autumn 2024
BYG-3610 Analysis of water quality parameters - 5 ECTS
Admission requirements
Water and sewage technology
Bachelor's degree or equivalent in construction engineering, civil engineering, water and sewerage engineering, environmental engineering, HVAC engineering and energy technology. Applicants with other subject combinations (water sciences, sanitary and environmental sciences, hydrology / hydraulics, etc.) are considered separately.
Regulations on admission to studies at UiT state that in order to be admitted to a master's degree program of 120 credits, there are requirements for specialization in subjects, courses or subject groups of a minimum of 80 credits or integrated education of a minimum of 120 credits. For the field of study Water and Sewerage Technology, the requirement for professional specialization in construction, water and sewerage technology, civil engineering and HVAC applies. Applicants with other specializations can be admitted after special assessment. Basic knowledge of water and drainage technology is recommended.
In addition, there is a requirement for basic knowledge of at least 25 credits in mathematics (cf. Mathematics 1, 2 and 3), at least 5 credits in statistics / probability and at least 7.5 credits in physics in accordance with the framework plan for the Bachelor of Engineering.
Application code: 9371
Recommended prior knowledge: Basic knowledge in chemistry, biology and geosciences or equivalent knowledge.
Course content
This laboratory course is designed to provide students with hands-on experience in the analysis of water samples. Participants will gain practical skills in assessing water quality through various analytical techniques. The course focuses on rapid methods for measuring important water quality parameters, serving as crucial tools in situations where fast and reliable results are necessary, bypassing the need for more advanced methods.
Emphasis will be placed on both theoretical knowledge and the practical application of methods for measuring physicochemical parameters, such as pH, EC, colour, TSS, turbidity, DO, COD, BOD, nitrogen compounds (TN, NH₄, NO₂, and NO₃), phosphorus, and microbiological water analysis (total coliforms, E. coli, Enterococci). Similarly, the course covers the measurement of relevant water properties, including alkalinity and hardness, as well as the JAR test to estimate the optimal coagulant dose required to achieve specific water quality goals.
The laboratory exercises will take place in an environmental lab at UiT, Narvik.
Objectives of the course
A candidate who has completed his or her qualification should have the following learning outcomes defined in terms of knowledge, skills and general competence:
Knowledge:
The student understands rapid methods of water quality analysis and knows how to plan, carry out a sampling scheme, and interpret the results.
Skills:
Possess practical skills in water analysis techniques.
Be familiar with regulatory standards for water quality.
Apply theoretical knowledge to practical laboratory setups for water analysis / practical applications.
Interpret and communicate analytical results effectively.
General competence:
The students develop competence in understanding of various analytical techniques, proficiency in assessing water quality parameters, interpreting analysis results and gaining hands-on experience in working with real-world water samples.
Teaching methods
The course begins with a brief theoretical lecture, after which students will participate in practical exercises involving the analysis of real-world water samples from wastewater, groundwater, river or lake water, and seawater. This hands-on experience includes the identification and quantification of various water quality parameters, the interpretation of results, and the application of quality control measures.Schedule
Examination
Examination: | Date: | Weighting: | Grade scale: |
---|---|---|---|
Assignment | 10.10.2024 14:00 (Hand in) | Passed / Not Passed |
- About the course
- Campus: Narvik |
- ECTS: 5
- Course code: BYG-3610
- Responsible unit
- Institutt for bygg, energi og materialteknologi