Course - Engineering Thermodynamics 2 - TEP4125
TEP4125 - Engineering Thermodynamics 2
About
Examination arrangement
Examination arrangement: Written examination and Midterm
Grade: Letters
| Evaluation | Weighting | Duration | Grade deviation | Examination aids |
|---|---|---|---|---|
| Semesterprøve | 20/100 | 1 timer | ||
| Skriftlig eksamen | 80/100 | 4 timer |
Course content
Thermodynamics for mixtures and mixing processes. Moist air, heating and ventilation. Exergy, irreversibility, exergy analysis. Chemical reactions. Combustion, mass and energy conversion, heating values, flame temperature, exergy and irreversibility. Thermodynamic relations; relations between properities that can be measured (mass, volume, pressure, temperature) and properties that can not be measured (energy, enthalpy, entropy, etc.). Thermodynamic equilibrium; chemical equilibrium, inclomplete combustion, pollutant formation; phase equilibrium.
Learning outcome
Knowledge:
The student gets knowledge about:
Indoor climate, energy usage.
Thermal power generation.
Combustion and combustion products.
Processes for food engineering.
Gas processing, natural gas technology.
Energy utilization.
The student gets insight into:
- Thermodynamics of mixtures for ideal gases, including moist air .
- Combustion and other reactions.
- Thermodynamics of real gases and mixtures of real gases.
- Thermodynamic relations, properties and data.
- Exergy analysis.
- Chemical and phase equilibrium.
Skills:
The student should be able to:
- Determine thermodynamic properties for relevant substances and mixtures.
- Define and analyze thermodynamic systems using the 1st and 2nd laws.
- Put up the balances for mass, energy, entropy and exergy for technical systems and determine the involved quantities.
- Use the theory to solve practical engineering problems.
- Use the theory to understand processes in nature and environment.
- Further work on energy processes and other thermodynamic processes.
General competence:
The student should have an understanding for:
- How to use thermodynamics for old and new problems.
- How tables, diagrams and computer programs are made and should be used.
- That thermodynamics is general such that different technical devices and processes apply the the same basic knowledge.
Learning methods and activities
Lectures. Exercises (individual or in groups) based on Thermodynamics 1 and 2. A postponed written exam ("kontinuasjonseksamen") can be changed to an oral exam.
Compulsory assignments
- Exercises
Recommended previous knowledge
The course is based on and is a continuation of course TEP4115/ TEP4120 Thermodynamics 1.
Course materials
Moran and Shapiro: Fundamentals of Engineering Thermodynamics, 6th ed. (SI-version), Wiley. Note on phase equilibrium. Note on moist air.
Credit reductions
| Course code | Reduction | From | To |
|---|---|---|---|
| SIO1030 | 7.5 |
Version: 1
Credits:
7.5 SP
Study level: Third-year courses, level III
Term no.: 1
Teaching semester: SPRING 2014
Language of instruction: Norwegian
-
- Energy and Process Engineering
- Technological subjects
- Thermodynamics
Department with academic responsibility
Department of Energy and Process Engineering
Examination
Examination arrangement: Written examination and Midterm
- Term Status code Evaluation Weighting Examination aids Date Time Examination system Room *
- Spring ORD Semesterprøve 20/100
-
Room Building Number of candidates - Spring ORD Skriftlig eksamen 80/100 2014-05-19 15:00
-
Room Building Number of candidates - Summer KONT Semesterprøve 20/100
-
Room Building Number of candidates - Summer KONT Muntlig eksamen 80/100 2014-08-15
-
Room Building Number of candidates
- * The location (room) for a written examination is published 3 days before examination date. If more than one room is listed, you will find your room at Studentweb.
For more information regarding registration for examination and examination procedures, see "Innsida - Exams"