|
|
|
||
Students will learn to quantify the main components of drinking, surface and sewage. The acquired theoretical knowledge will be used in experimental activities and will acquire the necessary manual skills. Attention is focused not only on mastering the process but also on understanding the methodology, the proper processing of data and the interpretation of the results obtained. Methods of determination of individual analytes are applied to both model and real samples and during the semester, a basic analysis of drinking water is included in the program. The theoretical basics needed to master the Water Analysis Laboratory are lectured in the subject of Water Analysis.
Last update: Kujalová Hana (24.04.2018)
|
|
||
Students will be able to quantify basic components of drinking water, surface water and wastewater, and correctly interpret the results. Last update: Kujalová Hana (24.04.2018)
|
|
||
The requirement for obtaining the credit is passing all the laboratory exercises; in an absent absence, a limited number of exercises can be completed in a alternative date. A mandatory output of each exercise is the processing of measured data in the form of a protocol. The resulting mark is based on the average mark for each laboratory exercise. Last update: Kujalová Hana (24.04.2018)
|
|
||
R:Standard Methods for the Examination of Water and Wastewater, 23rd Edition, APHA, AWWA, WEF Washington 2017, ISBN 9780875532875. R:D.T.E. Hunt, A.L. Wilson: The Chemical Analysis of Water: General Principles and Techniques. Royal Society of Chemistry, Great Britain, 1986. A:M. Radojevic, V.N. Bashkin: Practical Environmental Analysis. Royal Society of Chemistry, 2015, ISBN 9781782625483; (Chapter 4). A:Selected ISO Standards - Water Quality. Last update: Sýkora Vladimír (16.08.2024)
|
|
||
Student je při každém laboratorním cvičení hodnocen z hlediska teoretických znalostí potřebných pro zvládnutí dané úlohy, dále z hlediska provedení experimentální části práce a zpracování získaných dat formou protokolu. Last update: Kubová Petra (12.04.2018)
|
|
||
1. Safety and protection of health at work. The organizational instructions. 2. Taking laboratory tables with equipment. Preparation of reagent solutions. 3. Preparation of calibration. Calibration for spectrophotometric determinations. 4. Spectrophotometric determination of ammonia, nitrite, nitrate. 5. Spectrophotometric determination of phosphorus, boron and silica. 6. Measurement of conductivity and pH value. Titration determination of alkalinity and acidity (calculation of carbon dioxide species), calcium and magnesium, chloride. 7. Determination of ion dissolved matter, dissolved matter and suspended solids. Titration determination of sulphate. 8. Determination of COD-Mn. Spectrophotometric determination of iron. Manganese determination by titration colorimetry. 9. Titration determination of dissolved oxygen. Titration and spectrophotometric determination of chlorine. 10. Determination of COD, BOD (start) and TOC in wastewater. Determination of MBAS. 11. Determination of inorganic, organic and Kjeldahl nitrogen and total phosphorus in wastewater; the nitrogen balance. Determination of BOD (completion). 12. Data processing and interpretation of the results. 13. Final test. Replacement term for missed tasks. 14. Laboratory cleaning. Taking back of laboratory tables with equipment. Last update: Kujalová Hana (25.04.2018)
|
|
||
Water analysis - Laboratory follows up on the subject of Water Analysis and uses the theoretical knowledge gained in it, so it is necessary to pass the Water Analysis together. Last update: Kujalová Hana (24.04.2018)
|
Teaching methods | ||||
Activity | Credits | Hours | ||
Účast v laboratořích (na exkurzi nebo praxi) | 4 | 112 | ||
Příprava na přednášky, semináře, laboratoře, exkurzi nebo praxi | 1 | 28 | ||
5 / 5 | 140 / 140 |