Publication in the Diário da República: Despacho n.º 15239/2016 - 19/12/2016
5 ECTS; 3º Ano, 1º Semestre, 30,0 T + 30,0 TP
- Marco António Mourão Cartaxo
Promote the knowledge of bioenergies, the production processes and their applications. Raise the awareness of its uses and its contribution to sustainable development. Know how to evaluate its advantages and disadvantages. Recognize its importance in the development of the country and Europe.
1. Introduction to bioenergies.
1.1. Bioenergy concept.
1.2. Photosynthesis and the carbon cycle.
1.3. Biomass: types, sources, characteristics, derived products.
1.4. Technologies available for the production of bioenergy.
1.5. European energy strategy.
1.6. Situation in Portugal and applicable legislation.
1.7. Advantages and disadvantages.
2. Description of liquid biofuel production processes.
2.3. Other liquid biofuels.
3. Description of gaseous biofuel production processes.
3.3. Other gaseous biofuels.
4. The use of biofuels in cogeneration.
4.1. Heat production.
4.2. Steam production.
4.3. Combined heat and power generation.
5. Other types of bioenergy.
6. Other types of renewable energy.
6.1. Solar energy.
6.2. Wind energy.
6.3. Hydro energy.
6.4. Geothermal energy.
6.5. Wave energy.
7. Comparison with fossil energy sources.
7.3. Natural gas.
In the theoretical-practical classes, exercises to apply the concepts introduced in the theoretical classes will be solved, case studies will be discussed and some laboratory works will be proposed:
Practical work 1: Production of biodiesel and study of some properties (2 classes).
Practical work 2: Bioethanol production and its characterization (2 classes).
1 - Continuous evaluation
1.1 - Practical assessment (AP)= 0.4A + 0.3B + 0.3C
A - Mandatory performance of all laboratory works.
B - Attendance and participation in classes.
C - Presentation of a work related to bioenergies.
1.2 - Theoretical assessment (TA): written test.
2 - Final evaluation: written test (TA).
Minimum final grade for approval of 10 values.
3 - Final classification (CF) = 0.65AT + 0.35AP
- Mousdale, D. (2008). Biofuels: Biotechnology, Chemistry, and Sustainable Development. New York: CRC Press
- Klass, D. (2009). Biomass for Renewable Energy, Fuels, and Chemicals. New York: Academic Press
- Demirbas, A. (2009). Biohydrogen For Future Engine Fuel Demands. London: Springer
Theoretical lectures, where the fundamental principles and concepts are described. Theoretical-practical classes where application exercises are solved, case studies are analyzed and laboratory works are performed.
Software used in class