Energy and Environment Processes
The course aims to provide theoretical and practical knowledge about processes in the environment and energy, since concepts and definitions, the ability to solve problems related to reaction kinetics, hydraulic models, reactor types and the application of mass balances in steady state. At the end the student should :
- Understand and know the key environmental processes, identify critical aspects which relate for example to the sampling points, depending on the type of reactor that may be in question - will also be able to balance simplified industrial processes in the solid phase, liquid and gas.
Understanding basic concepts in the area of energy, and the processes involved in energy transformation, as in the production of electricity from renewable and non- renewable. Perform calculations and solve problems that demonstrate knowledge of the energy system and to assess the environmental sustainability and energy balances analyze the global, national, or a city.
João Miguel Dias Joanaz de Melo, Leonor Miranda Monteiro do Amaral
Weekly - 2
Total - 28
ARCEIVALA, S. J. (1981). Wastewater Treatment and Disposal: Engineering and Ecology in Pollution Control (1º ed.). Marcel Dekker, Inc.
FOGLER, H. SCOTT (1992) Elements of chemical reaction engineering. 2nd edition Prentice Hall
LEVENSPIEL, OCTAVE (1962) Chemical reaction engineering (2ª ed.). John Wiley & Sons.
MARA, D. (1976). Sewage Treatment in Hot Climates (1ª ed.). John Wiley & Sons.
WEBER, WALTER J. Jr.; DIGIANO, F.A. (1996) Process dynamics in environmental systems John Wiley & Sons.
BOYLE, G.,EVERETT, B and RAMAGE, J., 2003. Energy Systems and Sustainability, Oxford Univerity Press, New York
COULSON, J. M, Tecnologia química, Fundação Calouste Gulbenkian, 1975, Lisboa
HIMMELBLAU, D. M., RIGGS James B. Basic Principles and Calculations in Chemical Engineering (8th Edition) Prentice Hall
FOUST A. S., WENZEL, L. A., CLUMP, Maus, C. W. L. ANDERSEN, L. B. Principles of Unit Operations Wiley; 2nd ed. (1980)
Teaching methods are based on the combination of theoretical lectures, where the fundamental principles and concepts are introduced, with practical lectures where students develop their competencies. The latter include the presentation of homeworking and practical exercises on the course topics. Research and autonomous study are strongly encouraged
Evaluation comprehends two elements: 1) Test (55%); 2) Report and discussion of assigment "performance of water heating system" (45%).
The participation in the discussion is valued. Delays in submitting asssignments and unjustified absence in mandatory classes are subject to penalties.
Basic concepts in the area of environmental processes and systems. Reaction rates in elementary processes; Identification of reaction order. Modeling ideal systems; modeling non-ideal systems, introduction to mass balances in steady state: solid phase, liquid phase, with a component of the gas phase and recycling and purging. Using quantitative diagrams and simplified diagrams of equipment.
basic concepts in the area of energy as primary energy, final and useful, performance, and power consumption as well as the processes involved in the transformation of energy, including the production of electricity from renewable and non-renewable. Energy system and its environmental sustainability. Energy balance at different scales, including global, national, or a city.
Programs where the course is taught: