Meyer, MER Thierry - École polytechnique fédérale de Lausanne EPFL - Institute of Chemical Sciences and Engineering

个人简介

Thierry Meyer received a diploma degree (MSc) in chemical engineering from the Swiss Federal Institute of Technology in Lausanne (EPFL) in 1986. He was awarded in 1989 a PhD at EPFL for his thesis on micromixing in highly viscous polymeric media. From 1989 until 1993, he worked in the Chemical Engineering Institute as senior scientist in the field of polymerization reactions. In 1994, he joined Ciba-Geigy SA in the pigment division as successively development chemist, head of development a.i. and finally production manager for high performance pigments. At the end of 1998, he returned to the Chemical Engineering Institute of the EPFL in Lausanne and was appointed "maître d'enseignement et de recherche" (MER) to lead a new research group in the field of polymers and supercritical fluids, and to teach in the fields of process development, introduction to chemical engineering, polymer and organic chemistry at bachelor and master levels to chemists, chemical engineers and material science students. In 2005, he took on the responsibility of the occupational health and safety service of the school of basic sciences on top of his research activities dealing with risk management and supercritical fluids. He is presently teaching introduction to chemical engineering at bachelor level, risk management at master level and specific courses on safety aspects in research activities. He is also active as adviser and expert in risk assessment and chemical engineering matters for the ICC (International Chamber of Commerce) of the World Business Organization, as well as for several assessment companies and for major and SME's chemical industries. Thierry Meyer is currently member of several international associations of the European Federation of Chemical Engineering and American Chemical Society. He was chairman of the European Working Party on Polymer Reaction Engineering from 2001 till 2006. He is member of several editorial boards: Chemical Engineering Research and Design, Macromolecular Reaction Engineering, Chemical Engineering and Technology.

近期论文

查看导师新发文章（温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

FH HES Optimization of Chemical Reactor Feed by Simulations Based on a Kinetic Approach. C. Guinand, M. Dabros, B. Roduit, T. Meyer and F. Stoessel. in Chimia, vol. 68, num. 10, p. 746-747, 2014. Autorisation d’utilisation de substances chimiques très toxiques et/ou dangereuses à la faculté des sciences de base de EPFL. S. Brückner, J.-L. Marendaz and T. Meyer. Concerns related to Safety Management of Engineered Nanomaterials in research environment. A. Groso and T. Meyer. 3rd International Conference on Safe Production and Use of Nanomaterials (Nanosafe).Journal of Physics Conference Series. Expert Judgements in Risk Analysis: a Strategy to Overcome Uncertainities. D. N. Plüss, A. Groso and T. Meyer. in Chemical Engineering Transactions, vol. 31, p. 307-3012, 2013. Quantitative Structure-Property Relationships for Thermal Stability and Explosive Properties of Chemicals. N. Baati, A. Nanchen, F. Stoessel and T. Meyer. in Chemical Engineering Transactions, vol. 31, p. 841-846, 2013. Engineering risk management. T. Meyer and G. Reniers. De Gruyter Graduate, Germany. , 978-3-11-028515-4 A systematic tool for Assessment and Classification of Hazards in Laboratories (ACHiL). J.-L. Marendaz, J.-C. Suard and T. Meyer. in Safety Science, vol. 53, num. null, p. 168-176, 2013. Safety Management of Nanomaterials. A. Magrez, A. Groso and T. Meyer. in Procedia Engineering, vol. 42, p. 1587-1596, 2012. ¨How About Safety and Risk Management in Research and Education?". T. Meyer. in Procedia Engineering, vol. 42, p. 854-864, 2012. Risk analysis in research environment. A. Groso, A. Ouedraogo and T. Meyer. in Journal Of Risk Research, vol. 15, p. 187-208, 2012. Safety Management and Risk Assessment in Chemical Laboratories. J.-L. Marendaz, K. Friedrich and T. Meyer. in Chimia, vol. 65, p. 734-737, 2011. Risk analysis in research environment - Part I: Modeling Lab Criticity Index using Improved Risk Priority Number. A. Ouédraogo, A. Groso and T. Meyer. in Safety Science, vol. 49, num. 6, p. 778-784, 2011. Risk analysis in research environment - Part II: Weighting Lab Criticity Index using the Analytic Hierarchy Process. A. Ouédraogo, A. Groso and T. Meyer. in Safety Science, vol. 49, num. 6, p. 785-793, 2011. Hybrid approach for risk identification in research milieu. A. Ouedraogo, A. Groso and T. Meyer. 13th international symposium on loss prevention and safety promotion in the process industries, Bruges, Belgium, June 6-9, 2010. Risk management practices for safe handling of nanomaterials in research laboratories. T. Meyer. 2nd NanoImpactNet Conference, Lausanne, Switzerland, March 9-12, 2010. Management of nanomaterials safety in research environment. A. Groso, A. Petri-Fink, A. Magrez, M. Riediker and T. Meyer. in Particle And Fibre Toxicology, vol. 7 (40), p. -, 2010. Risk analysis in academia. A. Ouedraogo, A. Groso and T. Meyer. 17th congress of Society for Risk Analysis, Valencia, Spain, September 22-25, 2008. What could calorimetric techniques bring to safety analysis? T. Meyer. 5th Int. Symposium on high pressure processes technology and chemical engineering, Safety forum, Qingdao, China, March 4-8, 2008. Supercritical Fluids. C. Mantelis and T. Meyer. in Encyclopedia of Polymer Science and Technology, 2008.