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The safe operation of plants is of paramount importance in the chemical, petrochemical and pharmaceutical industries. Best practice inprocess and plant safety allows both the prevention of hazards and the mitigation of consequences. Safety Technology is continuously advancing to new levels and Computational Fluid Dynamics (CFD) is already successfully established as a tool to ensure the safe operation of industrial plants.With CFD tools, a great amount of knowledge can be gained as both the necessary safety measures and the economic operation of plants canbe simultaneously determined. Young academics, safety experts and safety managers in all parts of the industry will henceforth be forced toresponsibly judge these new results from a safety perspective. This is the main challenge for the future of safety technology.This book serves as a guide to elaborating and determining the principles, assumptions, strengths, limitations and application areas ofutilizing CFD in process and plant safety, and safety management. The book offers recommendations relating to guidelines, procedures, frameworks and technology for creating a higher level of safety for chemical and petrochemical plants. It includes modeling aids and concrete examples of industrial safety measures for hazard prevention.
Über den Autor / die Autorin
Jürgen Schmidt, Abteilungsdirektor, war Leiter der Außensteuerfachprüfung der OFD München und ist derzeit Leiter der Abteilung Verfahrensrecht, Betriebsprüfung, Vollstreckung und Steuerfahndung im Bayerischen Landesamt für Steuern. Er ist Autor verschiedener Fachzeitschriften und Kommentierungen zum Internationalen Steuerrecht, Referent bei Fortbildungsveranstaltungen im Steuerrecht sowie Mitglied im Prüfungsausschuss für die Steuerberaterprüfung.§§
Zusammenfassung
The safe operation of plants is of paramount importance in the chemical, petrochemical and pharmaceutical industries. Best practice in
process and plant safety allows both the prevention of hazards and the mitigation of consequences. Safety Technology is continuously advancing to new levels and Computational Fluid Dynamics (CFD) is already successfully established as a tool to ensure the safe operation of industrial plants.
With CFD tools, a great amount of knowledge can be gained as both the necessary safety measures and the economic operation of plants can
be simultaneously determined. Young academics, safety experts and safety managers in all parts of the industry will henceforth be forced to
responsibly judge these new results from a safety perspective. This is the main challenge for the future of safety technology.
This book serves as a guide to elaborating and determining the principles, assumptions, strengths, limitations and application areas of
utilizing CFD in process and plant safety, and safety management. The book offers recommendations relating to guidelines, procedures, frameworks and technology for creating a higher level of safety for chemical and petrochemical plants. It includes modeling aids and concrete examples of industrial safety measures for hazard prevention.
Bericht
"The book offers recommendations relating to guidelines, procedures, frameworks and technology for creating a higher level of safety for chemical and petrochemical plants. It includes modeling aids and concrete examples of industrial safety measures for hazard prevention." ( ETDE Energy Database , 1 November 2012)
"This book is an excellent primer for students of safety engineering who are new to computational fluid dynamics (CFD). It is a beacon for process safety technologists seeking to improve their knowledge of safety engineering tools." ( The Chemical Engineer , 1 November 2012)
