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Landmarks in the application of electrical tomography in particle science and technology 被引量:4

Landmarks in the application of electrical tomography in particle science and technology
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摘要 Selected milestones in the development and use of electrical tomography in powder conveying, slurry processing and multi-phase flow are highlighted. The ability to map concentration in opaque mixtures under process-realistic conditions was a major innovation for the method and has had far reaching implications. Subsequent developments have enabled velocity information to be abstracted resulting in the ability to measure component flux and motion. Selected milestones in the development and use of electrical tomography in powder conveying, slurry processing and multi-phase flow are highlighted. The ability to map concentration in opaque mixtures under process-realistic conditions was a major innovation for the method and has had far reaching implications. Subsequent developments have enabled velocity information to be abstracted resulting in the ability to measure component flux and motion.
作者 Richard A.Williams
机构地区 Institute of Particle Science and Engineering
出处 《Particuology》 SCIE EI CAS CSCD 2010年第6期493-497,共5页 颗粒学报(英文版)
基金 support of co-workers in the tomography groups at University of Leeds and the University of Manchester with funding to enable us to develop the frontiers of tomography provided by EPSRC (EP/D031257/1)
关键词 Computational fluid dynamics Fault condition and maloperation Flow measurement Flow regime identification Particle concentration Process control Process safety Computational fluid dynamics Fault condition and maloperation Flow measurement Flow regime identification Particle concentration Process control Process safety
分类号 TP212 [自动化与计算机技术—检测技术与自动化装置]
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参考文献31

  • 1Beck, M. S., & Plaskowski, A. (1987), Cross correlation flowmeters: Their design and application. Bristol: Adam. Hilger.
  • 2Beck,M. S., & Williams, R. A. (]996). Process tomography: A European inno- vation and its applications. Measurement Science and Technology, 7, 275- 224.
  • 3Bennett, M. A. (1999). Measurement of on-line multiphase processes using electrical capacitance tomography. Unpublished doctoral dissertation, University of Exeter.
  • 4Bennett, M, A., West, R, M., Luke, S. P., & Williams, R. A. (2002). The investigation of bubble column and foam processes using electrical capacitance tomography. Minerals Engineering, 15, 225-234.
  • 5Cullivan, J. C., & Williams, R. A. (2005). Velocity, size and shape and concentra- tion measurements of particulate mixtures. In C. Crowe (Ed.), Multiphase flow handbook (pp. 42-87), London: Taylor and Francis (chapter 14.4).
  • 6Cullivan, J. C., Williams, R. A., & Cross, C. R. (2003). Understanding the hydrocyclone separator through computational fluid dynamics. Transactions of IChemE, 81 (Part A4), 854-861.
  • 7Dyakowski, T., Edwards, R. B., Xie, C. G., & Williams, R. A. (1997). Application of capacitance tomography to gas-solid flows. Chemical Engineering Science, 52, 2099-2110.
  • 8Dyakowski, T.. Luke. S. P.. Ostrowski, K. L.. & Williams. R, A, (1999). On-line monitor- ing of dense phase flow using real time dielectric imaging. Powder Technology, 104, 287-295.
  • 9Grudzien, K., Romanowski, A., & Williams, R. A. (2005). Application of a Bayesian approach to the tomographic analysis of hopper flow. Particle & Particle Systems Characterisation, 22, 246-253.
  • 10Huang, S. M., Xie, C. G., Salkeld, J. A., Plaskowski, A., Thorn, R, Williams, R. A., et al. (1992). Process tomography for identification, design and measurement in industrial systems. Powder Technology, 69, 85-92.

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Particuology
2010年 第6期

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