Richard Williams (academic)

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ISBN 0-7506-0743-2.
  • Particle Aggregation and Deposition Processes: Measurement, Modelling and Simulation R.A. Williams, J. Gregory, M. Elimelech and X Jia, Butterworth-Heinemann (Oxford) 1995, pp. 441, ISBN   0-7506-0743-2.
  • Colloid and Surface Engineering: Applications in the Process Industries R.A. Williams (Ed.), Butterworth-Heinemann, Oxford, 1992, pp. 345, ISBN   0-7506-0377-1 (2nd edn. published in paperback February 1994, ISBN   0-7506-1940-6).
  • Electrical Impedance Tomography, M. Wang, F. Dickin and R.A. Williams, WO 95/24155.
  • Object Interaction Simulation, X. Jia and R.A. Williams, WO02/029206 A3.
  • Microcapsules and Methods, S.R. Biggs, R.A. Williams, O. Cayre and Q. Yuan, WO2009/037482 A2.
  • Electrochemical behaviour of ferrosilicides (FexSi) in neutral and alkaline aqueous electrolytes, I: Thermodynamics of the Fe-Si-H2O system at 298K, G.H. Kelsall and R.A. Williams, Journal of the Electrochemical Society, 138, 4 (1991), pp. 931–940, ISSN   0013-4651.
  • The origin of the fish-hook effect in hydrocyclone separators, E.J. Roldan-Villasana, R.A. Williams and T. Dyakowski, Powder Technology, 77 (1993), pp. 243–250, ISSN   0032-5910.
  • Direct measurement of floc breakage in flowing suspensions, R.A. Williams and S.J. Peng, Journal of Colloid and Interface Science, 166 (1994), pp. 321–332, ISSN   0021-9797.
  • Electrical resistance tomography of metal walled vessels and pipelines, M. Wang, F.J. Dickin and R.A. Williams, Electronics Letters, 10, 10 (1994), pp. 771–773, ISSN   0013-5194.
  • Prediction of air-core size and shape in a hydrocyclone T. Dyakowski and R.A. Williams, International Journal of Mineral Processing, 43 (1995), pp. 1–14, ISSN   0301-7516.
  • Controlled production of emulsions using a crossflow membrane, S.J. Peng and R.A. Williams, Particle and Particle Systems Characterization, 15, (1998), pp. 21–25, ISSN   0934-0866.
  • Industrial monitoring of hydrocyclone operation using electrical resistance tomography, R.A. Williams, X. Jia, R.M. West, M. Wang, J.C. Cullivan, J. Bond, I. Faulks, T. Dyakowski, S.J. Wang, N. Climpson, J.A. Kostuch and D. Payton, Minerals Engineering, 12, 10 (1999), pp. 1245–1252, ISSN   0892-6875.
  • A new method for prediction of bulk particle packing behaviour for arbitrary shaped particles in containers of any shape, R.A. Williams and X. Jia, Particulate Science and Technology, 21, 2, (2003), pp. 195–205, ISSN   0272-6351.
  • Recent developments in manufacturing emulsions and particulate products using membranes, G.T.Vladisavljevic and R.A. Williams, Advances in Colloid and Interface Science, 113/1, (2005), pp. 1–20, ISSN   0001-8686.
  • Heat transfer of aqueous suspensions of carbon nanotubes (CNT nanofluids), Y. Ding, H. Alias, D. Wen and R.A. Williams, International Journal of Heat and Mass Transfer, 49, 1–2, (2005), pp. 240–250, ISSN   0017-9310.
  • Manufacture of large uniform droplets using rotating membrane emulsification, G.T.Vladisavljevic and R.A.Williams, Journal of Colloid and Interface Science, 299, 1, (2006), pp. 396–402, ISSN   0927-7757.
  • Property predictions for packed columns using Monte Carlo and discrete element digital packing algorithms, C. Xu, X. Jia, R.A. Williams, E.H. Stitt, M. nijemeisland, S. El-Bachir, A.J. Sederman and L.F. Gladden, Computer Modelling in Engineering & Sciences, 23, (2), 117–125 (2008), ISSN   1526-1492 (print), ISSN   1526-1506 (on-line).
  • European Commission Horizon 2020 Framework Programme (call no. H2020-SEMINT-1-2015). Contract 683913 "Feasibility study to determine the use of ITS technology to replace density meters in mining, dredging and other areas of hydraulic transport (2015) [36]

    • Related Research Articles

    <span class="mw-page-title-main">Colloid</span> Mixture of an insoluble substance microscopically dispersed throughout another substance

    A colloid is a mixture in which one substance consisting of microscopically dispersed insoluble particles is suspended throughout another substance. Some definitions specify that the particles must be dispersed in a liquid, while others extend the definition to include substances like aerosols and gels. The term colloidal suspension refers unambiguously to the overall mixture. A colloid has a dispersed phase and a continuous phase. The dispersed phase particles have a diameter of approximately 1 nanometre to 1 micrometre.

    <span class="mw-page-title-main">Chemical engineering</span> Branch of engineering

    Chemical engineering is an engineering field which deals with the study of operation and design of chemical plants as well as methods of improving production. Chemical engineers develop economical commercial processes to convert raw materials into useful products. Chemical engineering uses principles of chemistry, physics, mathematics, biology, and economics to efficiently use, produce, design, transport and transform energy and materials. The work of chemical engineers can range from the utilization of nanotechnology and nanomaterials in the laboratory to large-scale industrial processes that convert chemicals, raw materials, living cells, microorganisms, and energy into useful forms and products. Chemical engineers are involved in many aspects of plant design and operation, including safety and hazard assessments, process design and analysis, modeling, control engineering, chemical reaction engineering, nuclear engineering, biological engineering, construction specification, and operating instructions.

    <span class="mw-page-title-main">Emulsion</span> Mixture of two or more immiscible liquids

    An emulsion is a mixture of two or more liquids that are normally immiscible owing to liquid-liquid phase separation. Emulsions are part of a more general class of two-phase systems of matter called colloids. Although the terms colloid and emulsion are sometimes used interchangeably, emulsion should be used when both phases, dispersed and continuous, are liquids. In an emulsion, one liquid is dispersed in the other. Examples of emulsions include vinaigrettes, homogenized milk, liquid biomolecular condensates, and some cutting fluids for metal working.

    <span class="mw-page-title-main">Water treatment</span> Process that improves the quality of water

    Water treatment is any process that improves the quality of water to make it appropriate for a specific end-use. The end use may be drinking, industrial water supply, irrigation, river flow maintenance, water recreation or many other uses, including being safely returned to the environment. Water treatment removes contaminants and undesirable components, or reduces their concentration so that the water becomes fit for its desired end-use. This treatment is crucial to human health and allows humans to benefit from both drinking and irrigation use.

    Microfiltration is a type of physical filtration process where a contaminated fluid is passed through a special pore-sized membrane filter to separate microorganisms and suspended particles from process liquid. It is commonly used in conjunction with various other separation processes such as ultrafiltration and reverse osmosis to provide a product stream which is free of undesired contaminants.

    <span class="mw-page-title-main">Flocculation</span> Process by which colloidal particles come out of suspension to precipitate as floc or flake

    In colloidal chemistry, flocculation is a process by which colloidal particles come out of suspension to sediment in the form of floc or flake, either spontaneously or due to the addition of a clarifying agent. The action differs from precipitation in that, prior to flocculation, colloids are merely suspended, under the form of a stable dispersion and are not truly dissolved in solution.

    <span class="mw-page-title-main">Industrial wastewater treatment</span> Processes used for treating wastewater that is produced by industries as an undesirable by-product

    Industrial wastewater treatment describes the processes used for treating wastewater that is produced by industries as an undesirable by-product. After treatment, the treated industrial wastewater may be reused or released to a sanitary sewer or to a surface water in the environment. Some industrial facilities generate wastewater that can be treated in sewage treatment plants. Most industrial processes, such as petroleum refineries, chemical and petrochemical plants have their own specialized facilities to treat their wastewaters so that the pollutant concentrations in the treated wastewater comply with the regulations regarding disposal of wastewaters into sewers or into rivers, lakes or oceans. This applies to industries that generate wastewater with high concentrations of organic matter, toxic pollutants or nutrients such as ammonia. Some industries install a pre-treatment system to remove some pollutants, and then discharge the partially treated wastewater to the municipal sewer system.

    <span class="mw-page-title-main">Robert Gilbert (chemist)</span>

    Robert Goulston Gilbert is a polymer chemist whose most significant contributions have been in the field of emulsion polymerisation. In 1970, he gained his PhD from the Australian National University, and worked at the University of Sydney from then until 2006. In 1982, he was elected a fellow of the Royal Australian Chemical Institute; in 1994, he was elected a fellow of the Australian Academy of Science. In 1992, he was appointed full professor, and in 1999 he started the Key Centre for Polymer Colloids, funded by the Australian Research Council, the University and industry. He has served in leadership roles in the International Union of Pure and Applied Chemistry (IUPAC), the world ‘governing body’ of chemistry. He was founding chair (1987–98) of the IUPAC Working Party on the Modelling of Kinetics Processes of Polymerisation, of which he remains a member, and is a member of the IUPAC scientific task groups on starch molecular weight measurements, and terminology. He was vice-president (1996–97) and president (1998–2001) of the IUPAC Macromolecular Division, and secretary of the International Polymer Colloids Group (1997–2001). As of 2007, he is Research Professor at the Centre of Nutrition and Food Science, University of Queensland, where his research program concentrates on the relations between starch structure and nutrition.

    A dispersion is a system in which distributed particles of one material are dispersed in a continuous phase of another material. The two phases may be in the same or different states of matter.

    <span class="mw-page-title-main">Miniemulsion</span> Particular type of emulsion

    A miniemulsion is a particular type of emulsion. A miniemulsion is obtained by shearing a mixture comprising two immiscible liquid phases, one or more surfactants and, possibly, one or more co-surfactants. They usually have nanodroplets with uniform size distribution (20–500 nm) and are also known as sub-micron, mini-, and ultra-fine grain emulsions.

    <span class="mw-page-title-main">Menachem Elimelech</span> American engineer

    Menachem Elimelech is the Sterling Professor of Chemical and Environmental Engineering at Yale University. Elimelech is the only professor from an engineering department at Yale to be awarded the Sterling professorship since its establishment in 1920. Elimelech moved from the University of California, Los Angeles (UCLA) to Yale University in 1998 and founded Yale's Environmental Engineering program.

    Micromeritics is the science and technology of small particles pioneered by Joseph M. DallaValle. It is thus the study of the fundamental and derived properties of individual as well as a collection of particles. The knowledge and control of the size of particles has importance in pharmacy and materials science. The size, and hence the surface area of a particle, can be related to the physical, chemical and pharmacological properties of drugs. Clinically, the particle size of a drug can affect its release from dosage forms that are administered orally, parenterally, rectally and topically. The successful formulation of suspensions, emulsions and tablets; both physical stability and pharmacological response also depends on the particle size achieved in the product.

    Reverse osmosis (RO) is a water purification process that uses a semi-permeable membrane to separate water molecules from other substances. RO applies pressure to overcome osmotic pressure that favors even distributions. RO can remove dissolved or suspended chemical species as well as biological substances, and is used in industrial processes and the production of potable water. RO retains the solute on the pressurized side of the membrane and the purified solvent passes to the other side. It relies on the relative sizes of the various molecules to decide what passes through. "Selective" membranes reject large molecules, while accepting smaller molecules.

    John Texter is an American engineer, chemist, and educator. He is professor emeritus of polymer and coating technology at Eastern Michigan University (EMU) in Ypsilanti, Michigan, and managing consultant of Strider Research Corporation (SRC). He is best known for his work in applied dispersion technology, small particle science, and stimuli-responsive polymers based on ionic liquids, for his international conference organization activities, including Particles 2001, Particles 2002, etc., and the Gordon Research Conferences, Chemistry at Interfaces and Chemistry of Supramolecules and Assemblies, and for his editing of the Primers page for nanoparticles.org.

    A nanofluid is a fluid containing nanometer-sized particles, called nanoparticles. These fluids are engineered colloidal suspensions of nanoparticles in a base fluid. The nanoparticles used in nanofluids are typically made of metals, oxides, carbides, or carbon nanotubes. Common base fluids include water, ethylene glycol and oil.

    <span class="mw-page-title-main">Membrane emulsification</span>

    Membrane emulsification (ME) is a relatively novel technique for producing all types of single and multiple emulsions for DDS, solid micro carriers for encapsulation of drug or nutrient, solder particles for surface-mount technology, mono dispersed polymer microspheres. Membrane emulsification was introduced by Nakashima and Shimizu in the late 1980s in Japan.

    Dispersion Technology Inc is a scientific instrument manufacturer located in Bedford Hills, New York. It was founded in 1996 by Philip Goetz and Dr. Andrei Dukhin. The company develops and sells analytical instruments intended for characterizing concentrated dispersions and emulsions, complying with the International Standards for acoustic particle sizing ISO 20998 and electroacoustic zeta potential measurement ISO 13099.

    <span class="mw-page-title-main">Industrial Tomography Systems</span>

    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.

    <span class="mw-page-title-main">Nidal Hilal</span>

    Nidal Hilal DSc PhD EurIng CEng FIChemE FLSW FRSC is an academic, engineering scientist and scientific adviser. He is a Global Network Professor at New York University and the Founding Director and Principal Investigator of NYUAD Water Research Center. He held professorships at the University of Nottingham and Swansea University in the United Kingdom. He is an Emeritus Professor of Engineering at Swansea University and the Founding Director of the Centre for Water Advanced Technologies and Environmental Research (CWATER).

    Stefan A. F. Bon is a Professor of Chemical Engineering in the department of Chemistry at the University of Warwick, United Kingdom. His research considers polymer-based colloids. He is a Fellow of the International Union of Pure and Applied Chemistry, an elected member of the International Polymer Colloids Group (IPCG), and member of the physical Newton international fellowship committee, and served as the Royal Society of Chemistry Outreach Lecturer in 2015-2016.

    References

    1. "Reports and Financial Statements For the year ended 31 July 2022" (PDF). Heriot-Watt University.
    2. "List of Fellows".
    3. 1 2 "Richard A Williams biography" (PDF).
    4. 1 2 "Royal Academy of Engineering Trustee Board list".
    5. "Professor Richard Williams OBE appointed as Pro-Vice-Chancellor, Head of College of Engineering and Physical Sciences". University of Birmingham. 9 June 2011. Retrieved 7 May 2020.
    6. "Richard Williams staff profile at University of Birmingham".
    7. 1 2 3 4 "Richard Williams LinkedIn".
    8. "University of Birmingham information about the High Temperature Research Centre".
    9. "University of Birmingham information on Midlands Energy Accelerator".
    10. "University of Birmingham information on Birmingham Centre for Cryogenic Storage".
    11. "Heriot-Watt announcement about Richard Williams starting".
    12. Process Tomography – Principles, Techniques and Applications, R.A. Williams and M.S. Beck (Eds.), Butterworth-Heinemann (Oxford), 1995, pp. 550, ISBN   0-7506-0743-2.
    13. Mineral and material processing, R. A. Williams, in "Process Imaging for Automatic Control", D. M. Scott, H. McCann (Eds.), Taylor and Francis 2005, pp. 359–400, ISBN   0-8247-5920-6.
    14. "Multi-sensor process tomography system design".
    15. www.aimquoted.com/companyinfo/Disperse%20Group%20plc.pdf
    16. Controlled production of emulsions using a crossflow membrane, R.A. Williams, S.J. Peng, D.A. Wheeler, N.C. Morley, D. Taylor, M. Whalley and D.W. Houldsworth, Chem. Eng. Des. A 76 (1998), p. 902.
    17. Manufacturing with membranes, D. Gladman and R.A. Williams, TCE 748 (2003) p. 32.
    18. A packing algorithm for particles of arbitrary shapes, X. Jia and R.A. Williams, Powder Technology, 120, 3,(2001), pp. 175–186, ISSN   0032-5910.
    19. "Stimulus Responsive Microcapsules", Application number 0718300.7, 20 September 2007, UOL 07006/WO, PCT/GB2008/003197 (filed 22 September 2008), published 26 March 2009, WO2009/037482.
    20. From microstructures of tablets and granules to their dissolution behaviour, X. Jia & R.A. Williams, Dissolution Technologies, 13, 2, (2006) pp. 11–19, ISSN   1521-298X.
    21. Structure Vision Limited.
    22. Nanofluids turn up the heat, D. Wen, Y. Ding, R. A. Williams, The Chemical Engineer, 771, (2005), pp. 32–34, ISSN   0302-0797.
    23. "Heat transfer of aqueous suspensions of carbon nanotubes (CNT nanofluids)", Y. Ding, H. Alias, D. Wen and R.A. Williams, International Journal of Heat and Mass Transfer, 49, 1–2, (2005), pp. 240–250, ISSN   0017-9310.
    24. www.dispersia.co.uk
    25. "Company Check on Dispersia Ltd".
    26. IMPACT magazine.
    27. 1 2 "News story from University of Birmingham".
    28. 1 2 3 4 "List of Fellows".
    29. "UK-China energy storage technologies report".
    30. "Lloyds Resgiter Foundation trustees".
    31. "Contact form to Richard A. Williams, Regional Editor, Particuology".
    32. "RSE Welcomes 60 New Fellows" (Press release). Royal Society of Edinburgh. 15 February 2017. Retrieved 28 March 2017.
    33. 1 2 "RISE awards announcement".
    34. "Beilby Medal and Prize Winners". Royal Society of Chemistry . Retrieved 3 March 2015.
    35. "The Athenæum Club website".
    36. "European Research Council Horizon 2020".
    Richard Williams
    OBE FREng FRSE FIChemE FIMMM CEng
    Principal and Vice-Chancellor of
    Heriot-Watt University
    Assumed role
    13 March 2015
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