Course - Engineering Thermodynamics 1 - TEP4120
TEP4120 - Engineering Thermodynamics 1
About
Examination arrangement
Examination arrangement: Written examination
Grade:
| Evaluation | Weighting | Duration | Grade deviation | Examination aids |
|---|---|---|---|---|
| Written examination | 100/100 | 4 hours | D |
Course content
Concepts and definitions; the thermodynamic system, properties, phase equilibrium of pure substances, equations of state for gases, tables of
thermodynamic properties, work and heat. First law of thermodynamics; thermodynamic cycles, change of state, internal energy, enthalpy, specific heat; open systems, steady-state and transient processes. Second law of thermodynamics; reversible and irreversible processes, the Carnot cycle, the thermodynamic temperature scale, entropy, the entropy production concept. Thermodynamic power cycles, refrigeration cycles, the Otto cycle and the Diesel cycle, the gas-turbine process. Introduction to exergy analysis.
Learning outcome
Knowledge:
The course provides the student with knowledge about:
- Conservation laws for mass and energy (including the 1st law of Thermodynamics).
- Forms of energy such as work (power) and heat, internal energy and enthalpy.
- Entropy and the 2nd law of thermodynamics.
- Reasons for thermodynamic losses in the form of irreversibilities.
- The quality of different forms of energy measured as the ability to produce work.
- Destruction of energy quality in processes.
- Ideal gas model, its assumptions, applications and limitations.
- Different cyclic processes such as Carnot, Rankine, Otto, Diesel and Brayton.
– The course gives the student insight about:
- Operation of steam and gas based power stations, internal combustion engines, heat pumps and refrigeration cycles.
- The main components of heat & power processes, such as steam and gas turbines, compressors, pumps, fans, heat exchangers and valves.
- The ability of fluids to change phase (solid, liquid and gas).
Skills:
The course should enable the student to:
- Estimate thermodynamic properties for systems by the use of tables and graphical diagrams.
- Calculate efficiencies for power producing and power consuming processes.
- Describe thermodynamic processes in graphical diagrams such as pv, Tv og Ts.
General competence:
The course should give the student:
- Basic competence that constitute central elements in other courses focusing on energy systems and industrial processes.
- Understanding of systems and the capability to evaluate the efficiency of processes w.r.t. energy and exergy (energy quality).
- Overview of processes for power production, heating (heat pumps) and cooling (refrigeration cycles).
Learning methods and activities
Lectures. Weekly assignments. One group assignment during the semester (a larger thermodynamic analysis/laboratory assignment).
Compulsory assignments
- Øvinger
- Semesteroppgave
Further on evaluation
Approved compulsory activity (assignments and semester project) will be valid for all later exams in the course.
You have to pass the semester assignment and 2/3 of the weekly assignments in order to take the final exam. A postponed written exam ("kontinuasjonseksamen") can be changed to an oral exam.
Recommended previous knowledge
None.
Course materials
Moran, Shapiro et al.: Principles of Engineering Thermodynamics, Wiley, 8th edition SI (editions 5, 6 and 7 also work, notice that some are called "Principles of", but the book is the same). Truls Gundersen: An Introduction to the Concept of Exergy and Energy Quality. Written suggested solutions are available after each assignment.
Credit reductions
| Course code | Reduction | From | To |
|---|---|---|---|
| SIO1027 | 7.5 | ||
| TEP4115 | 7.5 | ||
| TFNE2001 | 7.5 |
No
Version: 1
Credits:
7.5 SP
Study level: Intermediate course, level II
Term no.: 1
Teaching semester: AUTUMN 2018
Term no.: 1
Teaching semester: SPRING 2019
Language of instruction: Norwegian
Location: Trondheim
- Energy and Process Engineering
- Thermodynamics
- Technological subjects
- Jonas Pasblo Moeck
- Lars Olof Nord
- Laurent Francis Ghislain Georges
- Natasa Nord
- Odne Stokke Burheim
- Olav Bolland
- Terese Løvås
- Trygve Magne Eikevik
Department with academic responsibility
Department of Energy and Process Engineering
Examination
Examination arrangement: Written examination
- Term Status code Evaluation Weighting Examination aids Date Time Examination system Room *
- Autumn ORD Written examination 100/100 D 2018-12-21 09:00
-
Room Building Number of candidates Hall A Utleirahallen 0 SL274 Sluppenvegen 14 0 SL355 Sluppenvegen 14 0 SL120 Sluppenvegen 14 0 - Spring ORD Written examination 100/100 D 2019-05-24 09:00
-
Room Building Number of candidates Hall B Utleirahallen 0 SL238 Sluppenvegen 14 0 - Summer UTS Written examination 100/100 D
-
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"