Part I: Dynamic Process Models.- Part II: Models for the description of solids properties.- Part III: Algorithms and Process simulation.
Stefan Heinrich studied Process Engineering at the University of Magdeburg, and received his Diploma and Ph.D. in the field of fluidized bed spray granulation from the same university in 1996 and 2000 respectively. From 2000 to 2002, he was an Assistant Professor, and from 2002 to 2008 a Junior Professor at the University of Magdeburg, where he also received his habilitation (postdoctoral degree) and “venia legend” in Particle Technology in 2006. In 2008, he became a Professor and Director of the Institute of Solids Process Engineering and Particle Technology at the Hamburg University of Technology, Germany. From 2011–2012, he was also the Dean of the Department of Process and Chemical Engineering at the Hamburg University of Technology. In 2015, Stefan became an Honorary Doctor of the DonNTU (National University of the Ukraine).
He is an executive board member of the German Working Party on Drying and chairman of the executive board of the German Working Party on Agglomeration and Bulk Solid Materials of VDI-ProcessNet. He is also chairman of the Working Party on Agglomeration and a member of the Working Party on Mechanics of Particulate Solids of the EFCE. He is the coordinator of the German Research Foundation (DFG) Priority programme 1679 “Dynamic simulation of interconnected solids processes” and a member of the DFG Collaborative Research Centre 986 “Tailor-made multiscale materials systems,” member of the “Center of Advanced Materials (ZHM),” Hamburg, member of the Scientific Advisory Board of the Helmholtz Institute Freiberg for Resources Technology, Germany, and a member of the Scientific Advisory Board of the Research Center Pharmaceutical Engineering (RCPE) of the TU Graz, Austria. He works also as executive editor of the journal “Advanced Powder Technology” and as thematic editor of the journal “Particuology”. Stefan was the chairman of Partec 2019, an international congress on Particle Technology, in 2019.
His main research interests are fluidized bed technology, particle formulation with granulation, coating and agglomeration, drying of solids, development of particular composite materials, particle-based simulation methods (discrete element modelling, population balance modelling) and coupling with continuum approaches (CFD), contact and breakage mechanics of particles as well as steady-state and dynamic flowsheet simulation of solids processes. He received the 2015 DECHEMA-Prize, awarded by the Max Buchner Research Foundation.
This book presents the latest advances in flowsheet simulation of solids processes, focusing on the dynamic behaviour of systems with interconnected solids processing units, but also covering stationary simulation. The book includes the modelling of solids processing units, for example for comminution, sifting and particle formulation and also for reaction systems. Furthermore, it examines new approaches for the description of solids and their property distributions and for the mathematical treatment of flowsheets with multivariate population balances.