸式射流器
基础上内置一个空心管,其优点是采用内外吸气方式,从而增大了工作介质与引射空气的
混合层和剪切层,增大了两者的接触面积,增强了工作介质对引射空气的卷吸和掺混作用。
本文采用正交实验方法对自吸式空心环流射流器的结构参数进行了研究,并考察了
各结构参数之间的交互效应。研究结果表明:
1.所考察的三个结构参数对充氧性能影响的显著顺序是:喷嘴收缩角α→喉管长
径比L/D→空心管-喷嘴位置关系Lr。
2.结构参数的最佳组合是:α=16°,L/D=10,Lr=100%,其对应的氧总转移系数
是 Klas=0.051min~(-1),充氧动力效率是 E=2.92KgO_2/Kw·h。
3.L/D与Lr的交互效应最显著,L/D与α的交互效应次之,Lr与α的交互效应不明
显。
The technique of aeration,as the key part of biochemical treatment in the sewage plant, is
the chief section of energy expenditure and spends a large sum of construction funds. So it has
become a problem all the countries in the world to develop a wastewater treatment facilities with
simple structure, low energy expenditure and easy management. Jet aerator especially self-
suction jet aerator can meet the need well. However, the available common self-suction jet
aerator all over the world has no advantage in power efficiency, which prevents its extension.
This project develops a new equipment named coreless-cyclic self-suction jet aerator, which
is made by adding a central pipe in the common self-suction jet aerator. This new device has the
characteristic of internal-external suction,which enlarges the mixing layer, the shear layer of the
actuating medium and the extracted air, and increases the contact area of the two fluids,so
reinforces the swirling and mixing functions of the actuating medium to the extracted air.
This paper investigates the effect of the new device on oxygen transfer performance by
orthogonal experiment designs considering the interaction. The results show that:
1. The significance order of the three considered constitution parameters to oxygen transfer
performance is: nozzle's contracting angle(α) has the greatest influence, throat pipe's
length-diameter ratio(L/D) takes second place and central pipe relative location to nozzle(Lr)
doesn't have important influence.
2. The optimum combination of the three studied constitution parameters is: α=16°, L/D=10,
Lr=100%. The corresponding overall oxygen transfer coefficient(Klas) is 0.051min~(-1), the
theoretical power efficiency(E) is 2.92KgO_2/Kw·h.
3. The interaction of L/D with Lr is the most apparent, the interaction of L/D with α is a bit
less, and that of Lr with α is by far the least.
因此开发结构简单、能耗低、易管理的曝气设备成为各国共同关心的重要问题。射流曝气,
尤其是自吸式射流曝气就可较好地满足这一要求。但国内外现有的普通自吸式射流器的动
力效率并不占优,因此影响了它的推广应用。
本课题研制开发出一种自吸式空心环流射流器,其结构特点是在普通自吸式射流器
基础上内置一个空心管,其优点是采用内外吸气方式,从而增大了工作介质与引射空气的
混合层和剪切层,增大了两者的接触面积,增强了工作介质对引射空气的卷吸和掺混作用。
本文采用正交实验方法对自吸式空心环流射流器的结构参数进行了研究,并考察了
各结构参数之间的交互效应。研究结果表明:
1.所考察的三个结构参数对充氧性能影响的显著顺序是:喷嘴收缩角α→喉管长
径比L/D→空心管-喷嘴位置关系Lr。
2.结构参数的最佳组合是:α=16°,L/D=10,Lr=100%,其对应的氧总转移系数
是 Klas=0.051min~(-1),充氧动力效率是 E=2.92KgO_2/Kw·h。
3.L/D与Lr的交互效应最显著,L/D与α的交互效应次之,Lr与α的交互效应不明
显。
The technique of aeration,as the key part of biochemical treatment in the sewage plant, is
the chief section of energy expenditure and spends a large sum of construction funds. So it has
become a problem all the countries in the world to develop a wastewater treatment facilities with
simple structure, low energy expenditure and easy management. Jet aerator especially self-
suction jet aerator can meet the need well. However, the available common self-suction jet
aerator all over the world has no advantage in power efficiency, which prevents its extension.
This project develops a new equipment named coreless-cyclic self-suction jet aerator, which
is made by adding a central pipe in the common self-suction jet aerator. This new device has the
characteristic of internal-external suction,which enlarges the mixing layer, the shear layer of the
actuating medium and the extracted air, and increases the contact area of the two fluids,so
reinforces the swirling and mixing functions of the actuating medium to the extracted air.
This paper investigates the effect of the new device on oxygen transfer performance by
orthogonal experiment designs considering the interaction. The results show that:
1. The significance order of the three considered constitution parameters to oxygen transfer
performance is: nozzle's contracting angle(α) has the greatest influence, throat pipe's
length-diameter ratio(L/D) takes second place and central pipe relative location to nozzle(Lr)
doesn't have important influence.
2. The optimum combination of the three studied constitution parameters is: α=16°, L/D=10,
Lr=100%. The corresponding overall oxygen transfer coefficient(Klas) is 0.051min~(-1), the
theoretical power efficiency(E) is 2.92KgO_2/Kw·h.
3. The interaction of L/D with Lr is the most apparent, the interaction of L/D with α is a bit
less, and that of Lr with α is by far the least.
引文
1.穆瑞林,刘大军.国内曝气设备评述.给水排水.1992,18(6):34
2.陈定奎.废水、污水与环保概况.同济大学.1998
3.张悦.我国城市污水处理设备的产业化发展趋势与对策.绐水排水.1998,24(1):52-54
4.顾夏声.废水生物处理数学模式.北京:清华大学出版社,1993:28
5. JERRY Y.C.HUANG.MIKKETEL g.MANDT.Application of Jet Aeration.1973
6.张自杰等.排水工程(下册).北京:中国建筑工业出版社,1996:114
7.湖北省轻工业设计研究所,湖北省建筑工业学院等.污水生化处理新型曝气装置—射流曝气机的实验研究报告(一).1977:1-38
8.毛曾联,赵俊英.水射曝气的理论和应用.给水排水.1979,(6):36-38
9.金儒林,车武.射流曝气法的评述.给水排水.1981,(1):34-42
10.西安市设计院,西安市污水处理厂.城市污水射流曝气生化处理的实验研究.1976:10-11
11.陆宏圻.射流泵技术的理论及应用.北京:水利电力出版社,1989
12.刘永令.污水射流曝气生物处理浅析.城市污水处理技术.1984,(4):58-69
13.李燕城,邱少强.自吸式射流曝气器充氧性能研究.给水排水.1955,(1):20-24
14.许保玖.当代给水与废水处理原理.北京:高等教育出版社,1991:122-142
15.顾鼎言,朱素芬.印染废水处理.北京:中国建筑工业出版社,1985:137-182
16.同济大学等.射流曝气活性污泥法的研究Ⅲ曝气用射流器性能研究.1985:1-37
17.余常昭.环境流体力学导论.北京:清华大学出版社,1992:187-191
18. Wilson,G.E.Application of Jet Aeration to Sugarcane Waste Water.penberthy Houdaile Industries Prophetstoun. Illinois. 1971
19.曹海滨.水气引射器性能的理论分析与实验研究.西安交通大学硕士学位论文.
20.赵俊英.尉流曝气活性污泥法译文集.同济大学科学技术情报站.1986:17-37
21.费翔麟.高等流体力学.西安交通大学出版社.1990
22.[苏]E.索科洛夫,H.M.律格尔.喷射器.北京:科学出版社,1976:193-225
23.H.史里希廷.边界层理论(下册)北京:科学出版社,1991
24.李元瑞,糜留东.射流曝气器设计问题的探讨.给水排水.1983,(3):14-18
25.中华人民共和国建设部.曝气器清水充氧性能测定.中华人民共和国城镇建设行业标准CJ/T3015.2—93
26.任锋,常憬等.曝气设备充氧实验数据的推求方法及在设计中的应用.给水排水.1985,(12):12-17
27.洪嘉年.在氧转移数据的参数推算中易犯的错误.给水排水.1981,(6):21-27
28.李燕城.水处理实验技术.北京:中国建筑工业出版社,1989
29.高羽飞.水处理实验设计与分析.1998
30.XPM—8型喷射浮选机研制组.XPM—8型喷射浮选机的试验研究.选煤技术.1981,(6):4-9
31.陈福泰.自吸式空心环流射流曝气器充氧性能研究.西安建筑科技大学硕士学位论文.1999.6
32.贾世谟等.旋涡泵、液环泵、射流泵.北京:机械工业出版社,1993:78-103
33.胡湘韩,阚瑞清.喷射泵技术及其应用.哈尔滨:黑龙江科学技术出版社,1990
34.陆宏圻.环形液气射流泵的理论及试验研究.武汉水利电力学院学报.1990,23(1):1-7
35.给排水设计手册(第9册).北京:中国建筑工业出版社,1986
36.给排水设计手册(第3册).北京:中国建筑工业出版社,1986
37.李燕城,邱少强.水气射流抽气器工作性能的研究.给水排水.1982,(1):17-20
38. West, R..W.and Paulson,W.L..Jet Aeration in Activated Sludge System.Joural of Water Pollution Control Federation. 1969,41(10)
39. Jet Aeration Theory and Application. Proceedings of the 28th Industrial Waste Conference(port 2). 1973
40. Rooney, T.C..Proceedings of the 28th Industrial Waste Conforence(part 2).1973:645-660
41.郑祖光.影响高压水射流喷嘴性能的因素.高压水射流编辑部.14-20
42.葛景信,金志武.喷射泵理论及其在消防减阻中应用研究.华东水泵.1985,(2):15-26
43.车武.联邦德国几种曝气设备的性能及应用.北京建筑工程学院.1990
44.平浚.射流理论基础及应用.北京:宇航出版社,1995
45.周谟仁.流体力学 泵与风机.北京:中国建筑工业出版社,1985
46.邓勃.数理统计方法在分析测试中的应用.北京:化学工业出版社,1984
2.陈定奎.废水、污水与环保概况.同济大学.1998
3.张悦.我国城市污水处理设备的产业化发展趋势与对策.绐水排水.1998,24(1):52-54
4.顾夏声.废水生物处理数学模式.北京:清华大学出版社,1993:28
5. JERRY Y.C.HUANG.MIKKETEL g.MANDT.Application of Jet Aeration.1973
6.张自杰等.排水工程(下册).北京:中国建筑工业出版社,1996:114
7.湖北省轻工业设计研究所,湖北省建筑工业学院等.污水生化处理新型曝气装置—射流曝气机的实验研究报告(一).1977:1-38
8.毛曾联,赵俊英.水射曝气的理论和应用.给水排水.1979,(6):36-38
9.金儒林,车武.射流曝气法的评述.给水排水.1981,(1):34-42
10.西安市设计院,西安市污水处理厂.城市污水射流曝气生化处理的实验研究.1976:10-11
11.陆宏圻.射流泵技术的理论及应用.北京:水利电力出版社,1989
12.刘永令.污水射流曝气生物处理浅析.城市污水处理技术.1984,(4):58-69
13.李燕城,邱少强.自吸式射流曝气器充氧性能研究.给水排水.1955,(1):20-24
14.许保玖.当代给水与废水处理原理.北京:高等教育出版社,1991:122-142
15.顾鼎言,朱素芬.印染废水处理.北京:中国建筑工业出版社,1985:137-182
16.同济大学等.射流曝气活性污泥法的研究Ⅲ曝气用射流器性能研究.1985:1-37
17.余常昭.环境流体力学导论.北京:清华大学出版社,1992:187-191
18. Wilson,G.E.Application of Jet Aeration to Sugarcane Waste Water.penberthy Houdaile Industries Prophetstoun. Illinois. 1971
19.曹海滨.水气引射器性能的理论分析与实验研究.西安交通大学硕士学位论文.
20.赵俊英.尉流曝气活性污泥法译文集.同济大学科学技术情报站.1986:17-37
21.费翔麟.高等流体力学.西安交通大学出版社.1990
22.[苏]E.索科洛夫,H.M.律格尔.喷射器.北京:科学出版社,1976:193-225
23.H.史里希廷.边界层理论(下册)北京:科学出版社,1991
24.李元瑞,糜留东.射流曝气器设计问题的探讨.给水排水.1983,(3):14-18
25.中华人民共和国建设部.曝气器清水充氧性能测定.中华人民共和国城镇建设行业标准CJ/T3015.2—93
26.任锋,常憬等.曝气设备充氧实验数据的推求方法及在设计中的应用.给水排水.1985,(12):12-17
27.洪嘉年.在氧转移数据的参数推算中易犯的错误.给水排水.1981,(6):21-27
28.李燕城.水处理实验技术.北京:中国建筑工业出版社,1989
29.高羽飞.水处理实验设计与分析.1998
30.XPM—8型喷射浮选机研制组.XPM—8型喷射浮选机的试验研究.选煤技术.1981,(6):4-9
31.陈福泰.自吸式空心环流射流曝气器充氧性能研究.西安建筑科技大学硕士学位论文.1999.6
32.贾世谟等.旋涡泵、液环泵、射流泵.北京:机械工业出版社,1993:78-103
33.胡湘韩,阚瑞清.喷射泵技术及其应用.哈尔滨:黑龙江科学技术出版社,1990
34.陆宏圻.环形液气射流泵的理论及试验研究.武汉水利电力学院学报.1990,23(1):1-7
35.给排水设计手册(第9册).北京:中国建筑工业出版社,1986
36.给排水设计手册(第3册).北京:中国建筑工业出版社,1986
37.李燕城,邱少强.水气射流抽气器工作性能的研究.给水排水.1982,(1):17-20
38. West, R..W.and Paulson,W.L..Jet Aeration in Activated Sludge System.Joural of Water Pollution Control Federation. 1969,41(10)
39. Jet Aeration Theory and Application. Proceedings of the 28th Industrial Waste Conference(port 2). 1973
40. Rooney, T.C..Proceedings of the 28th Industrial Waste Conforence(part 2).1973:645-660
41.郑祖光.影响高压水射流喷嘴性能的因素.高压水射流编辑部.14-20
42.葛景信,金志武.喷射泵理论及其在消防减阻中应用研究.华东水泵.1985,(2):15-26
43.车武.联邦德国几种曝气设备的性能及应用.北京建筑工程学院.1990
44.平浚.射流理论基础及应用.北京:宇航出版社,1995
45.周谟仁.流体力学 泵与风机.北京:中国建筑工业出版社,1985
46.邓勃.数理统计方法在分析测试中的应用.北京:化学工业出版社,1984