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Syllabus 2018-19 - 14012010 - Hydraulics (Hidráulica)
- Level 1: Tutorial support sessions, materials and exams in this language
- Level 2: Tutorial support sessions, materials, exams and seminars in this language
- Level 3: Tutorial support sessions, materials, exams, seminars and regular lectures in this language
| DEGREE: | Grado en Ingeniería civil |
| FACULTY: | SCHOOL OF ENGINEERING OF LINARES |
| ACADEMIC YEAR: | 2018-19 |
| COURSE: | Hydraulics |
| NAME: Hydraulics | |||||
| CODE: 14012010 | ACADEMIC YEAR: 2018-19 | ||||
| LANGUAGE: English | LEVEL: 1 | ||||
| ECTS CREDITS: 4.5 | YEAR: 2 | SEMESTER: PC | |||
| NAME: PÉREZ LATORRE, FRANCISCO JOSÉ | ||
| DEPARTMENT: U121 - INGENIERÍA MECÁNICA Y MINERA | ||
| FIELD OF STUDY: 600 - MECÁNICA DE FLUIDOS | ||
| OFFICE NO.: D - 008 | E-MAIL: fjperez@ujaen.es | P: 953648526 |
| WEBSITE: www.fluidsujaen.es | ||
| ORCID: https://orcid.org/0000-0001-6831-1380 | ||
| LANGUAGE: - | LEVEL: 1 | |
LESSON 1: DEFINITIONS AND PRELIMINARY CONCEPTS
1.1.- HYDRAULIC SCOPE
1.2.- HISTORICAL DEVELOPMENT
1.3.- DIMENSIONS AND LESSONS
1.4.- BASIC CONCEPTS
LESSON 2: PROPERTIES OF LIQUIDS
2.1.- DEFINITION OF FLUID. - DISTINCTION BETWEEN A SOLID AND A FLUID. - DISTINCTION BETWEEN A GAS AND A LIQUID
2.2.- DENSITY, SPECIFIC WEIGHT, SPECIFIC VOLUME AND RELATIVE DENSITY
2.3.- COMPRESSIBLE AND INCOMPRESSIBLE FLUIDS. - COMPRESSABILITY OF LIQUIDS
2.7.- VISCOSITY.
2.8. SURFACE TENSION
2.9. VAPOR PRESSURE OF LIQUIDS
LESSON 3: HYDROSTATIC
3.1.- INTRODUCTION.
3.1.1.- Balance concept.
3.2.- VARIATION OF PRESSURE IN A FLUID IN REST. –
3.3 ABSOLUTE PRESSURE AND MANOMETRIC PRESSURE. .
3.4.- MEASUREMENT OF THE PRESSURE
3.5.- FORCE OVER A FLAT AREA.
LESSON 4: CHARACTERISTICS OF LIQUID FLOW. FUNDAMENTAL EQUATIONS
4.1.- DEFINITIONS.
4.2.- MAIN TYPES OF FLOW
4.3. CONTINUITY EQUATION.
4.4. EQUATION OF ENERGY. Bernoulli's theorem. Applications of Bernoulli's Theorem
4.5. POWER IN THE FLUX FLUX.
4.6. PRINCIPLE OF AMOUNT OF MOVEMENT.
LESSON 5: SEMEJANZA AND DIMENSIONAL ANALYSIS
5.1 EXPERIMENTATION IN HYDRAULICS. DIMENSIONAL EQUATIONS. PI BUCKINGHAM TEOREMA
5.2.- ADIMENSIONALS IN HYDRAULICS
5.3.- TESTS: PROTOTYPE AND MODEL
5.4.- LIKENESS OF MODELS. DYNAMIC SEMEJANZA AND GRADIENT OF PRESSURES: NUMBER OF EULER.- DYNAMIC SEMEJANZA WITH PREDOMINIO OF THE GRAVITY: NUMBER OF FROUDE. DYNAMIC LIKENESS WITH PREDOMINANCE OF VISCOSITY: NUMBER OF REYNOLDS.
LESSON 6: FORCED DRIVES IN PERMANENT REGIME
6.1.- INTRODUCTION: LAMINAR AND TURBULENT FLOW, NUMBER OF CRITICAL REYNOLDS, HYDRAULIC RADIO, HYDRAULIC DIAMETER
6.2.- LOAD LOSS IN CONSTANT TRANSVERSAL SECTION DUCTS
6.3. - LOSS OF LOAD IN CIRCULAR DUCTS. - EQUATION OF DARCY WEISBACH
6.4.- CALCULATION OF LOSS OF LOAD IN LAMINAR REGIME. CALCULATION OF LOAD LOSS IN TURBULENT REGIME
6.5.- FORMULA OF COLEBROOK AND DIAGRAM OF MOODY
6.6.- FORM OF CALCULATION IN THE BASIC PROBLEMS IN PIPES
6.7.- LOCAL LOAD LOSSES (SECONDARY, ACCIDENTAL, ACCESSORY)
LESSON 07: VARIABLE REGIME IN PRESSURE PIPES.GOLPE DE ARIETE
7.1. INSTANT CLOSURE
7.2.- GRADUAL CLOSURE.
7.3. IMPULSIONS.
LESSON 8: CHANNELS
8.1 .- INTRODUCTION.-
8.2.- TYPES OF CHANNELS. .- TYPES OF FLOW. .- SPEED DISTRIBUTION
8.3.- GEOMETRIC CHARACTERISTICS OF SIMPLE SECTIONS
8.4.- EQUATION OF THE ENERGY IN THE PERMANENT FLOW
8.5.- CUTTING EFFORT ON THE WALLS OF THE PERMANENT AND UNIFORM REGIME. ADMISSIBLE SPEEDS
8.6.- LOSS OF CONTINUOUS LOADING AND LOCALIZED LOSSES
8.7.- VARIATION OF FLOW AND SPEED IN THE WAY
8.8.- HYDRAULICALLY OPTIMAL SECTION
8.9.- PERMANENT NON-UNIFORM REGIME IN CHANNELS
LESSON 9: TURBOMACHINE.
1.- TURBOMACHINE BASIS AND DEFINITION
2.- TECHNICAL WORK OR INTERIOR WORK IN THE AXIS. .- CLASSIFICATION ACCORDING TO THE DIRECTION OF THE FLOW IN THE RODETE
3.- LOSSES, POWERS AND PERFORMANCES
4.- SEMEJANZA IN TURBOMCHINES
LESSON 10: PUMPS. LIFTING STATIONS
- INTRODUCTION
2.- TYPES OF PUMPS. - PARAMETERS INVOLVED IN THE SELECTION OF A PUMP
3.- REAL CHARACTERISTIC CURVE H-Q.- CURVES OF POWERS AND GLOBAL PERFORMANCE
4.- OPERATION AT VARIABLE ANGULAR SPEED
5.- OPERATING POINT OF A PUMP
6.- COUPLING OF PUMPS TO THE NETWORK
7.- CAVITATION IN PUMPS
|
A1 - Exposition classes in a large group
|
29.0 |
43.5 |
72.5 |
2.9 |
|
|
A2 - Classes IN PRACTICE GROUPS
|
14.0 |
21.0 |
35.0 |
1.4 |
|
|
A3 - Collective tutorials
|
2.0 |
3.0 |
5.0 |
0.2 |
|
|
Totals |
45.0 |
67.5 |
112.5 |
4.5 |
Students with special educational needs should contact the Student Attention Service (Servicio de Atención y Ayudas al Estudiante) in order to receive the appropriate academic support
The S1 aspect evaluates the learning results Resul -09 and 10 and the competences CC7 and CG5
The S2 aspect evaluates the learning results Resul -09 and 10 and 11 and the competences CC7 and CG5
The S3 aspect evaluates the learning results Resul -05 and 11 and the competences CC7 and CG5
|
S1 |
Active participation in the class. - Participation in the debates - Participation in the group work |
Observation and notes of the teacher |
10.0 |
10.0 |
10.0 |
|
S2 |
- Mastery of the theoretical and operational knowledge of the subject. |
Theoric exam |
70.0 |
70.0 |
70.0 |
|
S3 |
Entrega de los casos-problemas bien resueltos. |
Delivery of cases-well-solved problems |
20.0 |
20.0 |
20.0 |
- Fluid dynamics : an introduction. Edition: -. Author: Rieutord, Michel. Publisher: Cham : Springer, 2015 (Library)