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移动式、旋流—气浮选污水处理装置 被引量:3

ROTATIONAL DEVICE FOR WASTE WATER TREATMENT BY CYCLONE AND GAS FLOATATION
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摘要 本文介绍了一种新型的双罐污水处理装置的设计思路,该装置的第一密闭罐中有一锥形旋流缸,第二密闭罐是多滤芯沉降过滤罐。该装置的原理是利用污水源的压力,通过一个喷嘴高速喷射产生的负压吸气、液旋流混合浮选,并采用多滤芯方式增大过滤面积,达到高效处理污水的目的。 A new desihn idea of a double-tank waste water treatment device was introducer with two tanks, one is a conical cyclone cylinder, the other is multi-layer filtration tank. The operating theory of this device is to make use of the pressure of the water source, By means of the negative suction of gas caused by high speed jet, cyclone mixed gas flotation and the expansion of filtration area by means of multi-layer filtation, oil and water can bbe separated. A characteristic of this design lies in the application of gas flotation and cyclone at the same time, through the sedimentation filtration, the efficiency for waste water treatment can be improved Another characteristic of this device is its compactness, it is easv to move from place to place, especially applicable in the oilfield, such as the treatment of the waste water coming from the oil-well washing and drainage, it is also applicable for water treatment in a mine.
作者 倪玲英 杨德伟
机构地区 石油大学(华东)石油工程系
出处 《水处理技术》 CAS CSCD 1998年第6期351-355,共5页 Technology of Water Treatment
关键词 污水处理 负压吸气 浮洗 分离 过滤 Waste water treatment, negative pressure suction, floatation, cyclone separation, filtration
分类号 X505 [环境科学与工程—环境工程] X703 [环境科学与工程—环境工程]
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共引文献8

同被引文献30

  • 1潘利祥,孙国刚.充气水力旋流器用于油水分离的试验研究[J].化工机械,2004,31(5):259-263. 被引量:13
  • 2余仁焕,李新国.利用充气旋流器净化含油污水的研究[J].矿冶,1996,5(3):94-99. 被引量:11
  • 3蒋明虎,王学佳,赵立新,李枫,张勇.气携式水力旋流器分离性能试验[J].大庆石油学院学报,2006,30(1):53-56. 被引量:10
  • 4白志山,汪华林,裴世瑜,王建文,刘文权.用于含油污水处理的气浮旋流耦合技术研究[J].环境污染治理技术与设备,2006,7(8):86-89. 被引量:13
  • 5张崇华.浮选净水技术[M].北京:中国环境科学出版社,1991..
  • 6Miller J D. Apparatus and method for separating particles from a fluid suspension[P]. US 4397741, 1983.
  • 7Miller J D, Hupka J. Water de-oiling in an air-sparged hydrocyclone [J]. Filtration and Separation, 1983, 20(4): 279-282.
  • 8Beeby J P, Nicol S K. Concentration of oil-in-water emulsion using the air-sparged hydrocyclone [J]. Filtration and Separation, 1993, 30 (2): 141-148.
  • 9Miller J D ,Upadrashta K R ,Kinneberg D J, et al. Fluid flow phenomena in the air-sparged hydrocyclone [C].Proceedings of ⅩⅤ International Mineral Processing Congress, Cannes, 1985: 87-99.
  • 10Miller J D, Yi Ye, Pacquet E, et al. Design and operating variables in flotation separation with the air-sparged hydrocyclone[C]. Proceedings of ⅩⅥ International Mineral Processing Congress, Stockholm, 1988 : 499-510.

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水处理技术
1998年 第6期

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