Lecturer(s)
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Mikulášek Petr, prof. Ing. CSc.
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Dušek Libor, doc. Ing. Ph.D.
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Course content
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The definition of technology and technological process. Technological devices and their interconnections, the qualitative and quantitative criteria for assessing the technological processes. Separating and grinding - types of crushers and mills, their characterization and the possibility of the use, methods of separation of particles, examples of industrial applications, model-based calculations. Conduction heat transfer, Convection heat transfer, Radiation heat transfer- general laws, radiation properties of bodies, exchange of radiation energy between solid bodies. Azeotropic and extractive distillation. Flash distillation of multicomponent mixtures. Continuous distillation of multicomponent mixtures. Drying of solid materials The basic types of ideal reactors, deviations of real reactors from model concepts of ideal reactors, examples of real reators. Pressure-driven membrane processes, the basic design of membrane equipment, membrane bioreactors and their application in waste water treatment. Production technology of the ftalocyanine pigments, the history of creation and research milestones, starting materials, their production and purification, technological equipment and arrangement of operation in the depending on the method of manufacture. Production technology of the perylene and perynone pigments, raw materials base, the reaction environment, finalizační operations, commercially available pigments, their properties and applications. Production of energy and fuels. Excursion to the Synthesia, tour service azo II (Reaction amines, phenols and naphthols finalization - drying, grinding, mixing) and the SBU Pigments and dyes (organic pigments, automation features.
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Learning activities and teaching methods
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Monologic (reading, lecture, briefing), Demonstration, Skills training
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Learning outcomes
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The aim of this course is to acquaint students with the equipments, processes and problems occurring in the organic technology, which are then developed in the examples of specific production.
After completion of the course the student knows the basic principles of technology and understands the context of each chemical engineering operations.
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Prerequisites
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Organic Chemistry I, Chemical engineering I.
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Assessment methods and criteria
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Home assignment evaluation, Discussion
There is an oral examination. Primary form of exam is the debate about selected themes. Level of acquired knowledge, conceptions and application acquirements is examined.
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Recommended literature
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Theory and practise of Industrial precipitation processes, Course promoted by the european thematic network crysopt. Barcelona, 2001.
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Dušek L. Organické pigmenty. Univerzita Pardubice, Pardubice, 2004.
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Hauser H., Neynabel P. Chemical technology - technical education. Ciba, Roche, Sandoz, 1994.
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Herbst W., Hunger K. Industrielle Organische Pigmente. Verlag Chemie, Weinheim, 1995.
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Weissermel K., Arpe H. J. Průmyslová organická chemie. SNTL Praha, 1984.
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