Institute of Particle Technology / Ball Mill / University of Applied Sciences In / Plant Engineering / Karlsruhe Institute of Technology Celitement / Karlsruhe Institute of Technology / mill AFG / /
IndustryTerm
printing house / technology solutions / compaction technology / temperature processing / powder processing technologies / end product / energy efficient dry processing / Industrial sugar processing / greater energy efficiency / container solution / chemical products / temperature processing equipment / auxiliary equipment / protective systems / overall energy dissipation / particle processing / energy / batch technologies / Powder processing / metal powders / Energy consumption / stirred vertical media mills / finer products / appropriate measuring devices / granulation technology / energy-efficient air supply / chemical industry / measurement systems / flow sheet simulation tool / developed jet mill technology show advantages / energy-efficient design / lower energy demand / energy efficiencies / energy efficiency / food industry / energy transfer / explosive product / spin-off / /
NaturalFeature
Alpine / /
Organization
Friedrich-Alexander Universität Erlangen / Hochschule Ostwestfalen Lippe / Institute for Particle Technology / Institute of Technology / Institute of Particle Technology / University of Applied Sciences In / /
Person
Carl Emsley / Benedikt Köninger / Alexander Universität Erlangen / Ralf Eichel / Olaf Tamms / Alexander Auer / Rainer Barnekow / Ingrid Löhle / Jochen Weimer / Marco Hauk / Frank Schnur / Thomas Oberer / José Antonio Garcia Serena / Mathias Polster / Charles Vergé / Bernd Broeckmann / Andre Kamptner / Franz Mader / Silvia Bräunlein / Thomas Anlauf / Thomas Walter / Ernst Krendlinger / Peter Stemmermann / Friedrich-Alexander Universität / Marc Jacobs / Matthias Maurer / Bernhard Öttl / /