Experimental Methods in Thermal Engineering
Keywords |
Classification |
Keyword |
OFICIAL |
Heat Transfer and Fluid |
Instance: 2008/2009 - 1S
Cycles of Study/Courses
Acronym |
No. of Students |
Study Plan |
Curricular Years |
Credits UCN |
Credits ECTS |
Contact hours |
Total Time |
MIEM |
39 |
Syllabus since 2006/2007 |
5 |
- |
6 |
56 |
160 |
Teaching language
Portuguese
Objectives
This course provides the students with notions about experimental methods and measurement techniques, in the fields of Fluid Mechanics and Heat Transfer, to allow the students to choose between available methods and instruments. Data analysis and measurement uncertainties are also treated, in order to correctly represent experimental results, and to adequately plan the experiments. The aim of the lab component is to give students the training in experimental work, to consolidate theoretical concepts and to promote the capacity to do team work.
Program
EXPERIMENTATION IN ENGINEERING: general considerations. MEASUREMENT SYSTEMS: General topics (revision). ANALYSIS OF EXPERIMENTAL DATA: Errors and uncertainties; presentation of experimental results. PRESSURE MEASUREMENT: Manometers and electric pressure transducers. VELOCITY MEASUREMENT: Pitot tube, thermal and optical anemometers. FLOW RATE MEASUREMENT: Flow-obstruction methods and electric transducers for volumetric and mass flow rate measurements. THERMOMETRY: Thermocouples, resistance and radiation thermometers (revision); errors of system/sensor interaction. HYGROMETRY: electrical, psychometric and condensation methods. LABORATORY ASSIGNMENTS.
Mandatory literature
Santos, A.S.; Métodos Experimentais em Fluidos e Calor (notas de apoio e fichas de trabalhos experimentais)
Coleman, Hugh W.;
Experimentation and uncertainty analysis for engineers. ISBN: 0-471-12146-0
Holman, J. P.;
Experimental methods for engineers. ISBN: 0-07-118165-2
Complementary Bibliography
Miller, Richard W;
Flow Measurement Engineering Handbook. ISBN: 0-07-042366-0
Guimarães, R.C. e J.A.S. Cabral; Estatística, McGraw-Hill, Lisboa,1999
Doebelin, Ernest O.;
Engineering experimentation. ISBN: 0-07-017339-7
Guide to the Expression of Uncertainty in Measurement, ISO, Genéve, 1995
Tropea, Cameron 340;
Springer handbook of experimental fluid mechanics. ISBN: 978-3-540-25141-5
Teaching methods and learning activities
Lectures, tutorials and laboratory sessions. The students must do several lab experiences and write the corresponding reports for evaluation.
Evaluation Type
Distributed evaluation with final exam
Assessment Components
Description |
Type |
Time (hours) |
Weight (%) |
End date |
Subject Classes |
Participação presencial |
56,00 |
|
|
Presentation of a subject |
Trabalho escrito |
16,00 |
|
|
Preparation of reports |
Trabalho escrito |
38,00 |
|
|
Final examination |
Exame |
3,00 |
|
|
|
Total: |
- |
0,00 |
|
Amount of time allocated to each course unit
Description |
Type |
Time (hours) |
End date |
Theoretical study and exercises |
Estudo autónomo |
40 |
|
Preparation of works |
Estudo autónomo |
10 |
|
|
Total: |
50,00 |
|
Eligibility for exams
General regulations and a mark of 10/20 in the set of the components of evaluation (A), (B) and (C).
Calculation formula of final grade
(A) Laboratory works and reports
(B) Performance in lab sessions
(C) Preparation of a formal written report and presentation of a subject
(D) Final exam
GRADE = 0.3 A + 0.1 B + 0.2 C + 0.4 D
Examinations or Special Assignments
I) Students with frequency obtained in previous years: the student does not need to attend classes.
II) Students without frequency: evaluation is identical to that of the regular students.
Special assessment (TE, DA, ...)
The general rules of the Faculty will be followed.
Classification improvement
Students with frequency can do a resit exam or a classification improvement exam, covering all the contents with a weigh of 40% for the final classification.