Code: | L.EQ014 | Acronym: | TERI |
Keywords | |
---|---|
Classification | Keyword |
OFICIAL | Physics |
Active? | Yes |
Responsible unit: | Department of Chemical and Biological Engineering |
Course/CS Responsible: | Bachelor in Chemical Engineering |
Acronym | No. of Students | Study Plan | Curricular Years | Credits UCN | Credits ECTS | Contact hours | Total Time |
---|---|---|---|---|---|---|---|
L.EQ | 96 | Syllabus | 2 | - | 6 | 58,5 | 162 |
Teacher | Responsibility |
---|---|
Helena Isabel Sousa Passos |
Lectures: | 3,00 |
Recitations: | 1,50 |
Type | Teacher | Classes | Hour |
---|---|---|---|
Lectures | Totals | 1 | 3,00 |
Helena Isabel Sousa Passos | 3,00 | ||
Recitations | Totals | 2 | 3,00 |
Helena Isabel Sousa Passos | 3,00 |
To obtain knowledges to calculate volumetric and thermodynamic properties of pure fluids, essential for process design, and to evaluate the heat and work for different processes, including refrigeration, liquefaction, turbines and compressors, and the skills to perform energy balances to industrial processes.
At the end of this course students should be able to:
1. Perform calculations to predict thermodynamic properties and assess energy requirements for industrial processes.
2. Develop thinking and solving skills for engineering problems - including the ability to integrate the knowledge obtained in previous courses.
Material balances and unit systems.
Previous knowledge on: Fundamentos de Química I, Análise Matemática I, II, Álgebra.
INTRODUCTION: Basic concepts. Zeroth law of thermodynamics.
THE FIRST LAW OF THERMODYNAMICS: Statement of the first law of thermodynamics. Concept of internal energy, enthalpy and heat capacity. Heat and work calculations for reversible and irreversible processes.
VOLUMETRIC PROPERTIES OF PURE FLUIDS: Phase diagrams. Equations of state and generalized correlations.
HEAT EFFECTS: heat capacity, heats accompanying phase changes and heats of reaction.
ENERGETIC BALANCES: Heat and mass balances for processes with and without reactions.
THE SECOND LAW OF THERMODYNAMICS: Entropy and second and third laws of thermodynamics. Carnot power and refrigeration cycles. Heat pumps. Real cycles.
THERMODYNAMIC PROPERTIES OF PURE FLUIDS: Fundamental relationships. Helmholtz and Gibbs functions. Residual properties.
COMPRESSORS AND TURBINES: Power requirements and isentropic efficiency for compressors and turbines. Multistage compression.
BOILERS: Operation and thermal efficiency.
REFRIGERATION AND LIQUEFACTION.
1) Lectures (T) to introduce and explain the theory and solving some problems;
2) Lectures (TP) to solve and discuss proposed exercises;
3) Office-hours.
Designation | Weight (%) |
---|---|
Exame | 70,00 |
Teste | 30,00 |
Total: | 100,00 |
Designation | Time (hours) |
---|---|
Estudo autónomo | 99,00 |
Frequência das aulas | 63,00 |
Total: | 162,00 |
Students must follow FEUP's regulations concerning attainment of frequency.
Students can choose to be evaluated through a distributed evaluation system with a final exam or solely through a final exam.
The distributed evaluation includes:
The final grade (FG) will be calculated as follows: FG = 0.3*TPE + 0.7*FE
Not applicable.
Not applicable.
Final exam.
Final exam.