| Pole | KOD | Znaczenie kodu |
|---|
| Zamierzone efekty uczenia się | ChEn_1A_C25_K01 | Student is able to perform all tasks on time, cooperate and work in group. |
|---|
| Odniesienie do efektów kształcenia dla kierunku studiów | ChEn_1A_K01 | Understands the need of learning and raising professional and personal competences, motivating other colleagues. |
|---|
| ChEn_1A_K03 | Is able to cooperate and work in a group. Is able to perform the function of a team leader; is able to estimate the time necessary to accomplish the assigned task. |
| ChEn_1A_K04 | Is able to determine the priorities used for performance of the tasks of his/her own or other team members in order to achieve the goal set. |
| ChEn_1A_K05 | Is able to manage his/her own professional development, taking decisions and solving problems, including interpersonal ones connected with job performance. |
| Cel przedmiotu | C-2 | Students will obtain knowledges on basic principles on technologies of decontamination of persistent organic pollutants (dangerous contaminants of the environment) mainly by means of the biological approaches using degradation ability of microorganisms, fungi, and plants, i.e. using bioremediation, mycoremediation, and phytoremediation technologies, as well as physico-chemical technologies, nanotechnologies, and other innovative technologies. Knowledges on basic principles of bioremediation technologies as the alternative of physico-chemical methods are being emphasized. |
|---|
| C-1 | Student will be able to: characterize popular environmental pollutants and indicate sources of its emission; explain principles of operation of devices and technologies used in environment protection; collect, organize and present data from literature; Student will be aware of the harmful influence of pollution on the environment. |
| C-3 | Knowledge and skills associated with the technology used in contaminants removal from air, water and wastewater. |
| Treści programowe | T-W-5 | Principles, methods, advantages, and limitations of bioremediation processes. Bioremediation of heavy and toxic metals. Nanotechnologies used for removal of contaminants. |
|---|
| T-W-4 | Replacement of chemicals & chemical processes conversion of plant biomass to fermentable sugars, conversion of sugars to biotechnological products eg ethanol, biopolymers etc. Biomining and acid mine drainage. |
| T-W-9 | Odour sampling methods. Determination of odour in ambient air. |
| T-W-7 | Odour nuisance of emission sources. Odour abatement of industrial gases. Methods of odour emission and odour concentratin measurement. |
| T-W-6 | Requirements to the microorganisms used in decontamination processes. Isolation and adaptation of microorganisms with degradation ability. Biological wastewater processing. Biological processes for nitrogen and phosphorus removal. |
| T-W-1 | Air pollutants. Sources of emission. Global problems of air protection. Monitoring of air pollutants. Strategies to reduce the environmental impact.Methods of gas emission control (absorption, adsorption, thermal and catalytic combustion, condensation). |
| T-W-2 | Methods of particulate matter removal. Types of dust collectors (settling chambers, inertial dust collectors, wet scrubbers, fabric filters, electrostatic precipitators). |
| T-W-8 | Pollution dispersion modeling in the atmosphere. Odour air quality forecasting. Standards of odour air quality. Odour sampling methods. Determination of odour in ambient air. |
| T-W-3 | Sources of water contaminants. Characteristic, classification and composition of effluents. Technologies for removal of contaminants from water (conventional treatment systems: primary and secondary treatment, advanced treatment processes) |
| T-A-1 | Methods of emission control. |
| T-A-2 | Methods of clean-up of municipal and industrial effluents. |
| T-A-3 | Determination of odour emission rate. Determination of odour abatement efficiency. Determination od precision and accuracy using reference material. Relationship between odour concentration and odour intensity. Odour dispersion modeling in the atmosphere. Assessing the impact of odour nuisance of installations on the environment. |
| T-L-5 | Determination of odour concentration by dynamic olfactometry: yes/no method and forced choice method. Determination of individual odour threshold. |
| T-L-8 | Microbial contamination detection in water. |
| T-L-1 | Elimination of iron from water. |
| T-L-2 | The use of activated carbon for the removal of oxidizable compounds from water. |
| T-L-3 | Elimination of phosphorus from water by precipitation method. |
| T-L-4 | Determination of nitrogen dioxide in air by spectrophotometric method. |
| T-L-6 | Odour panel selection and panel screening.Determination of odour intensity and hedonic tone. Olfactometry field. |
| T-L-7 | Biodegradability evaluation of polymers |
| Metody nauczania | M-3 | laboratory classes |
|---|
| M-1 | lectures with presentations |
| M-5 | private study, working through the course as presented in lectures, tutorials and learning materials |
| M-4 | seminar |
| M-2 | discussion during lectures and seminar |
| Sposób oceny | S-3 | Ocena podsumowująca: written test - grade from lectures |
|---|
| S-4 | Ocena podsumowująca: evaluation of written reports from laboratory |
| S-5 | Ocena podsumowująca: evaluation of presentations during seminar |
| S-1 | Ocena formująca: evaluation of attendence at laboratory classes and working in the laboratory |
| S-2 | Ocena formująca: evaluation of knowledge and engagement in discussion during seminar |
| Kryteria oceny | Ocena | Kryterium oceny |
|---|
| 2,0 | |
| 3,0 | Student is able to finish all tasks during course with the help of the colleagues and a teacher. |
| 3,5 | |
| 4,0 | |
| 4,5 | |
| 5,0 | |