Conducted in terms:
Winter Semester 2010/11
Winter Semester 2011/12
Winter Semester 2012/13
Winter Semester 2013/14
Winter Semester 2014/15
Winter Semester 2015/16
Winter Semester 2016/17
Summer Semester 2016/17
Winter Semester 2017/18
Summer Semester 2017/18
Winter Semester 2018/19
Winter Semester 2019/20

ECTS credits: 5

Language: Polish

Organized by: Faculty of Civil Engineering and Environmental Sciences

Water Renovation ŚW2047

Water renovation - definitions and application.
Flow-sheet and treatment facilities water renovation
Performance effciencies. Microelementes - meaning, purification methods.
Biogenic compounds removal. Applicable processes in water renovation: lime coagulation, oxide of carbon neutralization, ammonium nitrogen removal, ion exchange, sorption.
Membrane processes: reverse osmosis, microfiltration, nanofiltration, electrodialysis.
Waste and sluge management in water renovation.
Water renovation in chosen industries.

Project:
Project a water renovation plant for specific parameters of raw sewage and water renovation. The project should include:
1. A description of the technical and technological
2. Analysis and justification for choosing the best solution for the given parameters
3. Schematic concept of technological
4. Technological calculations and summary of results
5. The calculation and selection of equipment
6. Waste management together with the classification of waste
7. Full Renewal model station With water and waste and wastewater management
8. Flow graphic models of open and closed-circuit Renovation plant water
9. Throw water Renovationl plant scale

Initial issues concerning the scope of the subject, recommended reading, examination and training in health and safety regulations;
Removing ammonia nitrogen stripping method - włlyw temperature, pH to the effect of removal;
Ammonium nitrogen removal by selective ion exchange on the field ;
Phosphorus removal by chemical precipitation and coagulation;
Coagulation with lime large and small doses - the effect of lime dose, the effect of pH;
single stage and two stage;
Foam removal,;
Reverse osmosis.

Term 2012Z:

Initial issues concerning the scope of the subject, recommended reading, examination and training in health and safety regulations;
Removing ammonia nitrogen stripping method - włlyw temperature, pH to the effect of removal;
Ammonium nitrogen removal by selective ion exchange on the field ;
Phosphorus removal by chemical precipitation and coagulation;
Coagulation with lime large and small doses - the effect of lime dose, the effect of pH;
Recarbonization single stage and two stage;
Foam removal,;
Reverse osmosis.

Term 2013Z:

Initial issues concerning the scope of the subject, recommended reading, examination and training in health and safety regulations;
Removing ammonia nitrogen stripping method - włlyw temperature, pH to the effect of removal;
Ammonium nitrogen removal by selective ion exchange on the field ;
Phosphorus removal by chemical precipitation and coagulation;
Coagulation with lime large and small doses - the effect of lime dose, the effect of pH;
Recarbonization single stage and two stage;
Foam removal,;
Reverse osmosis.

Term 2014Z:

Initial issues concerning the scope of the subject, recommended reading, examination and training in health and safety regulations;
Removing ammonia nitrogen stripping method - temperature, pH to the effect of removal;
Ammonium nitrogen removal by selective ion exchange on the field ;
Phosphorus removal by chemical precipitation and coagulation;
Coagulation with lime large and small doses - the effect of lime dose, the effect of pH;
single stage and two stage;
Foam removal,;
Reverse osmosis.

(in Polish) Rodzaj przedmiotu

(in Polish) Obowiązkowy

Course coordinators

Elżbieta Grygorczuk-Petersons

Learning outcomes

Student: lists and has processes and equipment used in the restoration of water, identifies processes, characterized by different processes and parameters affecting their health is used in water, selects processes and their optimal parameters, knows the process and has waste disposal and health stations of water, draw diagrams of technological waste water and waste water in health facilities, is able to use the legal acts necessary for these plants

Assessment criteria

A written exam consists of 25 questions verifying the knowledge. Questions are being assessed 0 -2.0 points.
Final evaluations:
3,0 (from 26 to 35,0 points.);
3,5 (from 35,5 to 38 points.);
4,0 (from 38,5 to 41,5 points.);
4,5 (from 42 to 45 points..);
5,0 (from 45,5 to 50 points.).
One should take the examination without using notes, or other materials and the help and without the intercommunication with other persons.
The examination lasts c 90 minutes. Conditions of the course project exercise:
- Participation in all classes,
- Obtaining of records involved,
- The timely execution and defense of the evaluation project a positive exercise

The final evaluation of the design exercise is determined by:
• assessment of the project,
• assessment of the defense project
Each element is assessed by the current grading system (2.0, 3.0, 3.5, 4.0, 4.5, 5.0).
Putting the project after the deadline results in lower realizable assessment for the project by 1 score down.
Completion of design practice is possible only after all the positive reviews.
The final evaluation of the project is calculated as the arithmetic average of scores according to the principles set out below:
3.00 - 3.24 -> 3.0
3.25 - 3.75 -> 3.5
3.76 - 4.25 -> 4.0
4.26 - 4.75 -> 4.5
4.76 - 5.00 -> 5.0

Laboratory Assessment:
- Participation in all activities of laboratory
- Completion of all preliminary tests at each laboratory exercise - it is a condition for accession to perform exercises
- Implementation and evaluation of positive credit on written reports of laboratory exercises,
Each element is assessed by the current grading system (2.0, 3.0, 3.5, 4.0, 4.5, 5.0).
The final evaluation of the laboratory is to be determined on the basis of:
• pre-assessment test (the arithmetic average of all the votes);
• assessment of the reports (the arithmetic average of all the votes);
• evaluation of two partial credits (arithmetic mean of all assess)

Laboratory assessment is possible only after all the positive reviews.
The final evaluation of the laboratory is determined by the weighted average of the ratings components:
assessment of preliminary tests x 0.2 + rating from the reports x 0.5 + credit rating from partial x 0.3

The result of the weighted average of the component ratings translates into a final evaluation of the laboratory according to the principles set out below:
3.00 - 3.24 -> 3.0
3.25 - 3.75 -> 3.5
3.76 - 4.25 -> 4.0
4.26 - 4.75 -> 4.5
4.76 - 5.00 -> 5.0

Bibliography

Kowal , M.Świderska-Bróż: Odnowa wody. Podstawy teoretyczne procesów. Skrypt Politechniki Wrocł., 1997
Bodzek M., Konieczny K.: Wykorzystanie procesów membranowych w uzdatnianiu wody.Bydgoszcz 2005
Bodzek M.: Usuwanie zanieczyszczeń nieorganicznych ze środowiska wodnego metodami membranowymi. Wydaw. Seidel-Przywecki, Warszawa, 2011.
Anielak A.: Chemiczne i fizykochemiczne oczyszczanie scieków.PWN 2002
Granops M., kaleta J.: Uzdatnianie i odnowa wody. Laboratorium. 2005
Kowal A. L., Świderska-Bróż M.: Oczyszczanie wody : podstawy teoretyczne i technologiczne, procesy i urządzenia. Wydaw. Naukowe PWN, Warszawa, 2009.
Sozański M.:Technologia usuwania i unieszkodliwiania osadów z uzdatniania wody. Politechnika Poznańska, Poznań, 1999.

Term 2012Z:

Term 2013Z:

Term 2014Z:

Kowal , M.Świderska-Bróż: Odnowa wody. Podstawy teoretyczne procesów. Skrypt Politechniki Wrocł., 1997
Kowal A. L., Świderska-Bróż M.: Oczyszczanie wody : podstawy teoretyczne i technologiczne, procesy i urządzenia. Wydaw. Naukowe PWN, Warszawa, 2009.
Bodzek M., Konieczny K.: Wykorzystanie procesów membranowych w uzdatnianiu wody.Bydgoszcz 2005
Bodzek M.: Usuwanie zanieczyszczeń nieorganicznych ze środowiska wodnego metodami membranowymi. Wydaw. Seidel-Przywecki, Warszawa, 2011.
Anielak A.: Chemiczne i fizykochemiczne oczyszczanie scieków.PWN 2002
Granops M., kaleta J.: Uzdatnianie i odnowa wody. Laboratorium. 2005
Sozański M.:Technologia usuwania i unieszkodliwiania osadów z uzdatniania wody. Politechnika Poznańska, Poznań, 1999.
Grygorczuk-Petersons E.H. Instrukcje do ćwiczeń laboratoryjnych z odnowy wody,PB;