LIFLUBA Basic Fluids Mechanics Integrated Laboratory
INNOVATIVE SYSTEMS
With LIFLUBA (Basic Fluids Mechanics Integrated Laboratory), EDIBON tries to give answer to the academic demand for teaching and learning the basics of Fluids Mechanics, in an easy and practical way. With the LIFLUBA modules series, students accomplish experiments that clearly show them the laws of Hydraulics, and they acquire a valuable experience in the use of hydraulics instrumentation and tools, in a natural, pleasant and uncomplicated way.
Laboratories
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General Description
Hydraulics is the branch of science that deals with the mechanical properties of fluids, and Fluid Mechanics provides the foundation for hydraulics.
With LIFLUBA (Basic Fluids Mechanics Integrated Laboratory), EDIBON tries to give answer to the academic demand for teaching and learning the basics of Fluids Mechanics, in an easy and practical way. With the LIFLUBA modules series, students accomplish experiments that clearly show them the laws of Hydraulics, and they acquire a valuable experience in the use of hydraulics instrumentation and tools, in a natural, pleasant and uncomplicated way.
EDIBON presents a flexible and modular-based system for learning Basic Fluid Mechanics.
Any desired configuration can be chosen (see next page), according to the working mode, areas of study and numbers of working posts.
Being a modular and open system, it is very economical and may be enlarged depending on required needs, all previously acquired systems are fully compatible and valid.
Accessories
Basic Hydraulic Feed System
Flow over Weirs
Dead Weight Calibrator
Flow Meter Demonstration
Depression Measurement System (vacuum gauge)
Transparent Vortex Flow Meter
Vortex Flow Meter
Static Pitot Tube
Fluid Statics and Manometry
Rotameter
Data Acquisition System and Sensors
Hydrostatic Pressure
Metacentric Height Demostration
Metacentric Height Demostration of a "V" Shaped Floating Body
Metacentric Height Demostration of a "U" Shaped Floating Body
Pascal's Principle Demonstration
Fluid Properties
Jet Impact on Surfaces
Bernoulli's Theorem Demonstration
Orifice Discharge
Free and Forced Vortex
Orifice and Free Jet Flow
Cavitation Phenomenon Demonstration
Venturi, Bernoulli and Cavitation Unit
Osborne Reynolds' Demonstration
Flow Visualization in Channels
Laminar Flow Demonstration
Flow channel, lenght: 1 m
Horizontal Osborne Reynolds Demonstration
Series/Parallel Pumps
Centrifugal Pump Characteristics
Pelton Turbine
Radial Flow Turbine
Axial Flow Turbine
Francis Turbine
Kaplan Turbine
Energy Losses in Bends
Energy Losses in Pipes
Water Hammer
Basic Pipe Network Unit
Unit for the Study of Porous Beds in Venturi Tubes (Darcy´s Equation)
SUPPLEMENTARY EQUIPMENT
Pelton Turbine
Radial Flow Turbine
Axial Flow Turbine
Francis Turbine
Kaplan Turbine
Data Acquisition System and Sensors
Quality

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