Industrial Tomography Systems
Public | |
Founded | 2001 |
Headquarters | Manchester, UK |
Number of locations | 2 |
Area served | Global |
Key people |
Ken Primrose, CEO Richard Williams, Founder |
Products | Industrial process imaging tools |
Website | www.itoms.com |
Industrial Tomography Systems plc, occasionally abbreviated to ITOMS or simply ITS, is a manufacturer of process visualization systems based upon the principles of tomography. Headquartered in Manchester, UK, the company provides instrumentation to a variety of organisations across a range of sectors; including oil refining, chemical manufacturing, nuclear engineering, dairy manufacturing, and research/academia.
History
Industrial Tomography Systems began as an incubator company in 1997, responsible for commercializing technologies developed by University of Manchester Institute of Science and Technology.[1] Founders included a number of academics who had helped to develop tomography technology, such as Professors Brian Hoyle[2] and Mi Wang[3] (of University of Leeds) and Professor Richard Williams (then of Camborne School of Mines);[4] as well as Ken Primrose, who continues to function as CEO as of late-2011.[5] Currently, Industrial Tomography Systems has over a dozen staff based in the company’s headquarters (located just off one of Manchester’s major thoroughfares),[6] and has systems installed in a number of global companies, including Johnson Matthey,[7] and GlaxoSmithKline and Nestlé.[8] In addition, the company has collaborated with major engineering firms, such as Philadelphia Mixers, to host international tomography workshops that showcase its technologies.[9] In 2011, Industrial Tomography Systems was recognised as a "global leader in its field" after it was short-listed in the Institution of Engineering and Technology Innovation Awards.[10] In an interview with the Manchester Evening News, Primrose attributed the success of the company to being able to offer tailored solutions that are designed to meet the needs of individual applications, as well as having a coordinated network of international distributors and agents.[11]
Products
Industrial Tomography Systems’ scanning technology works on a similar principle to CAT scanners that are used in hospitals to see inside the human body:[12] by passing an electric current very rapidly between pairs of electrodes that are in contact with the process media, real-time images of the industrial process can be extrapolated from measuring the resulting difference in voltages.[13] Since 2001, the company has developed a range of instruments based upon different types of tomography, which are outlined below.
EIT and ERT Systems
Industrial Tomography Systems’ instrumentation that utilizes the principles of electrical impedance tomography & electrical resistance tomography (the two terms are often used interchangeably) include: p2000, z8000, p2+, and v5r. These systems have been used to visualize processes involving mixing,[14] crystallization,[15] bubble columns,[16] packed beds,[17] flows,[18] and separations.[19]
ECT Systems
Electrical capacitance tomography instruments released by the company include: m3000c, m3000dual (combines ERT measurements with ECT), and m3c. These instruments are used when the phases in a process are non-conducting, with readings instead based upon electrical permittivity rather than electrical conductivity. As such, ECT instruments can be used in similar processes to those where ERT is deployed, including flows,[20] fluidized beds,[21] and pneumatic conveying.[22]
Ultrasound Systems
Until mid-2013, Industrial Tomography Systems supported one instrument based upon ultrasound spectroscopy technology: the u2s.[23]
Industrial Applications
Findings published in AAPS’s PharmSciTech in 2005 indicate that Industrial Tomography Systems’ technology is able to monitor (1) the on-line measurement of solids distributed in a stirred tank, (2) crystallization, (3) the performance of industrial pressure filters, and (4) flow profiles and velocity measurements.[24] Additionally Primrose claims that, due to the non-invasive nature of tomography technology, it can be used to create images of industrial processes in hard-to-reach places, such as in pipelines that contain radioactive/toxic materials.[25]
See also
References
- ↑ Kate Bassett, "Ken Primrose", Real Business, 1 July 2011
- ↑ Institute of Particle Science & Engineering, "Brian Hoyle", University of Leeds
- ↑ School of Process, Environmental and Materials Engineering, "Professor Mi Wang", University of Leeds
- ↑ Institute of Particle Science & Engineering, "Professor Richard A Williams", University of Leeds
- ↑ Manchester Evening News, "Secret of my success - 'Have inspired ideas... and employ the best'", Manchester Evening News, 16 September 2011
- ↑ Manchester Evening News, "Industrial Tomography Systems short-listed for Institution of Engineering and Technology Innovation Awards", Manchester Evening News, 2 November 2011
- ↑ Johnson Matthey, "2012 Annual Report & Accounts, p.32", Johnson Matthey, 31 Mar 2013
- ↑ Ken Primrose, "Friday Guest Blog", Greater Manchester Chamber Blog, 27 May 2011
- ↑ Karen Lee Grube, "Philadelphia Mixing Solutions, Ltd. Hosts US Tomography Workshop", Philadelphia Mixing Solutions, Ltd.
- ↑ Manchester Evening News, "Industrial Tomography Systems short-listed for Institution of Engineering and Technology Innovation Awards", Manchester Evening News, 2 November 2011
- ↑ Manchester Evening News, "Secret of my success - 'Have inspired ideas... and employ the best'", Manchester Evening News, 16 September 2011
- ↑ Manchester Evening News, "Industrial Tomography Systems short-listed for Institution of Engineering and Technology Innovation Awards", Manchester Evening News, 2 November 2011
- ↑ Ken Primrose, "Medical Imaging Monitors Pharmaceutical Process Health", Pharma Manufacturing, 31 March 2005
- ↑ T.L. Rodgers and A. Kowalski, "An electrical resistance tomography method for determining mixing in batch addition with a level change", Chemical Engineering Research and Design, February 2010
- ↑ S.J. Stanley, R. Mann, and K. Primrose, "Interrogation of a precipitation reaction by electrical resistance tomography (ERT)", AlChE Journal, January 2005
- ↑ M. Wang, X. Jia, M. Bennet, R.A. Williams, "Electrical tomographic imaging for bubble column measurement and control", Process Imaging for Automatic Control, February 2001
- ↑ G.T. Bolton, R. Mann, and E.H. Stitt, "Flow distribution and velocity measurement in a radial flow fixed bed reactor using electrical resistance tomography", Chemical Engineering Science, May 2004
- ↑ M. Wang, T.F. Jones, R.A. Williams, "Visualization of Asymmetric Solids Distribution in Horizontal Swirling Flows Using Electrical Resistance Tomography", Chemical Engineering Research and Design, September 2003
- ↑ M.A. Bennett and R.A. Williams, "Monitoring the operation of an oil/water separator using impedance tomography, Minerals Engineering", Minerals Engineering, January 2004
- ↑ J.C. Gamio, J. Castro, L. Rivera, J. Alamilla, F. Garcia-Nocetti, and L. Aguilar, "Visualisation of gas–oil two-phase flows in pressurised pipes using electrical capacitance tomography", Flow Measurement and Instrumentation, April 2005
- ↑ S.J. Wang, D. Geldart, M.S. Beck, and T. Dyakowski, "A behaviour of a catalyst powder flowing down in a dipleg", Chemical Engineering Journal, April 2000
- ↑ A.J. Jaworski and T. Dyakowski, "Application of electrical capacitance tomography for measurement of gas-solids flow characteristics in a pneumatic conveying system", Measurement Science and Technology, August 2001
- ↑ Xue Z. Wang, Lande Liu, Rui F. Li, Richard J. Tweedie, Ken Primrose, Jason Corbett, Fraser K. McNeil-Watson, "Online characterization of nanoparticle suspensions using dynamic light scattering, ultrasound spectroscopy and process tomography", Chemical Engineering Research & Design, 14 December 2008
- ↑ Gary T. Bolton and Ken Primrose, "An overview of electrical tomography measurements in pharmaceutical and related application areas", AAPS PharmaSciTech, June 2006
- ↑ Kate Bassett, "Ken Primrose", Real Business, 1 July 2011