Organic Chemistry with energy applications
Additional course evaluations for KE0068
Academic year 2020/2021Organic Chemistry with energy applications (KE0068-30255) 2021-01-18 - 2021-03-21
Academic year 2019/2020Organic Chemistry with energy applications (KE0068-30058) 2020-01-20 - 2020-03-22
KE0068 Organic Chemistry with energy applications, 5.0 CreditsOrganisk kemi med energitillämpningar
Education cycleFirst cycle
Advanced study in the main fieldFirst cycle, less than 60 credits from first-cycle courses as entry requirements(G1F)
Prior knowledgeBasic knowledge and skills in general chemistry
ObjectivesThe aim of this course is to give the basic concepts of organic chemistry and its applications for energy production and energy technology.
After completed course, the student shall be able to:
- describe, orally and in writing, the general laws and concepts of organic chemistry, especially the ones which are of importance in energy production
- account for names, formulae and properties of the most important organic compounds, as well as the typical reactions of these.
- be able to briefly describe technical processes used for refining organic substances
- account for some bio-based substances and chemical methods used for substituting raw materials of fossile origin
- carry out experiments based on some common experimental techniques used in chemistry
- analyse, report and present chemical results both in written and in oral form.
ContentThe course is based on lectures, exercises, laboratory practicals as well as site visits to different industries or guest lectures. Course introduction, lab introduction, laboratory practicals as well as industry site visits or guest lectures are compulsory.
The following aspects or techniques are dealt with during lectures or lab exercises:
- Occurrence, reactions, stereochemistry, physical and chemical properties of the following classes of compounds: hydrocarbons, alcohols, ethers, aldehydes, ketones, carboxylic acids and their derivatives and polymers.
- Chemical methods such as refinement and distillation, synthesis and derivatization and chromatography.
Examples of organic chemicals for energy storage, as fuel and as starting material for important materials are given. Exercises involving calculations on energy content and energy density as well as yields for various chemicals and chemical processes are also performed.
Formats and requirements for examinationWritten examination and written and oral presentation of compulsory exercises.
Passed written examination and completed compulsory course components
- If the student fails a test, the examiner may give the student a supplementary assignment, provided this is possible and there is reason to do so.
- If the student has been granted special educational support because of a disability, the examiner has the right to offer the student an adapted test, or provide an alternative assessment.
- If changes are made to this course syllabus, or if the course is closed, SLU shall decide on transitional rules for examination of students admitted under this syllabus but who have not yet passed the course.
- For the examination of a degree project (independent project), the examiner may also allow the student to add supplemental information after the deadline. For more information on this, please refer to the regulations for education at Bachelor's and Master's level.
- The right to take part in teaching and/or supervision only applies to the course date to which the student has been admitted and registered on.
- If there are special reasons, the student may take part in course components that require compulsory attendance at a later date. For more information on this, please refer to the regulations for education at Bachelor's and Master's level.
Additional informationThe prerequisites can be fulfilled by having followed the course General Chemistry and Chemical Sources of Energy - KE0049 and
- having passed at least half of the course modules in KE0049
- having performed and passed all laboratory work and all the lab reports in KE0049