Energy and Environment
Acquisition of knowlegde, ability and expertise (1) Energetic needs and their dependence upon the industrial and economic development; (2) Management of available energetic resources in the short, middle and long run, their costs and supply constritions; (3) Development of the regional energies and development of new technologies to improve the energetic self-sufficient conditions of countries and regions.
Nuno Carlos Lapa dos Santos Nunes
Weekly - 4
Total - 56
R. Hinrichs and M. Kleinbach (2006) Energy: its use and the Environment. Thomson, 4th edition, 595 pp. (ISBN0-495-01085-5)
J.J.E. Santana e M.J. Resende (2006) Reflectir Energia. ETEP, 191 pp. (ISBN972-8480-14-8)
Teaching material made available in webpage of the course at Moodle@FCT
Theoretical and theoretical-practical lectures taught in classrooms with oral communication of the teaching programme and resolution of exercises. Teaching activity supported by a webpage in Moodle@FCT platform where all the teaching materials are available (slides of lectures; solved problems; additional problems; tests).
If there are ERASMUS students enrolled who do not speak Portuguese, the classes will be taught in English.
Two theoretical tests (TT1 and TT2) and two theorico-practical tests (TTP1 and TTP2).
The theoretical classification (CT) is obtained as follows:
CT = 0.50 * TT1 + 0.50 * TT2
The theorico-practical classification (CTP) is obtained as follows:
CTP = 0.50 * TTP1 + 0.50 * TTP2
The final classification (CF) is calculated as follows:
CF = 0.60 * CT + 0.40 * CTP
The student succeed if CF ≥ 9.50 (in 20). The student does not succeed if CF < 9.50 (in 20).
The students must do the Final Exam if CF < 9.50 (in 20), or no test was done by the student.
The students can do the Final Examination if they want to improve the CF score obtained in the tests.
1. Definition of Energy. Energy Use and the Environment. Patterns on the Energy Use.
2. Energy Resources. Consumption of Energy Resources. Oil - a limited and limiting resource.
3. Energy Save - economical and environmental considerations.
4. Mechanics and Energy - relation with fossil and renewable energies.
5. Energy Conservation - energy transfer through solid surfaces; energy conservation in houses.
6. Heat and Work - heat engines; yield rates; combustion systems.
7. Thermal Conversion Technologies - characteristics and environmental impacts.