ON Line Instrumentation Laboratory

Publications

REFERRED JOURNALS

  1. Ramskill NP and Wang M (2011) Boolean logic analysis for flow regime recognition of gas–liquid horizontal flow, Meas. Sci. Technol. 22 (in press)
  2. Hammond RB and Wang M (2011) (W3MDM) University of Leeds International Symposium: What Where When – Multi-dimensional Advances for Industrial Process Monitoring, Eds, Special Issue, Nuclear Engineering and Design J., 241 (2011) iii–v
  3. Williams R A (2010) Landmarks in the application of electrical tomography in particle science and technology, Particuology, dio:10.1016/j.partic.2010.07.017, ISSN1674-2001
  4. Jia J, Wang M, Schlaberg, HI and Li H (2010) A Novel Tomographic Sensing System for High Electrically Conductive Multiphase Flow Measurement, Flow Meas. & Instru. 21, 184-190.
  5. Li H, Wang M, Wu Y, Lucas G (2009) Volume flow rate measurement in vertical oil-in-water pipe flow using electrical impedance tomography and a local probe, DOI: 10.1615/MultScienTechn.v21.i1-2.70, 81-93
  6. Baas JH, Best JL, Peakall J, Wang M (2009) A phase diagram for turbulent, transitional, and laminar clay suspension flows, J SEDIMENT RES 79, 3-4
  7. Johansen GA, Wang M (2008) Industrial process tomography, MEAS SCI TECHNOL 19(9)
  8. Guan, P., Wang, M., Schlaberg, H.I. and Khan, J.I. (2010) “Towards A-Scan Imaging via Ultrasonic Vibration Potential Measurements”,Nuclear Engineering & Design J., 241, 1994–1997
  9. Dai, Y., Williams, R.A. and Lucas, G. (2005) A high performance EIT system, IEEE Sensors Journal, Vol.5, No2, pp.289-299
  10. Wu, Y., Li, H., Wang, M., Williams, R.A. (2005) Characterization of air-water two-phase vertical flow by using electrical resistance imaging, Canadian Journal of Chemical Engineering, volume 83, issue 1, year 2005, pp. 37 - 41
  11. Dai, Y, Pachowko, A and Wang, M (2004) The control of polymer addition to raw waste sludge using electrical resistance tomography – a preliminary study, Part. Part. Syst. Charact 21, pp.228-233
  12. Wang, M., Jones, T.F. and Williams, R.A. (2003) Visualisation of asymmetric solids distribution in horizontal swirling flows using electrical resistance tomography, Trans IChemE, Volume 81, Part A, pp.854-861
  13. Schlaberg, H.I., Wang, M., Guan, P. and Khan, I.J. (2010) “Ultrasound Vibration Potential measurement techniques for imaging”, Nuclear Engineering & Design J., 241, 1981–1987
  14. Zhao, Y., Wang, M. and Hammond, R.B. (2010) “Characterisation of Crystallisation Processes with Electrical Impedance Spectroscopy”, Nuclear Engineering & Design J., 241, 1938–1944
  15. Vilar, G, Williams, RA, Wang, M and Tweedie, RJ (2008) On Line Analysis of Structure Dispersions in an Oscillatory Baffled Reactor (OBR) using Electrical Impedance Tomography (EIT),   Chem. Eng. J., Volume 141, Issues 1-3, 15 July, , Pages 58-66.
  16. Xu J.Y., Wang, M., Munir, B., Oluwadarey,H.I., Schlaberg, H.I (2007) Correlation of electromagnetic flow meter, electrical resistance tomography and mechanistic modelling for a new  solution of solid slurry measurements, Journal of Hydrodynamics, Elsevier, 21(4): 557-563
  17. Xu, J.Y., Wang, M., Wu, Y.X., Schlaberg, H.I., Zhen, Z.C., Williams, R.A. (2007) An experimental study of in-situ phase fraction in jet pump using electrical resistance tomography technique, Chinese Physics Letter, 24(2), 512-515
  18. Bolton, G.; Bennett, M.A.; Wang, M.; Qiu, C.; Wright, M.; Primrose, K.; Stanley, S.; Rhodes, D. (2007) Development of an electrical tomographic system for operation in a remote, acidic and radioactive environment, to be published in Chemical Engineering Journal, No130, 165-169
  19. Wang M, Squires J (2007) Process tomography and flow visualization, FLOW MEAS INSTRUM 18(5-6) Oct 2007
  20. Jin, H.; Wang, M.; Williams, R.A. (2007) Analysis of Bubble Behaviors in Bubble Columns Using Electrical Resistance Tomography, in Chemical Engineering Journal, No130, 179-185
  21. Vijayan, M.; Schlaberg, H.I.; Wang, M. (2007) Effects of sparger geometry on the mechanism of flow pattern transition in a bubble column, in Chemical Engineering Journal, No130, 171-178
  22. Wang M (2006) Process tomography, MEAS SCI TECHNOL 17(8) Aug 2006
  23. Jin HB, Wang M, Williams RA (2006) The effect of sparger geometry on gas bubble flow behaviour using electrical resistance tomography, CHINESE J CHEM ENG 14(1) Feb 2006
  24. Schlaberg, H.I., Baas, J.H., Wang, M., Best, J.L., Williams, R.A. and Peakall, J. (2006) Electrical Resistance Tomography for suspended sediment measurement in open channel flows using a novel sensor design, Part. Part. Sys. Charact. Vol 23 (3/4)
  25. Wang, M.; Dai Y.F.; Lucas G.; Panayotopoulos N. (2006) Visualisation of Bubbly Velocity in a swirling Flow Using Electrical Resistance Tomography, , Part. Part. Sys. Charact. Vol 23 (3/4)
  26. Wang, M and Ma Y (2006) Over-zero switching scheme for fast data collection operation in electrical impedance tomography, Meas. Sci. & Tech., IOP, 17(8), pp.2078-2082
  27. Wang, M (2005) Seeing a new dimension – the past decade’s developments on electrical impedance tomography, Progress in Natural Science, 15(13) 1-13
  28. Wang, M. (2005) Electrode models in electrical impedance tomography, J Zhejiang Univ. Sci. 6A(12) 1386-1369
  29. Li, H., Wang, M., Wu, Y., Ma, Y., Williams, R. (2005) Measurement of oil volume fraction and velocity distributions in vertical oil-in-water flows using Electrical Resistance Tomography and a local probe, J Zhejiang Univ. Sci., 6A(12) 1412-1415
  30. Wang, M. (2005) Impedance mapping of particulate multiphase flows, Flow Meas. & Instru. Elsevier, No 16, pp.183-189
  31. Wang, M., Ma, Y., Holliday, N.,, Saunders LS, Ward IM, Davies GW, Wang M, Tanner KE, Bonfield W, Anisotropic mechanical properties of oriented HAPEX (TM), J MATER SCI 37(2) 15 Jan 2002
  32. Wang M, Yin W and Holliday N (2002) A highly adaptive electrical impedance sensing system for flow measurement, Meas. Sci. & Tech., IOP, 13, pp.1884-1889
  33. Wang M (2002) Inverse solutions for electrical impedance tomography based on conjugate gradients methods, Meas. Sci. & Tech., IOP, 13, pp.101-117
  34. Wang, X, Wang M and Williams, R A (2002) Process operational condition monitoring, The Chemical Engineer (TCE), IChemE, pp.36-38
  35. Wang, M. and Yin, W. (2001) Measurements of the concentration and velocity distribution in miscible liquid mixing using electrical resistance tomography, Transactions of Chemical Engineering Research and Design, 79 (A8), IChemE (Institute of Chemical Engineering), pp.883-886
  36. Hoyle, B.S., Jia, X., Podd, F.J.W., Schlaberg, H.I., Tan, H.S., Wang, M., West, R.M., Williams, R.A. and York, T.A. (2001) Design and application of a multi-modal tomography system, Meas. Sci. & Tech., IOP (Institute of Physics), 12 (8), pp.1157-1165
  37. Wang, M (2001) Truth from tomography, Process Engineering, November, pp.15
  38. Williams, R.A. and Wang, M. (2000) Dynamic imaging of process plant reactors and separators using electrical process tomography, Oil & Gas Science and Technology – Rev. IFT, 55, pp.185-186
  39. Wang, M., Dorward, A. Vlaev, D. and Mann, R. (2000) Measurements of gas-liquid mixing in a stirred vessel using electrical resistance tomography (ERT), The Chemical Engineering Journal, Elsevier Science, 77, pp.93-98
  40. Vlaev, S.D., Wang, M., Dyakowski, T. Mann, R. Grieve, B.D. (2000) Detecting filter-cake pathologies in solid-liquid filtration: semi-tech scale demonstrations using electrical resistance tomography (ERT), The Chemical Engineering Journal, Elsevier Science, 77, pp.87-92
  41. Towere, C.M., McCann, H., Wang, M., Beatty, P.C., Pomfrett, C.J.D. and Beck, M.S. (2000) 3D simulation of EIT for monitoring impedance cariations within the human head, Physiology Measurement, IOP, 21, pp.119-124
  42. Williams R A, Jia, X, West R M, Wang M,  Cullivan J C, Bond J, Faulks I, Dyakowski T, Wang S J, Climpson N, Kostuch J A and Payton D (1999) Industrial monitoring of hydrocyclone operation using electrical resistance tomography, Minerals Engineering 12(10): 1245-1252
  43. Wang, M. and Cilliers, J.J. (1999) Detecting non-uniform foam density using electrical resistance tomography, Chemical Engineering Science, 54 (5), Elsevier Science, pp.707-712
  44. Wang, M., Mann, R., and Dickin, F. J., (1999) Electrical resistance tomographic sensing systems for industrial applications, Chemical Engineering Communications, OPA (Overseas Publishers Association), 175, pp.49-70
  45. Mann, R, Wang, M., Forrest, A.E., Holden, P.J., Dickin, F.J., Dyakowski, T. and Edwards, R.B. (1999) Gas-liquid and miscible liquid mixing in a plant-scale vessel monitored using electrical resistance tomography, Chemical Engineering Communications, OPA, 175, pp. 39-48
  46. Pinheiro, P.A.T., Loh, W.W., Wang, M., Mann, R., Forrest, A.E. and Dickin, F.J. (1999) Full 3-D electrical resistance tomography in a stirred mixing vessel, Chemical Engineering Communications, OPA, 175, pp.25-38
  47. Holden, P.J., Wang, M., Mann, R. Dickin, F.J. and Edwards, R.B. (1999) Ondetecting mixing pathologies inside a stirred vessel using electrical resistance tomography, Transactions of IChemE, IChemE, 77 (A), pp.709-712
  48. Williams, R.A., Jia, X., West, R.Wang, M., Cullivan, J.C., Bond, J. Faulks, J., Dyakowski, T. Wang, S.J., Climpson, N., Kostuch, J.A. and Payton, D. (1999) Industrial monitoring of hydrocyclone operation using electrical resistance tomography, Minerals Engineering, Elsevire Science, 12(10), pp.1245-1252
  49. Holden, P.J., Wang, M., Mann, R. Dickin, F.J. and Edwards, R.B. (1998) Imaging stirred-vessel macromixing using electrical resistance tomography, AIChE Journal, AIChE (American Institute of Chemical Engineers), pp. 780-790
  50. Mann, R. and Wang, M. (1997) Electrical process tomography: simple and inexpensive techniques for process imaging, Meas. & Control, Institute of Measurement and Control, 30 (7), pp.206-211
  51. Mann, R., Dickin, F.J., Wang, M., Dyakowski, T., Williams, R.A., Edwards, R.B., Forrest, A.E. and Holden, P.J. (1997) Application of electrical resistance tomography to interrogate mixing processes at plant scale, Symposium Volume of Chemical Engineering Science, 52 (13), pp.2087-2097
  52. Mann, R., Dickin, F.J., Wang, M., Dyakowski, T., Forrest, A.E., Holden, P.J. Williams, R.A., Edwards, R.B. (1997) Visualisation of stirred vessel mixing at plant scale using electrical resistance tomography, Rec. Prog en Genie des Procedes, 11 (51), pp.3-11
  53. Mann, R., Wang, M., Dickin, F.J., Dyakowski, T., and Holden, P.J. (1996) Resistance tomography imaging of stirred vessel mixing at plant scale’, IChemE Symposium Series, IChemE, 140, pp.155-167
  54. Dickin, F.J. and Wang, M. (1996) Electrical resistance tomography for process applications, Measurement Science and Technology. IOP, 7, pp.247-260
  55. Wang, M., Mann, R., Forrest, A.E., Holden, P.J., Dickin, F.J., Dyakowski, T. and Edwards, R.B. (1997) Stirred vessel mixing in 3-D using electrical resistance tomography, Electronic Measurement and Instrument Society, 11(A), CIE, pp.650-653, Beijing, 1997
  56. Qiu, C.H., James, A.E. Dickin, F.J. and Wang, M. (1997) Electrical resistance tomography for imaging sub-seabed sediment porosity', Electronic Measurement and Instrument Society, 11(A), CIE, pp.666-669, Beijing
  57. Wang, M., Dickin, F.J. and Williams, R.A. (1995) Modelling and analysis of electrically conducting vessels and pipelines in electrical resistance process tomography', IEE Proceedings – Science of. Measurement and Technology, IEE, 142 (4), pp.313-322, 1995
  58. Williams, R.A., Ilyas, O.M., Dyakowski, T., Gutierrez, J.A., Dickin, F.J., Wang, M., Beck, M.S., Shah, C.L. and Rushton, A. (1995) Air core imaging in cyclonic separators: Implications for separator design and modelling, The Chemical Engineering Journal, 56(2), pp.135-141
  59. Wang, M., Dickin, F.J. and Williams, R.A. (1995) Group-node technique as a means of handling large electrode surface', Physiology Measurement, IOP, 16 (3A), pp.219-226
  60. Record, P.M. and Wang, M. (1995) Conducting boundary strategy: a new technique for medical EIT, 1995, Physiology Measurement, IOP, 16 (3A), pp.249-255
  61. Wang, M., Dickin, F.J. and Williams, R.A. (1994) Electrical resistance tomography of metal walled vessels and pipelines, Electronics Letters, IEE, 30 (10), pp.771-773