Ecotechnology 0600-S2-SP/W-ET

https://www.chem.umk.pl/techem/dydaktyka/ekotechnologia/

Lectures
includes the following topics: best available techniques (BAT) in the production of inorganic compounds. Non-waste technologies. Comprehensive utilization of mineral resources and waste management. Treatment and use of water for municipal and industrial consumption. Wastewater treatment. Environmental impacts of production and use of mineral fertilizers. "Green Chemistry" - selected aspects. New materials. Modern energy sources. Alternative fuels. Ecological packaging in the cosmetics industry. Natural, biological, and ecological cosmetics. Recycling of cosmetic products.

Exercise
Visit to production of chemical industry, cosmetic industry

Laboratory
Preparation and analysis of biofuels. Degassing and analysis of solid fuels. Cracking of petroleum products. Utilization of liquid waste from Solvay method. technology and decarbonization o wate. Investigation of of the solubility of the salt in the ternary systems. The leaching of solid wastes in acidic and alkaline medium. Catalytic processes.

Total student workload

1. 20h - Lecture, 90h - Laboratory, 10h - practice,30 h consultaion total: 150h 2. 70h individual work, 3. 80h time required for the preparation of the assessment process, 4. total time student workload is 300h. 300h:25h / ECTS = 12 ECTS

Learning outcomes - knowledge

W1: knows selected technological processes, including waste management - K_W05 W2: knows the operation of scientific and industrial equipment - K_W10 W3: knows and understands the theoretical basis of various analytical and instrumental methods and their use in the interpretation of results - K_W12

Learning outcomes - skills

U1: knows how to use chemical knowledge in the implementation of selected operations and unit processes of the technological process. Can select raw materials, estimate the quantity and quality of waste - K_U03 U2: can use the standards - K_U05 U3: can operate the selected apparatus, can use a selected group of analytical methods; is able to evaluate the results of analyzes and discuss measurement errors - K_U14 U4: can analyze technological processes - KU_07

Learning outcomes - social competencies

K1: understands the need to expand their knowledge - K_K01 K2: knows the legal and environmental aspects related to the production of chemicals and the disposal of industrial waste and is able to assess their impact on the environment - K_K04

Teaching methods

Lecture - conventional with the use of multimedia presentations. Laboratory - independently conducting experiments simulating selected technological processes. Exercises - fieldwork - trips to industrial plants.

Expository teaching methods

- informative (conventional) lecture
- problem-based lecture

Exploratory teaching methods

- classic problem-solving
- laboratory
- experimental
- practical

Type of course

elective course

Prerequisites

The student must know the basics of chemical technology, analytical chemistry and instrumental analysis, organic synthesis and physical chemistry.

Course coordinators

Term 2021/22Z:

Sebastian Drużyński
Urszula Kiełkowska
Krzysztof Mazurek

Term 2021/22L:

Sebastian Drużyński
Urszula Kiełkowska
Krzysztof Mazurek

Term 2022/23Z:

Urszula Kiełkowska
Krzysztof Mazurek

Learning outcomes

The student uses knowledge of the chemical in the assessment: feasibility of a technological process, the selection of optimum materials for obtaining a particular product, industrial process control and product quality, waste utilization and management - identify opportunities to reduce waste or use waste-free technologies, the selection of optimum analytical methods, using the standards for assessing the quality and value of raw materials and products.

Assessment criteria

Assessment criteria:
Lecture: Assessment work in the form of a paper, examination - W1, W2, U1, K3.
Laboratory: continuous assessment (preparation and completion of reports on exercises, ongoing preparation for classes and activity) - W2, W3, U2, U3, U4, K2
Classes: participation in classes - U1, K1
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:
T. Paryjczak, A. Lewicki, M. Zaborski Zielona chemia, PAN, Łódź, 2005.
J. Dojlido, W. Dożańska, W. Hermanowicz, B. Koziorowski, J. Zerbe Fizykochemiczne badanie wody i ścieków, Arkady, Warszawa, 2010.
B. Bilitewski, G. Hardtle, K. Marek Podręcznik gospodarki odpadami, Seidel &Przywiecki, Warszawa, 2003.
J. Bogdanienko Odnawialne źródła energii, PWN, Warszawa,1989.
W. Ciechanowicz Energia, środowisko i ekonomia, IBS PAN, Warszawa, 1995.
A. Johansson Czysta technologia, WNT, Warszawa, 1997.
W. M. Lewandowski „Proekologiczne źródła energii odnawialnej”, 2002.
J. Michałowska Paliwa, oleje, smary samochodowe, WKŁ, Warszawa, 1997.
Additional Literature:
L. Margel Uzdatnianie wody i oczyszczanie ścieków, Ekonomia i środowisko, Białystok 2000.
P.T. Anastas, Ed., Handbook of Green Chemistry – Green Catalysis, John Wiley & Sons, 2009.
Available academic books in the field of chemical technology, environmental and analytical chemistry.

Additional information

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

Description of 0600-S2-SP/W-ET in USOSweb