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采用空间滤波法测量气/固两相流固相速度 被引量:9

The Solid Phase Velocity of Gas-Solid Two Phase Flow Measured With Spatial Filter Principle
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摘要 由插入式静电传感器的点电荷数学模型得到了固相流速的空间滤波测量原理,同时在实时测量流速的过程中采用了"3dB"原则获取信号的截止频率。通过实验验证了插入式静电传感器空间滤波原理的可行性,建立了一套气/固两相流流体速度模拟实验装置,该装置可以在1~25m/s速度范围内完成固相速度空间滤波速度测量。并采用环状电极互相关速度标定了此空间滤波法测量得到的速度。实验结果表明:得到的插入式电极空间滤波速度测量模型可以在宽范围内实现固相速度测量。 The spatial filter measurement principle of flow velocity was obtained by point charge mathematical model of the electrostatic sensor inserted, and signal cut--off frequency was acquired with "3dB" principle during real--time measuring flow velocity. Experiments prove that the spatial filter measurement velocity principle of inducement probe is feasible, and a set of experiment equipment was made--up to measure the solid phase velocity of gas--solid two phase flow, with which the spatial filter velocity may be measured in range of 25 m/s. The measured spatial filter velocity was calibrated by the correlation velocity of ring electrostatic sensor. It may be obtained from the measurement results that the deduced velocity measurement model of spatial filter method may complete measuring solid phase velocity in wider range.
作者 阚哲 邵富群 李庆华
机构地区 辽宁石油化工大学 东北大学 中国石油辽阳石化分公司
出处 《辽宁石油化工大学学报》 CAS 2012年第2期74-77,共4页 Journal of Liaoning Petrochemical University
关键词 插入式静电传感器 气/固两相流 空间滤波 测速 截止频率 The electrostatic sensor inserted Gas--solid two phase flow Spatial filter Measuring velocity Cut--off frequeney
分类号 TH815 [机械工程—精密仪器及机械]
  • 相关文献

参考文献10

  • 1Yan Y, Byrne B, Coulthard J. Sensing field homogeneity in mass flow rate measurement of pneumatically conveyed solids[J]. Flow measurement and instrument, 1995(2):115-119.
  • 2Armour-Chelu D I, Woodhead S R. Comparison of the electric charging properties of particulate materials in gas- solids flows in pipelines[J]. Journal of electrostatics, 2002 (56) : 87-101.
  • 3Coulthard J, Cheng R X, Keech R. Developments in pulverized fuel metering for coal-fired power stations[J]. Power engineering, 2000(5) :100-104.
  • 4鹿钦礼,马贵阳.输油管道预热介质流速对预热时间的影响[J].辽宁石油化工大学学报,2011,31(1):28-31. 被引量:5
  • 5Yan Y, Byrne B, Woodhead S R, et al. Velocity measurement of pneumatically conveyed solids using electrodynamic sensors[J]. Measurement science & technology, 1995 (6) : 515 - 537.
  • 6Gajewski J B. Monitoring electrostatic flow noise for mass flow and mean velocity measurement in pneumatic transport [J]. Journal of electrostatics, 1996(37) :261-276.
  • 7阚哲,邵富群,李成志,李庆华.插入式静电传感器特性研究[J].计量学报,2011,32(2):141-146. 被引量:3
  • 8Hammer E A, Green R G. The spatial filter effect of capacitance transducer electrodes[J]. J. phys. E:sci. instrum. , 1983(16) :438-443.
  • 9Gajewski J B. Electrostatic inductive ring probe bandwidth[J]. Journal of electrostatics, 1996(7) :1766-1775.
  • 10阚哲.基于静电传感器气/固两相流参数测量方法研究[D].沈阳:东北大学信息科学与工程学院,20lO.

二级参考文献19

  • 1李伟,张劲军.埋地热油管道停输后周围土壤温度场的数值模拟[J].西安石油大学学报(自然科学版),2005,20(6):27-29. 被引量:25
  • 2卢涛,孙军生,姜培学.埋地热油管道预热启输过程外界气温及预热水温对土壤温度场的影响[J].太阳能学报,2006,27(10):1053-1057. 被引量:7
  • 3蒋绿林,付迁,张青松.埋地输油管道非稳态传热数值研究[J].炼油技术与工程,2007,37(5):36-39. 被引量:8
  • 4Ma Guiyang.Numerical simulation on soil temperature field around underground hot oil pipelines and medium temperature-drop in the process of staring[DB/OL].[2009-03-20][2010-08-12].http://cedb.asce.org/cgi/WWWdisplayrbn.cgi?RBN9780784410738.
  • 5Yan Y. Mass flow measurement of bulk solids inpneumatic pipelines [ J ]. Measurement Science and Technology, 1996,7 (9) : 1687 - 1706.
  • 6Gajewski J B. Continuous non-contact measurement of electric charges of solid particles in pipes of pneumatic transport. I. Physical and mathematical models of a method [ C ]//IEEE/ISA Annual Meeting, San Diego, CA, 1989.
  • 7Yan Y, Byrne B, Coulthard J. Sensing field homogeneity in mass flow rate measurement of pneumatically conveyed solids[J]. Flow Measurement and Instrument, 1995,6 (2) :115 -119.
  • 8Armour-Chrlu D I, Woodhead S R. Comparison of the electric charging properties of particulate materials in gas- solids flows in pipelines [ J ]. Journal of Electrostatics, 2002,56(1):87 - 101.
  • 9Coulthard J, Cheng R X, Keech R. Developments in pulverized fuel metering for coal-fired power stations [ J ]. Power Engineering ,2000,14 ( 6 ) 100 - 104.
  • 10Hammer E A, Green R G. The spatial filter effect of capacitance transducer electrodes [ J ]. J Phys E: Sci Instrum, 1983,16 ( 5 ) : 438 - 443.

共引文献6

同被引文献92

  • 1王晓蕾,阚哲,王龙业,廖代根.基于静电传感器空间滤波法测量固相速度[J].辽宁石油化工大学学报,2012,32(3):70-73. 被引量:4
  • 2许联锋,廖伟丽,陈刚,李建中.稀疏气泡流动的粒子跟踪测速技术研究[J].水利学报,2005,36(7):825-829. 被引量:7
  • 3徐苓安.相关测量技术[M].天津:天津大学出版,1988:68-96.
  • 4Beck M. Correlation in instruments : cross correlation flowmeters[J]. Journal physical E: Science instrument, 1981 (14) : 7-19.
  • 5Coulthard J. The priciple of ultrasonic cross-correlation flowmetering[J]. Measurement and control, 1975(8) : 65-70.
  • 6Irons G, Chang J. Particle fraction and velocity measurement in gas--power streams by capacitance transducers[J]. Multiphase low, 1985(9): 289-297.
  • 7Matsumoto S. Solids particle velocity in vertical gaseous suspension flow[J]. Multiphase flow, 1986(12) : 445-458.
  • 8Yan Y, Byrne B, Woodhead S, et al. Velocity measurement of pneumatically conveyed solids using electrodynamic sensors[J]. Measurement science & technology, 1995(6): 515-537.
  • 9Meseh F, Kipphan H. Solid flow measurement by correlation method[J]. Opto-eleetronics, 1972(4): 451-462.
  • 10邵富群.相关测速中测量精度与记录长度间的关系[J].控制与决策,1988(6):54-56.

引证文献9

二级引证文献26

辽宁石油化工大学学报
2012年 第2期

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