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泥水盾构机搅拌器搅拌特性影响因素规律研究 被引量:3

Study on the law of influencing factors on stirring characteristics of slurry shield machine agitators
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摘要 为防止泥水盾构机排浆口处碴土堆积沉淀而堵塞排浆口,采用多重参考模型(MRF)构建双搅拌器系统,从转动速度、转动方向、间距大小和泥浆入口流速等4个常见的操作参数切入,分析不同参数对搅拌特性的影响规律,为实际工程选取搅拌器操作参数提供借鉴。研究结果表明:增大2个搅拌器的转动速度能够有效提升整个搅拌区域的搅拌速度;反向向上旋转使得速度流线更加对称,中间区域向上速度更大,提升能力更大;随着双搅拌器间距的增大,中间区域速度不断减小,两侧区域速度不断增大,但中间区域上侧部分速度先增大后减小;泥浆入口流速对搅拌特性影响较小,除中间区域下侧速度有明显增加外,其他区域变化较小。 To prevent soil accumulation precipitation and congestion in slurry shield row mud pulp mouth holes,MRF model was used to construct double agitator system,from four common operating parameters,such as the rotation speed,the rotation direction,space size,and mud inlet velocity,analyed the influence law of different parameters on the stirring characteristics,serving as a reference for practical engineering select agitator operation parameters.The results show that increasing the rotation speed of the two agitators can effectively improve the speed of the entire stirring area;the reverse upward rotation makes the velocity streamline more symmetrical,and the upward velocity and lifting capacity of the middle area are greater.With the increase of the distance between the double agitators,the speed in the middle region decreases continuously,and the speed in the two sides increases continuously.However,the speed in the upper part of the middle region first increases and then decreases.The velocity of mud inlet has little influence on the mixing characteristics,except that the velocity on the lower side of the middle area increases obviously,the other areas change little.
作者 马博松 徐兴居 王锋 李东鑫 夏毅敏 Ma Bosong;Xu Xingju;Wang Feng;Li Dongxin;Xia Yimin(State Key Laboratory of High Performance Complex Manufacturing,Central South University,Changsha 410083,China;School of Mechanical and Electrical Engineering,Central South University,Changsha 410083,China;China Railway 14th Bureau Group Big Shield Engineering Co.,Ltd.,Nanjing 211800,China;State Grid Jiangsu Electric Power Co.,Ltd.,Nanjing 211000,China)
出处 《现代制造工程》 CSCD 北大核心 2019年第8期130-134,140,共6页 Modern Manufacturing Engineering
基金 国家高技术研究发展计划(863计划)项目(2012AA041803) 湖南省科技重大专项项目(2014FJ1002) 国家电网公司科技资助项目(JSJS1600326)
关键词 泥水盾构机 搅拌器 搅拌特性 影响规律 slurry shield machine agitator stirring characteristics influence law
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  • 1陈梅,范西俊,窦梅,吴嘉.高粘度流体二维搅拌流场[J].化工学报,1994,45(1):10-16. 被引量:5
  • 2侯拴弟,王英琛,施力田.螺旋桨搅拌槽内湍流参数[J].化工学报,1995,46(4):480-486. 被引量:4
  • 3毛德明,冯连芳,许国军,李允明,李玉麟,王凯.用LDA研究搅拌釜内的流场[J].高校化学工程学报,1996,10(3):258-263. 被引量:21
  • 4蔡志武,戴干策.搅拌桨内部三元流动计算[J].华东理工大学学报(自然科学版),1996,22(3):237-244. 被引量:4
  • 5[1]Oldshue J Y.Fluid mixing technology. New York:McGraw-Hill,1983.
  • 6[2]Bakker A,et al.Pinpoint mixing problems with lasers and simulation software.Chem Eng,1994,1:94.
  • 7[4]Placek J,et al.Turbulent flow in stirred tanks Part II:Turbulent flow in the turbine impeller region.AIChE J,1986,32:1771.
  • 8[5]Ranade V V,et al.Flow generated by pitched blade turbines I:Measurements using Laser Doppler Anemometer.Chem Eng Commun,1989,81:197.
  • 9[6]Kresta S M,Wood P E.Prediction of the three-dimensional turbulent flow in stirred tanks.AIChE J,1991,37:448.
  • 10[7]Kaminoyama M,et al.Numerical analysis of three-dimensional flow of a pseudoplastic liquid in a stirred vessel with a turbine impeller.Int Chem Eng,1990,30:720.

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