Chemical Technology
0600-S2-EN-CT
Lecture
Chemical industry. The choice of technological process conditions, kinetics of processes, contact processes, fuel gasification, fuel degassing, thermal and catalytic cracking, the principles of technology, unit operations, raw materials, fuels, detailed technologies – HNO3, NH3, Na2CO3, processing of crude oil and fundamental organic synthesis.
Laboratory
Water analysis. Water conditioning. Coal analysis. Carbonization of ammonia brine. Electrochemical metal regeneration
Całkowity nakład pracy studenta
1. 30h - Lecture, 30h - Laboratory, 15h - consutation, 75h
2. 20h individual work,
3. 30h time required for the preparation of the assessment process,
4. total time student workload is 150h
150h:25h/ECTS= 6 ECTS
Efekty uczenia się - wiedza
W1: knows relations between the chemical in the process leading to its recovery, including the control of product quality and waste management; has knowledge of allowing the creation and development of economic activities linked to the production of chemicals and their processing-K_W05
W2: know the theoretical basis for the chemical functioning of scientific and industrial instruments - K_W 10
W3: knows and understands the the theoretical basis of various analytical methods and their use in the interpretation of measurement results - K_W12
Efekty uczenia się - umiejętności
U1: uses chemical knowledge in the evaluation of opportunities for technological process, including: the selection of raw materials, production control, waste management, calculation of material balance - K_U03
U2 has the ability to work with Polish and international standards in order to comply with the determination of selected physical and chemical properties of chemical substances - K_U05
U3: is able to use a select group of analytical methods; able to critically evaluate the results of the analysis and discuss the measurement errors - K_U14
Efekty uczenia się - kompetencje społeczne
K1: knows the limits of his own knowledge and understands the need to continue learning throughout life; can independently take action to broaden and deepen their knowledge of chemical - K_K01
K2: knows the legal, economic, environmental and social issues associated with the production of chemicals, the use of bioenergy and disposal of industrial and municipal waste; is aware of the responsibility for the research and experimentation - K_K04
Metody dydaktyczne
Lecture - conventional using multimedia presentations.
Laboratory - independently conducting experiments simulating selection processes
Metody dydaktyczne podające
- wykład problemowy
- wykład informacyjny (konwencjonalny)
- wykład konwersatoryjny
Metody dydaktyczne poszukujące
- doświadczeń
- laboratoryjna
Rodzaj przedmiotu
przedmiot obligatoryjny
Wymagania wstępne
Basic knowledge of general, analytical, instrumental, organic and physical chemistry.
Koordynatorzy przedmiotu
Kryteria oceniania
Laboratory: colloquia - W2, W3, U2, U3
activity, continuous assessment of student K1, K2
Assessment criteria:
Lecture: written examination (multiple choice test questions and open-ended questions)
Laboratory: colloquia, continuous assessment of student during class (class attendance, positive evaluation reports and written tests).
Thresholds evaluate compatible with the rules of UMK
satisfactory grade - 50-60%, satisfactory plus - 61-65%, 66-75% good, good plus 76-81%, very good - 82-100%
Wymagane progi na ocenę dostateczną - 50-60%, dostateczny plus – 61-65%, dobry 66-75%, dobry plus 76-81%, bardzo dobry – 82-100%
Literatura
Basic literature:
A. Diepen, J.A. Moulijn, M. Michiel, Chemical Process Technology, John Wiley & Sons, 2001.
R. Kellner i in., Analytical Chemistry, J. Wiley-VCH, Weinheim, 1998.
R. E. Kirk-Othmer, Encyclopedia of Chemical Technology, John Wiley & Sons, 2007.
Więcej informacji
Dodatkowe informacje (np. o kalendarzu rejestracji, prowadzących zajęcia, lokalizacji i
terminach zajęć) mogą być dostępne w serwisie USOSweb: