[Online course] APPLIED HYDRAULIC. BOMBEIG DRIVES AND STATIONS

To technicians, engineers and students in general, who want to expand their knowledge in hydraulics, pumping stations and pipelines.

In particular, technicians engaged in project engineering, assembly and commissioning of facilities and those who maintain and operate processes with pumping stations, hydraulic networks and water distribution systems, as well as whether in industrial, municipal or agricultural sectors.

Achieve mastery of hydraulic systems (mainly pipes and pumping stations, not to mention valves) from a practical point of view, with a long experience, and without ignoring theoretical knowledge.

The student will learn to:

• Design pumping stations, pipes and fittings.
• To calculate the load losses in pipes and accessories.
• To specify the pumps required in the hydraulic system.
• To assemble and start up the pumping stations with criteria of durability and reliability of the equipment. pumping stations.
• To correct the deficiencies or future variations of the modifications in the design of the pumping stations, once realized the start-up of the installation.

00. MONITORING AND EVALUATION

• Generalities
• Course development
• Doubts
• Exam
• Exam evaluation
• Qualification and delivery of diplomas
• Exam answers

0. APPLIED HYDRAULICS

• Course objectives
• Course documentation
• Who is it aimed at
• Level of training acquired
• Types of teaching
• Types of training
• Evaluation test
• The reason for the title "applied hydraulics"
• The reason for the subtitle "pipes and pumping stations"
• Bibliography used
• Presentation of the trainer
• Work experience related to the course
• Pedagogical experience
• Other trainer courses
• index

01. DOUBTS AND ANSWERS

• Introduction
• Doubts - Answers

1. BASIC PHYSICAL CONCEPTS

• Introduction
• International system of units
• Diameter-surface ratio
• Prefixes of the international system of units
• Greek alphabet
• Forms of matter. Fluids
• Specific or absolute density
• Specific volume
• Weight
• Specific weight
• Relative density
• Dynamic viscosity or absolute viscosity
• Kinematic viscosity
• Surface tension
• Vapor pressure
• Problems 1
• Table of physical properties of water and air

2. PRESSURE

• Definition
• Relative pressure
• Atmospheric pressure
• Absolute pressure
• Vacuum pressure
• Graphic representation of pressures
• Steam pressure
• Properties of pressure
• Pressure units

3. HYDROSTATICS

• Fundamental equation of hydrostatics
• Conclusions
• Static conduits
• Laboratory equipment
• Problems 3

4. HYDRODYNAMICS

• Speed field
• Stationary regime
• Transitional regime
• Other software programs
• Flow
• Continuity equation
• Uniform and non-uniform current
• Laminar flow
• Turbulent flow
• Bernoulli equation (for ideal fluid)
• Real fluid
• Generalized Bernoulli equation (for a real liquid)
• Generalized Bernoulli equation (for a gas)
• Conclusions
• Reynolds number
• Conclusions
• Problems 4

5. LOAD LOSS

• Generalities
• Primary (or surface)
• Secondary (or form)
• Conclusions
• Pressures in the pipes. Definitions
• Closed pipes. Calculation of primary load losses
• Calculation of secondary losses
• Calculation of total load losses
• Optimization of pipe diameter
• Conclusions
• Problems 5

6. DRIVING

• Electrical analogy
• Characteristics of the pipes
• Conduits (without geometry)
• Drives (with geometry)
• Problems 6

7. BOMBS

• Types of pumps
• Total manometric pumping height
• Pump coupling
• Laws of similarity
• Absolute net suction height
• NSPH
• NPSH required
• NPSH available
• Conclusions on the NPSH
• Powers
• Pump losses
• Engine losses
• Selection of pumps
• Pump reception tests
• Electrical and hydraulic tests at the pumping station
• Problems 7

8. ENEMIES OF HYDRAULIC SYSTEMS

• Cavitation
• Aries
• Occupational risk prevention and industrial safety
• Air and depressions in the pipes
• Volume of air inlet or outlet to suction cups
• Suction cup sizing
• Minimum submersion
• Optimal pump operating point
• Conclusions
• Problems 8

9. PUMPING STATIONS

• General considerations
• Design of a pumping station
• Technical specifications
• Assembly of the installation and commissioning
• Suction tanks for vertical pumps

10. CONTROL OF “Q” AND “H” IN HYDRAULIC SYSTEMS

• Pumping station
• Bombs
• Driving
• Determination of QH parameters in pipelines and pumping stations

11. VALVES

• Type
• Valves pressure. Definitions
• Applications in hydraulic systems
• Hydraulic control valves
• Type of hydraulic control
• Hydraulic characteristics of the valves

12. DOMESTIC WATER SUPPLY

• The technical code of the building
• Installation properties
• Minimum supply conditions
• Water treatment system
• Domestic hot water installation (acs)
• Other conditions
• Installation components
• Annex

13. OPEN DUCTS OR CHANNELS

• Introduction
• Loss of load
• Hydraulic radio
• Speed on a channel
• Flow in channels
• Channel problems with uniform motion
• Problems 13
• Annex

14. SOLUTION OF THE ANNEXED PROBLEMS

• GENERAL ANNEXES

(18 annexes)

• ANNEXES REGULATIONS

HS 4 water supply buildings

RD 140 2003 water quality human consumption

• VIDEOS

Video attachments (10 attachments)

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The cancellation must be communicated 48 hours before the start of the training via e-mail formacio@cetit.org, if 100% of the amount of the training action will not be invoiced.

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