Nagy, Zoltan K. - Loughborough University - Department of Chemical Engineering

个人简介

Zoltan K Nagy received his BSc in Chemical Engineering (1993) an MSc in Catalysis and Biocatalysis (1994) and a PhD in Chemical Engineering (2001) from the "Babes-Bolyai" University of Cluj, Romania. From 1995 to 2005 he held Assistant and Associate Professor positions at the same university. In 1996 he was Visiting Research Scientist and Visiting Lecturer at the University of the South, Sewanee, TN, SUA. In 1997 he was honorary research assistant (Tempus Fellow) in the CTI (Computers in Teaching Initiative) Centre for Chemistry, University of Liverpool, UK. From 1998 to 2001 he held several Visiting Researcher positions at ETH Zurich, Switzerland (1999), the University of Stuttgart and University of Heidelberg, Germany (2000), and University of Illinois at Urbana-Champaign, USA (2000). From 2001 to 2002 he was NSF-NATO Research Fellow, and from 2002 to 2003 visiting lecturer at the University of Illinois at Urbana-Champaign. From 2003 to 2005, Dr Nagy worked as a senior research associate at the University of Stuttgart, Germany, where he worked in collaboration with BASF and ABB on industrial projects. Dr Nagy joined Loughborough University in August 2005 was promoted to Senior Lecturer in February 2007 and to Professor in July 2010.

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Z.K. Nagy, G. Fevotte, H. Kramer, L.L. Simon, Recent advances in the monitoring, modelling and control of crystallization systems, Chem. Eng. Res. Des., 91 (10), 1903-1922, 2013. K-K K. Kim, D. E. Shen, Z.K. Nagy, R.D. Braatz, Wiener’s Polynomial chaos for the analysis and control of nonlinear dynamical systems with probabilistic uncertainties, IEEE Control Systems Magazine, 33(5), 58-67, 2013. A. Majumder, Z. K. Nagy, Prediction and control of crystal shape distribution in the presence of crystal growth modifiers, Chemical Engineering Science, 101, 593-602, 2013. A. Majumder, Z. K. Nagy, Fines removal in a continuous plug flow crystallizer by optimal spatial temperature profiles with controlled dissolution, AIChE J., 59 (12), 4582-4594, 2013. N. Sanzida. Z.K. Nagy, Iterative learning control for the systematic design of supersaturation controlled batch cooling crystallisation processes, Comp. & Chem. Eng., 59, 111-121, 2013. Z. K. Nagy, E. Aamir, Systematic design of supersaturation controlled crystallization processes for shaping the crystal size distribution using an analytical estimator, Chemical Engineering Science, 84, 656–670, 2012. Z. K. Nagy, R. D. Braatz, Advances and new directions in crystallization control, Annu. Rev. Chem. Biomol. Eng., 3, 55-75, 2012. A. N. Saleemi, G. Steele, N. Pedge, A. Freeman, Z. K. Nagy, Enhancing crystalline properties of a cardiovascular active pharmaceutical ingredient using a Process Analytical Technology based crystallization feedback control strategy, International Journal of Pharmaceutics, 430, 56-64, 2012. A. N. Saleemi, C. D. Rielly, Z. K. Nagy, Monitoring of the combined cooling and antisolvent crystallization of mixtures of aminobenzoic acid isomers using ATR-UV/Vis spectroscopy and FBRM, Chemical Engineering Science, 77, 122-129, 2012. Z. K. Nagy, E. Aamir, C. D. Rielly, Internal fines removal using a population balance model based control of crystal size distribution under dissolution, growth and nucleation mechanisms, Crystal Growth and Design, 11, 2205-2219, 2011. A. Mesbah, A. E. M. Huesman, H. J. M. Kramer, Z. K. Nagy, P. M. J. Van den Hof, Real-time control of seeded batch crystallization processes, AICHE J., 57(6), 1557-1569, 2011. Z. K. Nagy and R. D. Braatz, Batch process control, in W. S. Levine (ed.) The Control Handbook, 2nd edition, CRC Press, Boca Raton, Florida, 2010. E. Aamir, Z. K. Nagy, C. D. Rielly, Optimal seed recipe design for crystal size distribution control for batch cooling crystallization processes, Chemical Engineering Science, 65, 3602-3614, 2010. M. R. Abu Bakar, Z. K. Nagy, C. D. Rielly, Investigation of the effect of temperature cycling on surface features of sulfathiazole crystals during seeded batch cooling crystallization, Crystal Growth and Design, 10(9), 3892-3900, 2010. E. Aamir, Z. K. Nagy, C. D. Rielly, T. Kleinert, B. Judat, Combined quadrature method of moments and method of characteristics approach for efficient solution of population balance models for dynamic modelling and crystal size distribution control of crystallization processes, Ind. Eng. Chem. Res., 48 (18), 8575-8584, 2009. L. L. Simon, Z. K. Nagy, K. Hungerbuehler, Comparison of external bulk video imaging with focused beam reflectance measurement and ultra violet-visible spectroscopy for metastable zone identification in food and pharmaceutical crystallization processes, Chemical Engineering Science, 64, 3344-3351, 2009. Z. K. Nagy, Model based robust control approach for batch crystallization product design, Computers and Chemical Engineering, 33, 1685-1691, 2009. K. S. Howard, Z. K. Nagy, B. Saha, A. L. Robertson, G. Steele, D. Martin, A process analytical technology based investigation of the polymorphic transformations during the anti-solvent crystallization of sodium benzoate from IPA/water mixture, Crystal Growth and Design, 9, 3964-3975, 2009. M. R. Abu Bakar, Z. K. Nagy, A. N. Saleemi, C. D. Rielly, The impact of direct nucleation control on crystal size distribution in pharmaceutical crystallization processes, Crystal Growth and Design, 9 (3), 1378-1384, 2009. Z. K. Nagy, M. Fujiwara, R. D. Braatz, Modelling and control of combined cooling and anti-solvent crystallization processes, Journal of Process Control, 18, 856-864, 2008. Z. K. Nagy, J.W. Chew, M. Fujiwara, R. D. Braatz, Comparative performance of concentration and temperature controlled crystallizations, Journal of Process Control, 18 (3-4), 399-407, 2008. S. Agachi, Z. K. Nagy, M. Cristea, A. Imre, Model Based Control. Case Studies in Process Engineering, John Wiley and Sons, Weinheim, 280 pages, 2006, ISBN: 3-527-31545-4.