1. SylabUZ
2. Faculty of Biological Sciences
3. winter term 2021/2022
4. Environmental Protection - First-cycle studies leading to Bachelor's degree
5. Technologies in environmental protection

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Technologies in environmental protection - course description

Aim of the course

The aim of the course is to familiarize students with the basic concepts, unit processes and technological methods used in water treatment for municipal and industrial purposes. Theoretical foundations of mechanical and biological treatment of municipal and industrial sewage. Methods of municipal waste treatment, reduction of pollutant emissions to the atmosphere

Prerequisites

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High school level - chemistry, biology, ecology, biotechnology.

Scope

Lecture: Water, sources of supply, quality requirements, technological systems for water treatment. Sedimentation - theoretical foundations and application. Unit processes in water purification - theoretical foundations and application. Domestic and domestic wastewater - quantitative and qualitative characteristics. Mechanical wastewater treatment - theoretical foundations and technological systems. Biological oxygen treatment of wastewater - theoretical foundations and methods of implementation. Anaerobic wastewater treatment processes. Water treatment for industrial purposes. Purification of industrial wastewater. Waste - collection, disposal, use. Atmospheric air pollution, emission reduction. Exercises: Water balance for the city. Basic processes used in water treatment, technological concept of the water treatment plant - computational part and drawing part. Wastewater balance with the proposal of a technological purification series - technical description with a drawing part. Basic technological processes in wastewater treatment. Waste balance for the city - computational part. Waste balance for the city; selective waste collection - computational part.

Teaching methods

 

Lectures. Labs.

 

Learning outcomes and methods of theirs verification

Outcome description	Outcome symbols	Methods of verification	The class form

Assignment conditions

Lecture - final exam, to which the student is admitted on the basis of the previous passing of the exercises, carried out in writing (the exam lasts 60 minutes). It is necessary to get 60% of positive answers to pass on a satisfactory grade.

Exercises - the condition for passing is to get positive grades from all the exercises planned for implementation as part of the exercise program. The following are subject to assessment: self-made water balance, technological concept of the water treatment plant, sewage balance, waste balance and tests testing knowledge - positive assessment over 60% of points obtained. The final grade is the arithmetic mean of partial grades.

Recommended reading

• Kowal A. L., Świderska-Bróż M.: Oczyszczanie wody. Podstawy teoretyczne i technologiczne, procesy i urządzenia. Wydawnictwo Naukowe PWN, Warszawa 2007.
• Hermanowicz W.: Fizyczno-chemiczne badanie wody i ścieków. Wyd. Arkady, Warszawa 1999.
• Cywiński B., Gdula St., Kempa E., „Oczyszczanie ścieków miejskich” Arkady. Warszawa 1972
• Hartmann L: Biologiczne oczyszczanie ścieków, Wyd. Instalator Polski, W-wa 1996
• Imhoff K. i K.: Kanalizacja miast i oczyszczanie ścieków, Poradnik, Projprzem – Eko, Bydgoszcz 1997

Further reading

• Klimiuk E., Łebkowska M.: Biotechnologia w ochronie środowiska. PWN, Warszawa 2004.
• Schlegel H.G.: Mikrobiologia ogólna. Wydawnictwo Naukowe PWN. Warszawa 2004.
• Szklarczyk M., Ochrona atmosfery. Wydawnictwo UW-M, Olsztyn 2001
• Jędrczak A., Biologiczne przetwarzanie odpadów. PWN, Warszawa 2007
• Niemiecki zbiór reguł ATV-DVWK- 2002. Wyd. Seidel- Przywecki, Warszawa

Notes

Modified by dr Olaf Ciebiera (last modification: 19-05-2021 22:02)