Chemical Technology 1200-1TECHW5
The course covers physicochemical background of technological processes. Are presented the following topics: technical, economical and environmental factors in large-scale processes, elements of chemical engineering and chemical processes control, unit operations and processes realized in periodic and continuous mode, chemical reactors, material and energy balances, Sankey’s diagrams – material and energy balances visualization.
Lecture introduces elements of industrial catalysis and hydrocarbon polymer chemistry. Examples of large-scale plastic production processes are given.
This course introduces students to selected technology of inorganic and organic products. The special attention is given to new material technology, environmental impact of chemical industry processes.
Main fields of studies for MISMaP
Type of course
Mode
Prerequisites (description)
Course coordinators
Learning outcomes
To the end with this lecture student:
-describes chemical technology as a science
-explains differences between laboratory and large-scale processes
-knows the theoretical background of chemical engineering
-distinguishes periodic and continuous chemical processes
-knows reactor types used in chemical industry
-explains mechanisms mass and energy transfer
-analyses the material and energy balances for industrial processes
-defines parameters describing chemical process yield
-distinguishes unit operations and unit processes
-explains technical, economical and environmental factors in a large-scale processes
-describes catalytic processes in chemical technology
-describes a chosen organic technologies
-describes a chosen nonorganic technologies
-explains environmental impact of chemical industry processes
-distinguishes an environmental protection methods used in new industrial chemical technologies and waste treatment techniques
Assessment criteria
Nonobligatory test during semester.
Written exam containing test and open questions.
Practical placement
none
Bibliography
J. Kępiński, "Nonorganic chemical technology", PWN 1984
E. Bortel, H.Koneczny, "Chemical technology design", PWN 1992
J. Ciborowski, "The elements of chemical engineering", WNT 1978
R. Koch, A.Noworyta, "Mechanical processes for chemical engineeting", WNT 1998
F. Pruchnik, "Homogeneous catalysis", PWN 1993
G.C. Bond "Heterogeneous catalysis. Elements and application", PWN 1979
B. Grzybowska-Świergosz "Elements of heterogeneous catalysis", PWN 1993
E. Grzywa, J. Molenda, "Technology of primary organic sythesis", Tom 1, 2, WNT 2000
A. Johansson, "Pure technology,environment, technique, future , WNT 1997
W.M. Lewandowski, "Proecological restorted sources of energyi", WNT 2007
Additional information
Information on level of this course, year of study and semester when the course unit is delivered, types and amount of class hours - can be found in course structure diagrams of apropriate study programmes. This course is related to the following study programmes:
Additional information (registration calendar, class conductors, localization and schedules of classes), might be available in the USOSweb system: