Chemical technology 0600-S2-O-TC

http://www.chem.uni.torun.pl/tech.html

Lecture
The choice of the technological process conditions, kinetics of processes, contact processes. Chemical industry in Poland and the European Union, main industrial sectors in Poland and their characteristics, REACH. Selected specific technologies - NH3, HNO3, Na2CO3, cement production, electrochemical industry, processing of crude oil.

Laboratory
Water analysis. Precipitation removal of water hardness. Analysis of solid fuels. Gas analysis. Crystallization balance. Carbonization of ammonia brine. Electrochemical regeneration of metals. Rectification in a packed column. Preparation of polyvinyl alcohol. Mineral oil analysis. Catalytic oxidation of methanol to formaldehyde.

Term 2021/22Z:

Lecture
The choice of the technological process conditions, kinetics of processes, contact processes. Chemical industry in Poland and the European Union, main industrial sectors in Poland and their characteristics, REACH. Selected specific technologies - NH3, HNO3, Na2CO3, technologies of phosphorus compounds, fertilizers, cement production, electrochemical industry, processing of crude oil.

Exercise
1. Carbonization of ammonium brine.
2. Crystallization balance.
3. Electrochemical metals regeneration.
4. Rectification in the packed column.
5. Catalytic oxidation of methyl alcohol to formaldehyde.

Term 2022/23Z:

Lecture
The choice of the technological process conditions, kinetics of processes, contact processes. Chemical industry in Poland and the European Union, main industrial sectors in Poland and their characteristics, REACH. Selected specific technologies - NH3, HNO3, Na2CO3, technologies of phosphorus compounds, fertilizers, cement production, electrochemical industry, processing of crude oil.

Term 2023/24Z:

Lecture
The choice of the technological process conditions, kinetics of processes, contact processes. Chemical industry in Poland and the European Union, main industrial sectors in Poland and their characteristics, REACH. Selected specific technologies - NH3, HNO3, Na2CO3, technologies of phosphorus compounds, fertilizers, cement production, electrochemical industry, processing of crude oil.

Term 2024/25Z:

Lecture
The choice of the technological process conditions, kinetics of processes, contact processes. Chemical industry in Poland and the European Union, main industrial sectors in Poland and their characteristics, REACH. Selected specific technologies - NH3, HNO3, Na2CO3, technologies of phosphorus compounds, fertilizers, cement production, electrochemical industry, processing of crude oil.

Total student workload

1. 15h - Lecture, 45h - Laboratory: 60h 2. 25h individual work, 3. 50h time required for the preparation of the assessment process, 4. 15h consultations total time student workload is 150h. 150h :25h / ECTS = 6 ECTS

Learning outcomes - knowledge

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

Learning outcomes - skills

U1: uses chemical knowledge to assess the feasibility of a technological process, including: selection of raw materials, production control, waste management, material balance calculation - K_U03 U2: has the ability to work with Polish and international standards in order to determine selected physical and chemical properties of chemical substances - K_U05 U3: can use a selected group of analytical methods; can critically evaluate the results of analyzes and discuss measurement errors - K_U14 U4: can analyze the phenomena occurring in technological processes - KU_07

Learning outcomes - social competencies

K1: knows the limitations of his own knowledge and understands the need for further learning throughout life; is able to independently take action to expand and deepen his chemical knowledge - K_K01 K2: knows the legal and environmental aspects related to the production of chemicals and utilization of industrial waste; is aware of the responsibility for undertaken research and experiments - K_K04

Teaching methods

Lecture - conventional using multimedia presentations. Laboratory - independently conducting experiments simulating selection processes.

Expository teaching methods

- informative (conventional) lecture

Exploratory teaching methods

- experimental
- laboratory
- practical
- classic problem-solving

Online teaching methods

- exchange and discussion methods
- content-presentation-oriented methods

Type of course

compulsory course

Prerequisites

Basic knowledge of general, analytical, instrumental, organic and physical chemistry.

Course coordinators

Urszula Kiełkowska

Learning outcomes

Using chemical knowledge to assess the possibilities of implementing a technological process; selection of optimum raw materials for obtaining a particular product.

Assessment criteria

Lecture: written examination - W1, W2, U1, K1
Laboratory: colloquia - W2, W3, U1-U4, 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).

The thresholds are assessed in line with the NCU regulations
The required thresholds for a satisfactory grade - 50-60%, a satisfactory plus - 61-65%, good 66-75%, good plus 76-81%, very good - 82-100%

Bibliography

Basic literature:
E. Bortel, H. Koneczny, Zarys technologii chemicznej, PWN, Warszawa,1992.
Praca zbiorowa, Technologia chemiczna nieorganiczna, WNT, Warszawa, 1965.
J. Molenda, Technologia chemiczna, WSiP, Warszawa 2006.
A. Diepen, J.A. Moulijn, M. Michiel, Chemical Process Technology, John Wiley & Sons, 2001.
E. Grzywa, J. Molenda, Technologia chemiczna organiczna, WNT, Warszawa, 1995.
S. Ropuszański, Chemia i technologia podstawowej syntezy organicznej, PWN, Warszawa,1983.
R. Kellner i in., Analytical Chemistry, J. Wiley-VCH, Weinheim, 1998.
W. Hermanowicz, Fizyczno-chemiczne badanie wody i ścieków, Arkady, Warszawa, 1999.
Technologia chemiczna, Ćwiczenia laboratoryjne, Wydawnictwo UMCS, Lublin, 2002.
Additional literature:
J. Szarawara, J. Piotrowski, Podstawy teoretyczne technologii chemicznej, WNT, Warszawa 2010.
R. E. Kirk-Othmer, Encyclopedia of Chemical Technology, John Wiley & Sons, 2007.
A. Zieliński, Technologia chemiczna organiczna, WNT, Warszawa, 1973.

Term 2021/22Z:

Term 2022/23Z:

Term 2023/24Z:

Term 2024/25Z:

Additional information

Additional information (registration calendar, class conductors, localization and schedules of classes), might be available in the USOSweb system:

Description of 0600-S2-O-TC in USOSweb