Technologies and technics in environment protection
General data
Course ID: | WF-OB-TTOS |
Erasmus code / ISCED: |
07.2
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Course title: | Technologies and technics in environment protection |
Name in Polish: | Technologie i techniki w ochronie środowiska |
Organizational unit: | Center for Ecology and Ecophilosophy |
Course groups: | |
ECTS credit allocation (and other scores): |
0 OR
2.00
(differs over time)
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Language: | Polish |
Subject level: | intermediate |
Learning outcome code/codes: | OB2_W02 OB2_W11 OB2_U04 OB2_U08 |
Short description: |
Principles for creating environmentally friendly technologies. Analysis of selected technologies on the environment. Main sources of air pollution. Primary and secondary methods to prevent pollution to the atmosphere. Characteristics of processes used in air protection. Absorption. Adsorption. Combustion processes. Principles of operation of dust collectors and devices for removing gaseous pollutants. Main sources of water pollution. Ways of purifying surface water and underground water. Water treatment for municipal and industrial purposes. Characterization, classification, composition and properties of waste water. Technologies for treatment of municipal and industrial waste water. Sources and characteristics of waste. Principles of waste management: storage, use for industrial and agricultural purposes, neutralization. Recycling of polymers and plastics. Basics of environmental biotechnology. Application of membrane techniques in water technology, wastewater and air treatment |
Full description: |
Fundamentals of industrial technology. Sources of energy and raw materials, technological principles, basic technological processes, product life cycle analysis - LCA). Principles for creating environmentally friendly technologies. Analysis of selected technologies on the environment. Main sources of air pollution. Primary and secondary methods to prevent pollution to the atmosphere. Reduce emissions. Characteristics of processes used in air protection. Absorption. Adsorption. Combustion processes. Principles of operation of dust collectors and devices for removing gaseous pollutants. Main sources of water pollution. Ways of purifying surface water and underground water. Water treatment for municipal and industrial purposes. Characterization, classification, composition and properties of waste water. Technologies for treatment of municipal and industrial waste water. Sources and characteristics of waste. Principles of waste management: storage, use for industrial and agricultural purposes, neutralization. Biodegradable polymers and surfactants. Recycling of polymers and plastics. Handling hazardous waste. Integrated systems. Basics of environmental biotechnology. Application of membrane techniques in water technology, wastewater and air treatment. |
Bibliography: |
1. Czesława Rosik-Dulewska: „Podstawy gospodarki odpadami” Wydawnictwo Naukowe PWN, Warszawa 2000, 2005; 2. B. Bilitewski, G. Hardtle, K. Marek: „Podręcznik gospodarki odpadami”, Wydawnictwo: Seidel & Przywecki, Warszawa, 2003; 3. Listwan, I. Baic, A. Łuksa: „Podstawy gospodarki odpadami niebezpiecznymi” Wyd. Politechniki Radomskiej, Radom 2007r. 4. R. Zarzycki, M. Imbierowicz, M. Stelmachowski: „Wprowadzenie do inżynierii i ochrony środowiska” t. 1: „Ochrona środowiska naturalnego”, t .2: „Fizykochemiczne podstawy inżynierii środowiska”, WNT, Warszawa 2007r. 5. J. W. Wandrasz, J. Biegańska: „Odpady niebezpieczne-podstawy teoretyczne” Wydawnictwo Politechniki Śląskiej, Gliwice, 2003; Literatura pomocnicza: 1. B. J. Alloway, D.C. Ayres: „Chemiczne podstawy zanieczyszczania środowiska” Wydawnictwo Naukowe PWN, Warszawa, 1999; 2. J. E. Andrews, P. Brimblecombe, T.D. Jickells, P.S. Liss: „Wprowadzenie do chemii środowiska” Wydawnictwa Naukowo-Techniczne, Warszawa, 2000; 3. G. van Loon, S.J. Duffy „Chemia środowiska” Wydawnictwo Naukowe PWN, Warszawa 2008; 4. E. Grzywa, J. Molenda: „Technologia podstawowych syntez organicznych” T.1...2, Wydawnictwa Naukowo-Techniczne, Warszawa, 2000; 5. Praca zbiorowa pod redakcją Z. Florjańczyka, S. Penczka: „Chemia polimerów” T.1...3, Wydawnictwo Politechniki Warszawskiej, Warszawa, 2001; 6. Z. Szperliński: „Chemia w ochronie i inżynierii środowiska” Cz. I, II, III; t. 1-2, Wyd. Oficyna Wydawnicza Politechniki Warszawskiej, Warszawa 2002; |
Efekty kształcenia i opis ECTS: |
Knowledge of applying basic technologies in environmental protection, identifying solutions that make technologies less environmentally harmful, proposing technological solutions and rules of operation of equipment used in the protection and cleaning of particular elements of the environment. |
Assessment methods and assessment criteria: |
Test |
Classes in period "Winter semester 2021/22" (past)
Time span: | 2021-10-01 - 2022-01-31 |
Navigate to timetable
MO TU W TH KON
FR |
Type of class: |
Conversatorium, 30 hours, 25 places
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Coordinators: | Marta Pochopień | |
Group instructors: | Marta Pochopień | |
Course homepage: | https://teams.microsoft.com/l/channel/19%3ab8a4fcfc11294cfdaba65a98255be615%40thread.tacv2/Og%25C3%25B3lny?groupId=59cf3f5f-e8a5-4ace-afbc-c6f9ab97dd12&tenantId=12578430-c51b-4816-8163-c7281035b9b3 | |
Students list: | (inaccessible to you) | |
Examination: |
Course -
graded credit
Conversatorium - graded credit |
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Short description: |
Fundamentals of industrial technologies. Sources of energy and raw materials, technological principles, basic technological processes, life cycle analysis of products - LCA). Rules for creating environmentally friendly technologies. Analysis of selected technologies harmful to the environment. The main sources of air pollution. Primary and secondary methods of preventing pollution into the atmosphere. Reducing pollution emissions. Characteristics of processes used in air protection. Absorption. Adsorption. Combustion processes. Working principles of dust collectors and devices for removing gaseous pollutants. Main sources of water pollution. Methods for surface and underground water purification. Water treatment for municipal and industrial purposes. Characteristics, classification, composition and properties of wastewater. Municipal and industrial wastewater treatment technologies. Sources and characteristics of waste. Waste management rules: storage, use for industrial and agricultural purposes, disposal. Biodegradable polymers and surfactants. Polymer and plastic recycling. Hazardous waste management. Integrated systems. Fundamentals of environmental biotechnology. The use of membrane techniques in water, sewage and air treatment technology |
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Full description: |
Fundamentals of industrial technologies. Sources of energy and raw materials, technological principles, basic technological processes, life cycle analysis of products - LCA). Rules for creating environmentally friendly technologies. Analysis of selected technologies harmful to the environment. The main sources of air pollution. Primary and secondary methods of preventing pollution into the atmosphere. Reducing pollution emissions. Characteristics of processes used in air protection. Absorption. Adsorption. Combustion processes. Working principles of dust collectors and devices for removing gaseous pollutants. Main sources of water pollution. Methods for surface and underground water purification. Water treatment for municipal and industrial purposes. Characteristics, classification, composition and properties of wastewater. Municipal and industrial wastewater treatment technologies. Sources and characteristics of waste. Waste management rules: storage, use for industrial and agricultural purposes, disposal. Biodegradable polymers and surfactants. Polymer and plastic recycling. Hazardous waste management. Integrated systems. Fundamentals of environmental biotechnology. The use of membrane techniques in water, sewage and air treatment technology |
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Bibliography: |
Basic literature: 1. Czesława Rosik-Dulewska: "Fundamentals of waste management" Wydawnictwo Naukowe PWN, Warsaw 2000, 2005; 2. B. Bilitewski, G. Hardtle, K. Marek: "Waste management handbook", Publisher: Seidel & Przywecki, Warsaw, 2003; 3. Listwan, I. Baic, A. Łuks: "Basics of hazardous waste management" Technical University of Radom, Radom 2007. 4. R. Zarzycki, M. Imbierowicz, M. Stelmachowski: "Introduction to engineering and environmental protection" vol. 1: "Environmental protection", vol. 2: "Physicochemical foundations of environmental engineering", WNT, Warsaw 2007. 5. J. W. Wandrasz, J. Biegańska: "Hazardous waste - theoretical foundations" Wydawnictwo Politechniki Śląskiej, Gliwice, 2003 Ancillary literature: 1. B. J. Alloway, D.C. Ayres: "Chemical basis of environmental pollution" Wydawnictwo Naukowe PWN, Warsaw, 1999; 2. J. E. Andrews, P. Brimblecombe, T.D. Jickells, P.S. Liss: "Introduction to environmental chemistry" WNT, Warsaw, 2000; 3. G. van Loon, S.J. Duffy "Environmental Chemistry", PWN, Warsaw 2008; 4. E. Grzywa, J. Molenda: "Technology of basic organic syntheses" T.1 ... 2, WNT, Warsaw, 2000; 5. Collective work edited by Z. Florjańczyk, S. Penczka: "Chemistry of Polymers" T.1 ... 3, Warsaw University of Technology Publishing House, Warsaw, 2001; 6. Z. Szperliński: "Chemistry in environmental protection and engineering" Cz. I, II, III; vol. 1-2, ed. Publishing House of Warsaw University of Technology, Warsaw 2002. |
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Wymagania wstępne: |
The student knows the basics of technological processes, LCA of selected technological processes, arduous technologies, and principles of creating environmentally friendly processes. |
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