科氏流量计振动管污垢检测技术研究现状与发展趋势-《工业仪表与自动化装置》

文章信息/Info

Title:: Research status and development trend of dirt detection technology of Coriolis flowmeter vibration tube

文章编号:: 1000-0682（2017）04-0000-00

作者:: 曹胜强; 张海涛; 沈林; （后勤工程学院后勤信息与军事物流工程系，重庆 401311）

Author(s):: CAO Shengqiang; ZHANG Haitao; Shen Lin; （Department of Information Engineering,Logistical Engineering University, Chongqing 401311, China）

关键词:: 科氏流量计; 污垢; 影响; 检测方法; 发展趋势

Keywords:: Coriolis flowmeter; dirt; influences; detection method; development trend

分类号:: TH715

DOI:: -

文献标志码:: A

摘要:: 科氏流量计振动管污垢的存在是一种非常普遍的现象，不但会影响科氏质量流量计的测量精度，造成严重的经济损失，甚至还会堵塞流道而引发停机故障。该文归纳了目前国内外管道污垢检测技术，以及各种污垢检测技术的原理及优缺点，重点阐述了科氏流量计振动管污垢检测技术的研究现状，展望了科氏流量计振动管污垢检测技术未来的发展趋势。

Abstract:: Dirt of Coriolis flowmeter vibration tube is a very common phenomenon,not only affects the measurement accuracy of Coriolis flowmeter,Causes serious economic losses,but also Plugs the flow channel and causes downtime failure.This paper summarizes the current domestic and foreign dirt detection technology, as well as dirt detection technology principles,advantages and disadvantages. mainly describes the dirt detection technology and research Status of Coriolis flowmeter vibration tube.Prospect the future dirt detection development trend of Coriolis flowmeter vibration tube.

参考文献/References:

[1] 杨善让,徐志明,孙灵芳.换热设备污垢与对策[M].北京:科学出版社,2004:1-2.

[2] Ozden H O, Puri V M. Computational analysis of fouling by low energy surfaces[J].Journal of Food Engineering, 2010, 99(3):250-256.

[3] Thackery P A. The cost of fouling in heat exchanger plant [J].Effluent & Water Treatment Journal, 20:112-115.

[4] RENATE STEINHAGEN,HANS M?LLERSTEINHAGEN, KAMBIZ MAANI. Problems and Costs due to Heat Exchanger Fouling in New Zealand Industries[J]. Heat Transfer Engineering, 2007,14(1):19-30.

[5] Thackery P A. The cost of fouling in heat exchanger plant [J].Effluent & Water Treatment Journal, 20:112-115.

[6] 徐志明,杨善让,郭淑青,等.电站凝汽器污垢费用估算[J].动力工程学报, 2005, 25(1):102-106.

[7] 王锡文.换热设备的污垢危害及费用估计[J].黑龙江电力, 2005,27(4):296-299.

[8] 孙灵芳.新型污垢热阻在线监测装置的研发与应用研究[D]. 保定:华北电力大学, 2003.

[9] Cho Y I, Choi B G. Effect of Fouling on Temperature Measurement Error and a Solution[J]. Journal of Heat Transfer, 1998, 120(2):525-528.

[10] Kourosh Kolahi,Thorsten Schroder,Helmut Rock.model- based density measurement with Coriolis flowmeter[J]. IEEE Transactions on Instrumentation and Measurement, 2006,50(4): 1258-1262.

[11] 赵敏涛.科氏质量流量计的应用研究[D].西安石油大学, 2013.

[12] 郭永涛.质量流量计故障的原因及排除[J].品牌与标准化, 2012(8):15-15.

[13] 李林杰.密闭空间中的污垢识别与图像处理[D].上海应用技术学院, 2015.

[14] 冯国亮.基于超声波技术的污垢检测研究[D].东北电力大学, 2011.

[15] Kujundzic E, Ph D, Cobry K, et al. Use of Ultrasonic Sensors for Characterization of Membrane Fouling and Cleaning[J]. Journal of Engineered Fibers & Fabrics, 2008, 3(2):1136-1139.

[16] Silalahi S H D, Leiknes T O, Ali J, et al. Ultrasonic time domain reflectometry for investigation of particle size effect in oil emulsion separation with crossflow microfiltration[J]. Desalination, 2009, 236(1):143-151.

[17] 李霞,孙灵芳,杨明,等.薄层污垢超声检测信号处理方法[J].振动、测试与诊断, 2013, 33(6):960-965.

[18] 柴国墉, A R Greenberg, W B Krantz.超声监测技术在膜分离过程中的应用研究[C].中国膜科学与技术报告会论文集, 2003:134-140.

[19] Silva J J, Silva K M, Lima A M N, et al. 3E-5 Wavelet- Based Method for Fouling Detection Using Ultrasonic Guided Waves[C]. 2006:444-447.

[20] 刘镇清.超声无损检测中的导波技术[J].无损检测, 1999(8):367-369.

[21] 焦敬品,何存富,吴斌,等.管道超声导波检测技术研究进展[J].实验力学, 2002,17(1):1-9.

[22] 张跃强,张早校,郝建成,等.管道超声导波检测技术进展[J].化工设备与管道, 2016(3):

[23] 郑满荣.压力管道超声导波检测技术应用研究[J].广东科技, 2013(18):164-165.

[24] 李景娆,黄卫平,劳玉香.激光散射法快速测定催化剂粒度分布[J].广州化工, 2012, 40(13):109-111.

[25] 范我,胡明江,宁萍,等.纳米磁性氧化铁溶液的颗粒度测定[J].同位素, 2004, 17(4):228-231.

[26] 钟文胜.油烟管道清洗机器人关键技术研究[D].大连工业大学, 2013.

[27] 孙蛟,孙彩玲.管道污垢检测系统设计[J].机械工程师, 2009(6):98-99.

[28] 关荣华.非接触测温技术对圆筒设备内部温度的定量检测[J].红外技术, 2002,?

[29] 杨立.红外热成像测温原理与技术[M].北京:科学出版社, 2012.

[30] 邓昌海.金属管常见缺陷的红外无损检测研究[D].南昌航空大学, 2012.

[31] 左国平,周剑良,于涛,等.伽马射线散射法测量管道油垢厚度的初步研究[J].核电子学与探测技术,2010,30(8): 1067-1069.

[32] 徐静,严佳浩,孟祥鹏,等.基于伽马射线透射法的管道油垢厚度模拟测量[J].油气储运, 2013, 32(3):267-269.

[33] Krasznahorkay A, Csatlos M, Stuhl L, et al. A New Method for Measuring Neutron-skin Thickness in Rare Isotope Beams[J]. Acta Physica Polonica, 2013, 44(3):559-562.

[34] Zhao N X, ArkinAbulim. Preliminary Experimental Research to Influence of Oil on Measurement of Grease Stain Thickness in Oil Pipeline[J].Nuclear Electronics & Detection Technology, 2010, 30(7):990-993.

[35] F?rster M, Bohnet M. Influence of the interfacial free energy crystal/heat transfer surface on the induction period during fouling[J]. International Journal of Thermal Sciences, 1999, 38(11):944-954.

[36] 李霞.换热设备污垢超声检测及信号处理方法研究[D]. 哈尔滨工业大学, 2015.

[37] Crittenden B D, Khater E M H. Fouling from vaporizing kerosine[J].Journal of Heat Transfer, 1987,109(3):583-589.

[38] 邢晓凯,马重芳,陈永昌,等.一种用于污垢监测的温差热阻新方法[J].中国石油大学学报(自然科学版),2004, 28(5):70-73.

[39] 禹浩,李自力,程中海,等.管道污垢监测装置的研究进展[J].管道技术与设备, 2010(5):19-21.

[40] 任建新,熊亮,张鹏,等.科氏质量流量计挂壁状态在线监测与校正[J].传感技术学报, 2011, 24(3):365-370.

[41] B L 卡本特, A X 路纳.用于科里奥利效应质量流量计中的故障检测和校正的方法和装置:CN,CN1166199[P]. 1997.

[42] 任建新,张忠洋,刘景峰,等.检测科氏流量计振动管管壁附加物、磨损或腐蚀的方法和装置:CN,CN101819056[P]. 2010.

[43] 陈智威.科氏质量流量计常见故障仿真分析[J].化工自动化及仪表, 2013, 40(12):1481-1484.

[44] 谭剑,任建新,张鹏.考虑剪切影响的直管科氏流量计固液耦合振动分析[J].工业仪表与自动化装置,2009(2): 7-11.

[45] 许萍,李著信,蒋忠.液体输送管道固液耦合振动的有限元分析[J].管道技术与设备, 2004(6):3-5.

[46] 佟明君,赵树山,王世忠.输送流体管道的固液耦合振动分析[J].哈尔滨理工大学学报,2004, 9(2):135-138.

相似文献/References:

[1]邵鹏,曹胜强,沈林.基于密度变化的科氏流量计测量管磨损在线检测方法[J].工业仪表与自动化装置,2017,(06):7.[doi:1000-0682（2017）06-0007-03]
　SHAO Peng,CAO Shengqiang,SHEN Lin.On-line measurement method for corrosion measurement of coriolis flowmeter based on density change[J].Industrial Instrumentation & Automation,2017,(04):7.[doi:1000-0682（2017）06-0007-03]
[2]邵鹏,张海涛,涂亚庆,等.温度对U形管科氏流量计测量管谐振频率的影响[J].工业仪表与自动化装置,2018,(05):126.[doi:1000-0682（2018）05-0000-00]
　SHAO Peng,ZHANG Haitao,TU Yaqing,et al.Influence of temperature on the resonant frequency of measuring tube of U tube Coriolis mass flowmeter[J].Industrial Instrumentation & Automation,2018,(04):126.[doi:1000-0682（2018）05-0000-00]
[3]曹胜强,沈林.污垢对单直管科氏流量计灵敏度的影响及仿真分析[J].工业仪表与自动化装置,2017,(05):37.
　CAO Shengqiang,SHEN Lin.Simulated analysis of effect of fouling on sensitivity of single straight tube CMF[J].Industrial Instrumentation & Automation,2017,(04):37.

《工业仪表与自动化装置》[ISSN:1000-0682/CN:61-1121/TH]

文章信息/Info

参考文献/References:

相似文献/References:

备注/Memo

常用功能

导航/Navigate

工具/Tools

统计/Statistics