8.- FLUID MECHANICS

The branch of Fluid Mechanics studies the laws of the behavior of fluids at rest (fluid statics) or in motion (fluid dynamics) and their interaction processes with solid bodies. A fluid is considered to be a substance that can flow, in other words, move. Among them there are liquids (water, oil, alcohol, milk, sulfuric acid, gasoline) and gases (air, oxygen, nitrogen, helium, argon, methane, butane, natural gas).

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The fluids can be found everywhere in the everyday life, from the air that surrounds us, the water in the pools and for irrigation, the hydraulic system that allows us to brake in our car, heating or air conditioning, to our own blood system. Fluid studies are based on the well-known Archimedes and Pascal’s principles, Bernoulli’s equation, Venturi effect or Darcy's law, among others. The field of Fluid Mechanics Engineering that seeks applicability is studied empirically and mathematically, highlighting dimensionless numbers such as Reynolds, Prandtl, Mach and Froude. The importance of the fluid mechanics principles have left common inventions, such as water transfers by channels, maritime and air transport, hydraulic, thermal and pneumatic machines, solutions to the problems of cavitation or water hammer in pipes, hydraulic and pneumatic transmissions and controls, etc.

Given the relevance of fluids in diverse applications, it is important to know their nature, that is to say, the type of fluid and describe it based on its properties. The most significant ones are: pressure, temperature, volume, density, viscosity, compressibility, specific heat, thermal expansion and miscibility.

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FLUID MECHANICS SUBCATEGORIES

8.1.- FLUID MECHANICS MODULAR LABORATORY

Hydraulics is the branch of science that deals with the mechanical properties of fluids, and Fluid Mechanics is the basis of Hydraulics. EDIBON tries to meet, in a simple and practical way, the academic demands of teaching and learning of the Fluid Mechanics basis. To that end, it has a flexible...
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8.2.- MEASUREMENT

Metrology is the science that studies the measurement of magnitudes. It is based on the process that seeks to establish a relationship between a reference value and the object or phenomenon whose magnitude must be quantified and obtain an expression of the measurement.The measurements must be...
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8.3.- HYDROSTATICS

Hydrostatics is the branch of fluid mechanics that studies the associated phenomena and behavior that occur when a fluid is in a container and there are no forces that modify the state of the liquid at rest or in motion. By contrast, hydrodynamics studies fluids in motion.Hydrostatics is based on...
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8.4.- FLOW VISUALIZATION

The flow of fluids belongs to the branch of fluid dynamics. The studies focus on understanding the motion of fluids, determined by Newton's laws, the laws of conservation of mass and energy and other laws, such as the Stokes, the Reynolds number or Prandt, among others.The fluid motion and...
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8.5.- HYDRAULIC CHANNELS

Water is the fundamental element used by living beings and, since ancient times, different devices have been developed for its distribution and consumption, such as channels.The hydraulic or open channel or, simply, channel is defined as a piping system open to the atmosphere and used to...
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8.6.- AERODYNAMICS

Aerodynamics is the part of fluid mechanics that studies the gases in motion and the forces or reactions to which the bodies that interact with those gases are subjected. Apart from the importance of aerodynamics in itself, the value of its contribution to aeronautics must be added. According to...
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8.7.- FLUID MACHINES

A special app,lication area in fluid mechanics is the one responsible for the study of fluid machines. Fluid machines are devices that convert the energy of the fluid that passes through them or transfer energy to the fluid. That fluid can be gas, steam or liquid.Based on this definition, fluid...
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8.8.- FLUID PIPING SYSTEM

In engineering, a fluid piping system is defined as the structure or construction that transports a fluid from a source to the required destination. Two types of conduits are distinguished: closed conduits (pipes, tunnels or culverts) and open conduits (natural currents). Flow in closed conduits...
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8.9.- INSTALLATIONS AND MAINTENANCE

The needs of today's society are a challenge for any industry, since they have to be in continuous evolution and renewal to adapt to those needs.In recent years, as a result of the new industrial revolution or "Industry 4.0", the emergence of the "Industrial Internet of Things" ("IIoT") and the...
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8.1.- FLUID MECHANICS MODULAR LABORATORY 8.2.- MEASUREMENT 8.3.- HYDROSTATICS 8.4.- FLOW VISUALIZATION 8.5.- HYDRAULIC CHANNELS 8.6.- AERODYNAMICS 8.7.- FLUID MACHINES 8.8.- FLUID PIPING SYSTEM 8.9.- INSTALLATIONS AND MAINTENANCE
FLUID MECHANICS UNITS
1.- PHYSICS 2.- ELECTRONICS 3.- COMMUNICATIONS 4.- ELECTRICITY 5.- ENERGY 6.- MECHATRONICS & AUTOMATION 7.- MECHANICS 8.- FLUID MECHANICS 9.- THERMODYNAMICS & THERMOTECHNICS 10.- PROCESS CONTROL 11.- CHEMICAL ENGINEERING 12.- FOOD & WATER TECHNOLOGIES 13.- ENVIRONMENT 14.- BIOMEDICAL ENGINEERING LABORATORY ACCESSORIES CUSTOMIZED PILOT PLANTS
8.1.- FLUID MECHANICS MODULAR LABORATORY 8.2.- MEASUREMENT 8.3.- HYDROSTATICS 8.4.- FLOW VISUALIZATION 8.5.- HYDRAULIC CHANNELS 8.6.- AERODYNAMICS 8.7.- FLUID MACHINES 8.8.- FLUID PIPING SYSTEM 8.9.- INSTALLATIONS AND MAINTENANCE
8.1.1.- BASE UNITS 8.1.2.- MEASUREMENT 8.1.3.- HYDROSTATICS 8.1.4.- HYDRODYNAMICS 8.1.5.- FLOW VISUALIZATION 8.1.6.- HYDRAULIC MACHINES: PUMPS 8.1.7.- HYDRAULIC MACHINES: TURBINES 8.1.8.- HYDRAULIC PIPING SYSTEM 8.7.1.- PUMPS 8.7.2.- FANS 8.7.3.- TURBINES 8.7.4.- WIND TURBINES 8.7.5.- COMPRESSORS 8.9.1.- CUTAWAY MODELS 8.9.2.- DETACHABLE MODELS 8.9.3.- INSTALLATIONS AND MAINTENANCE
Showing 25-36 of 168 item(s)
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BERNOULLI'S THEOREM DEMONSTRATION - FME03
Available
8.1.4.- HYDRODYNAMICS
FME03
Bernoulli's Theorem Demonstration
Accessory of LIFLUBA
The Bernoulli's Theorem Demonstration unit, "FME03", designed by EDIBON is mainly composed of a circular section pipe with the shape of a truncated cone, transparent and with seven pressure taps that allows to measure, simultaneously, the static...
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ORIFICE DISCHARGE - FME04
Available
8.1.4.- HYDRODYNAMICS
FME04
Orifice Discharge
Accessory of LIFLUBA
The Orifice Discharge Unit, "FME04", designed by EDIBON allows the study of the different concentration, discharge and velocity coefficients for thin and/or thick wall for different types: colloidal, Venturi or diaphragm.The unit consists of a...
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FREE AND FORCED VORTEX - FME14
Available
8.1.4.- HYDRODYNAMICS
FME14
Free and Forced Vortex
Accessory of LIFLUBA
The Forced and Free Vortex unit, "FME14", designed by EDIBON, allows the study of the fluid rotation in relation to an axis and the study of circular flow at changing velocities.The unit has a cylindrical and transparent deposit with two inlet...
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ORIFICE AND FREE JET FLOW - FME17
Available
8.1.4.- HYDRODYNAMICS
FME17
Orifice and Free Jet Flow
Accessory of LIFLUBA
The Orifice and Free Jet Flow unit, "FME17", designed by EDIBON, allows the study of the different discharge and velocity coefficients in permanent or variable regime as well as the calculation of the discharge times.The unit consists of a...
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CAVITATION PHENOMENON DEMONSTRATION - FME19
Available
8.1.4.- HYDRODYNAMICS
FME19
Cavitation Phenomenon Demonstration
Accessory of LIFLUBA
The Cavitation Phenomenon Demonstration unit, "FME19", designed by EDIBON is composed of a Venturi tube with a rectangular cross section, one of its sides being transparent, allowing a better visualization of the cavitation phenomenon.It includes...
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VENTURI, BERNOULLI AND CAVITATION UNIT - FME22
Available
8.1.4.- HYDRODYNAMICS
FME22
Venturi, Bernoulli and Cavitation Unit
Accessory of LIFLUBA
The Venturi, Bernoulli and Cavitation unit, "FME22", has been designed by EDIBON to demonstrate some of the practical possibilities that can be achieved with a Venturi tube.This unit is designed for demonstrating some practical possibilities with...
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OSBORNE REYNOLDS' DEMONSTRATION - FME06
Available
8.1.5.- FLOW VISUALIZATION
FME06
Osborne Reynolds' Demonstration
Accessory of LIFLUBA
The Osborne Reynolds Demonstration Unit, "FME06", designed by EDIBON, consists of a cylindrical tank endowed with a nozzle, that is fitted to a methacrylate pipe, which allows the fluid visualization.A spillway guarantees the homogeneity of the...
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FLOW VISUALIZATION IN CHANNELS - FME09
Available
8.1.5.- FLOW VISUALIZATION
FME09
Flow Visualization in Channels
Accessory of LIFLUBA
The Flow Visualization in Channels unit, "FME09", designed by EDIBON, allows the visualization of liquid spillage phenomena in weirs and the study of objects submerged in a fluid stream (aerodynamics).The unit consists of a transparent...
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LAMINAR FLOW DEMONSTRATION - FME20
Available
8.1.5.- FLOW VISUALIZATION
FME20
Laminar Flow Demonstration
Accessory of LIFLUBA
The Laminar Flow Demostration unit, "FME20", designed by EDIBON, allows a complete study of the bi-dimensional problems associated with laminar flow. Thanks to an efficient system of dye injection we can observe the different models of flow. It...
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FLOW CHANNEL, LENGHT: 1 M - FME25
Available
8.1.5.- FLOW VISUALIZATION
FME25
Flow channel, lenght: 1 m
Accessory of LIFLUBA
The Flow Channel, lenght: 1 m, "FME25", designed by EDIBON, allows to study of the water behavior flowing through a channel.It basically consists of a channel of rectangular cross section with transparent walls, through which water flows.It has a...
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HORIZONTAL OSBORNE REYNOLDS DEMONSTRATION - FME31
Available
8.1.5.- FLOW VISUALIZATION
FME31
Horizontal Osborne Reynolds Demonstration
Accessory of LIFLUBA
The Osborne Reynolds Horizontal Demonstration Unit, "FME31", designed by EDIBON, allows to study the characteristics of a liquid flowing through a pipe and the Reynolds number in each of the liquid states.The FME31 unit makes it possible to study...
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SERIES/PARALLEL PUMPS - FME12
Available
8.1.6.- HYDRAULIC MACHINES: PUMPS
FME12
Series/Parallel Pumps
Accessory of LIFLUBA
The Series/Parallel Pumps unit, "FME12", designed by EDIBON, allows the study of the coupling between two series/parallel centrifugal pumps, obtaining the characteristic curves as well as the calculation of the water flow rate.The unit consists of...
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