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.jpg "Floculator ( Jar Test Apparatus) Laboratory Equipments Supplies")
Has been specially designed for use in water treatment plants to correctly estimate the dosing of alum and such other cogulants for treatment of water. It consist of electronically controlled variable speed electronic motor with timing belt driven mechanism. Speed controller is provided to control the speed of four/six stirrers from 5 to 150 RPM. Stainless steel/Brass paddles are provided.A) Two Jar Test Apparatus....
Product Code: NLE-Export-132068 - (Floculator ( Jar Test Apparatus) Laboratory Equipments Supplies)1.jpg "Floculator ( Jar Test Apparatus) Laboratory Equipments Supplies")
has been specially designed for use in water treatment plants to correctly estimate the dosing of alum and such other cogulants for treatment of water. It consist of electronically controlled variable speed electronic motor with timing belt driven mechanism. Speed controller is provided to control the speed of four/six stirrers from 5 to 150 RPM. Stainless steel/Brass paddles are provided. B) Six Jar Test Apparatus....
Product Code: NLE-Export-132069 - (Floculator ( Jar Test Apparatus) Laboratory Equipments Supplies)
Floculator- Engineering Lab Training Systems....
Product Code: NLE-Export-270007 - (Floculator- Engineering Lab Training Systems)
.jpg "Floor Standing Type")
Flour Moisture Meters For Testing Lab Workshop....
Product Code: NLE-Export-870005 - (Flour Moisture Meters For Testing Lab)
Flow ability Tester Full Set and With Additional all Accessories....
Product Code: NEL0445 - (Flow ability Tester Full Set and With Additional all Accessories)
Technical Description The accessory is intended for use with the test stand.....
Product Code: NLE-Export-204008 - (Flow Around a Bend- Engineering Lab Training Systems)
Flow Boiling Demonstration- Engineering Lab Training Systems Ministerial Tender Board Equipment, Ministry of Education and Vocational Training Lab Tenders Suppliers India....
Product Code: NLE-Export-075004 - (Flow Boiling Demonstration- Engineering Lab Training Systems)
STRUCTURAL SPECIFICATIONS: 1) Stainless structure. 2) Screws, nuts, plates and all the metallic elements in stainless steel. 3) Diagram in the front panel with similar distribution to the elements in the real unit. 4) Quick connections for adaptation to feed hydraulics source. Fluid Mechanics Lab Equipments manufacturers....
Product Code: NLE-Export-205051 - (Flow Channel, 1m. length- Engineering Lab Training Systems)
Technical Description The unit is used to demonstrate flow over weirs and the streamlines around different drag models.....
Product Code: NLE-Export-205031 - (Flow Channel- Engineering Lab Training Systems)
Flow Channels (section: 80 x 300 mm).(several lengths) EXERCISES AND PRACTICAL POSSIBILITIES Some Practical Possibilities of the Unit: (in function of the accessories used) 1.-Measurement of the water height and the velocity along the channel. 2.-Measurement of the flow with weirs of thin wall. 3.-Measurement of flow with changes in the channel section. 4.-Measurement of flow using Venturi flume. 5.-Control of the flow by gates. 6.-Level control using syphons. 7.-Flow on overflow dams. 8.-Flow among the pillars of a bridge. 9.-Connection of a channel to a culvert. 10.-Characterization of the hydraulic jump. 11.-Profiles of the water free surface. 12.-Investigation of flow and supercritical flow states. 13.-Measurement of water levels. 14.-Discharge processes on an underwater weir. 15.-Amount of energy in flows in open channels. 16.-Function of a syphon weir. 17.-Flow rate and drain coefficients of a syphon weir. 18.-Pipe flows. 19.-Comparison of overflow and syphon weirs. 20.-Observation of the throw of the water. 21.-Generation of different flow states by damming the down-stream water. 22.-Observation of the flow under an undershot weir: -Observation of hydraulic motion on discharge. 23.-Relationship between dam height and discharge. 24.-Observation of discharges under a radial gate -Observation of hydraulic motion on discharge. 25.-Hydrostatic pressure on a weir. 26.-Investigations on waves. 27.-Behaviour of structures in rough sea. 28.-Applying and understanding Manning’s formula. 29.-Understanding sub- and super-critical flow. 30.-Learning how to apply force-momentum and steady flow energy equations to simple flow situations. 31.-Investigation of the transition from running to shooting flow. Other possible practices: 32.-Filling of the Pitot tube. 33.-Filling of the venturi meter with analog output. 34.-Filling of the manometric tubes. 35.-Calculation of water flow. 36.-Use of level gauge for measurement of the water height. Fluid Mechanics Lab Equipments manufacturers....
Product Code: NLE-Export-205086 - (Flow Channels- Engineering Lab Training Systems)
EXERCISES AND PRACTICAL POSSIBILITIES Some Practical Possibilities of the Unit: (in function of the accessories used) 1.-Measurement of the water height and the velocity along the channel. 2.-Measurement of the flow with weirs of thin wall. 3.-Measurement of flow with changes in the channel section. 4.-Measurement of flow using Venturi flume. 5.-Control of the flow by gates. 6.-Level control using syphons. 7.-Flow on overflow dams. 8.-Flow among the pillars of a bridge. 9.-Connection of a channel to a culvert. 10.-Characterization of the hydraulic jump. 11.-Profiles of the water free surface. 12.-Investigation of flow and supercritical flow states. 13.-Measurement of water levels. 14.-Discharge processes on an underwater weir. 15.-Amount of energy in flows in open channels. 16.-Function of a syphon weir. 17.-Flow rate and drain coefficients of a syphon weir. 18.-Pipe flows. 19.-Comparison of overflow and syphon weirs. 20.-Observation of the throw of the water. 21.-Generation of different flow states by damming the down-stream water. 22.-Observation of the flow under an undershot weir: -Observation of hydraulic motion on discharge. 23.-Relationship between dam height and discharge. 24.-Observation of discharges under a radial gate: -Observation of hydraulic motion on discharge. 25.-Hydrostatic pressure on a weir. 26.-Investigations on waves. 27.-Behaviour of structures in rough sea. 28.-Applying and understanding Manning’s formula. 29.-Understanding sub- and super-critical flow. 30.-Learning how to apply force-momentum and steady flow energy equations to simple flow situations. 31.-Investigation of the transition from running to shooting flow. Other possible practices: 32.-Filling of the Pitot tube. 33.-Filling of the venturi meter with analog output. 34.-Calculation of water flow. 35.-Use of level gauge for measurement of the water height. Fluid Mechanics Lab Equipments manufacturers....
Product Code: NLE-Export-205088 - (Flow Channels- Engineering Lab Training Systems)
Flow Control Demonstration Unit- Engineering Lab Training Systems....
Product Code: NLE-Export-210017 - (Flow Control Demonstration Unit- Engineering Lab Training Systems)
Flow Control Trainer- Engineering Lab Training Systems....
Product Code: NLE-Export-210022 - (Flow Control Trainer- Engineering Lab Training Systems)
Flow Level Control Demonstration Unit- Engineering Lab Training Systems....
Product Code: NLE-Export-210020 - (Flow Level Control Demonstration Unit- Engineering Lab Training Systems)
Flow Meter Demonstration....
Product Code: NLE-Export-180008 - (Flow Meter Demonstration)
STRUCTURAL SPECIFICATIONS: 1) Stainless structure. 2) Screws, nuts, plates and all the metallic elements in stainless steel. 3) Diagram in the front panel with similar distribution to the elements in the real unit. 4) Quick connections for adaptation to feed hydraulics source. Fluid Mechanics Lab Equipments manufacturers....
Product Code: NLE-Export-205052 - (Flow Meter Demonstration- Engineering Lab Training Systems)
EXERCISES AND PRACTICAL POSSIBILITIES Some Practical Possibilities of the Unit: 1.- To demonstrate the important characteristics of fourteen types of flow meters used in the measurement of water flow through pipes or open channels. 2.- Comparing the use, application and limitations of different types of flowmeters. 3.- To study the application of Bernoulli’s Theorem. 4.-Understanding the principles on which various types of flow meters are based. 5.-Implications of performance, convenience, accuracy, head loss, etc. on flow meters selection. 6.-Effect of the air in the hydraulic stream on flow meter performance. 7.- To use manometers to measure pressure drop. 8.- Relating pressure drop across a flow meter to flow rate. 9.-Measure error determination using the venturimeter. 10.- Factor Cd determination in the venturi. 11.- Strangulation determination in the venturi. 12.-Measure error determination using the orifice plate. 13.- Factor Cd determination in the orifice plate. 14.- Effective area determination in the orifice plate. 15.-Measure error determination using the Pitot tube. 16.- Factor Cd determination in the Pitot tube. 17.- Measure error using the swinging flap meter. 18.- Measure error using the rotary piston meter. 19.- Measure error using the shunt gapmeter. 20.- Energy loss comparison in the different meters. 21.-Measure error using the helical rotary type flowmeter. 22.- Measure error using the inferential multistream type flowmeter. 23.- Broad crested weir. 24.- Crump weir. 25.- “H” flume. 26.- Washington flume. Fluid Mechanics Lab Equipments manufacturers....
Product Code: NLE-Export-205080 - (Flow Meters Demonstration Unit- Engineering Lab Training Systems)
Flow of Bulk Solids from Silos- Engineering Lab Training Systems....
Product Code: NLE-Export-210050 - (Flow of Bulk Solids from Silos- Engineering Lab Training Systems)
Flow Over Notch Apparatus....
Product Code: FM Lab Equipments0009 - (Flow Over Notch Apparatus)
Flow Over Weirs Accessory....
Product Code: NED022 - (Flow Over Weirs Accessory)
Technical Description Using the supplied weir plates, the measurement of flow rate in open channels can be investigated. They are used together .....
Product Code: NLE-Export-205030 - (Flow Over Weirs Accessory- Engineering Lab Training Systems)
Flow Properties of Bulk Solids- Engineering Lab Training Systems....
Product Code: NLE-Export-210051 - (Flow Properties of Bulk Solids- Engineering Lab Training Systems)
Specifications Same as above but electrically operated, to raise and drop the table top, approx. 15 times in 15 seconds. Suitable for operation on 230 Volts, 50 cycles, A.C.supply. civil lab equipments manufacturers....
Product Code: NLE-Export-038022 - (Flow Table - Motorised For Testing Lab)
This is used for determining the workability of building limes. Salient Features Specifications....
Product Code: NLE-Export-038020 - (Flow Table For Testing Lab)
Flow Table....
Product Code: NLE-Export-038021 - (Flow Table For Testing Lab)
Flow Table- Engineering Lab Training Systems....
Product Code: NLE-Export-220245 - (Flow Table- Engineering Lab Training Systems)
Flow Through Helical Coil We are among the prominent manufacturers, suppliers and exporters of optimum quality Flow Through Helical Coil.....
Product Code: NLE-Export-198003 - (Flow Through Helical Coil)
Flow Through Helical Coil Helical coils are used for heating or cooling in process tanks. When a fluid flows through a curved tube,....
Product Code: NLE-Export-198008 - (Flow Through Helical Coil)
Flow Through Helical Coil Flow Through Helical Coil are used for heating or cooling in process tanks.....
Product Code: Momentum Transfer0001 - (Flow Through Helical Coil)
Flow Through Helical Coil We are instrumental in offering superior quality Flow Through Helical Coil to the esteemed customers.....
Product Code: Momentum Transfer0007 - (Flow Through Helical Coil)
Flow Through Helical coil....
Product Code: Chemical Equipments0018 - (Flow Through Helical coil)
Flow Through Orifice And Mouthpiece....
Product Code: NLE-Export-180014 - (Flow Through Orifice And Mouthpiece)
Flow through Particle Layers- Engineering Lab Training Systems....
Product Code: NLE-Export-210041 - (Flow through Particle Layers- Engineering Lab Training Systems)
Flow Visualisation Apparatus....
Product Code: NED0110 - (Flow Visualisation Apparatus)
Technical Description During the experiments on various drag bodies, ink is injected through fine nozzles into a horizontal flow chamber.....
Product Code: NLE-Export-205020 - (Flow Visualisation Apparatus- Engineering Lab Training Systems)
Technical Description The experimental set-up is used in combination with the Air Flow Bench to make flow lines around bodies visible.....
Product Code: NLE-Export-204009 - (Flow Visualisation Apparatus- Engineering Lab Training Systems)
Technical Description On the unit, the behaviour of two dimensional flows can be investigated.....
Product Code: NLE-Export-205009 - (Flow Visualisation Table- Engineering Lab Training Systems)
Flow Visualisation Wind Tunnel....
Product Code: NLE-Export-031004 - (Flow Visualisation Wind Tunnel)
Technical Description The benchtop unit contains a narrow flow chamber with viewing window in which the drag model is placed.....
Product Code: NLE-Export-204004 - (Flow Visualisation Wind Tunnel- Engineering Lab Training Systems)
Flow Visualization And Mobile Bed Channel- Engineering Lab Training Systems....
Product Code: NLE-Export-206008 - (Flow Visualization And Mobile Bed Channel- Engineering Lab Training Systems)
Flow Visualization Apparatus....
Product Code: NED013 - (Flow Visualization Apparatus)
Flow Visualization Channel....
Product Code: NLE-Export-179009 - (Flow Visualization Channel)
Flow in Pipe Networks Apparatus....
Product Code: NE0953 - (Flow in Pipe Networks Apparatus)
Flow Meter Demonstration....
Product Code: NE4953 - (Flow Meter Demonstration)
.jpg "Flower ( Prunus)")
Flowmeter Trainer- Engineering Lab Training Systems....
Product Code: NLE-Export-207004 - (Flowmeter Trainer- Engineering Lab Training Systems)
Fluid Bed Catalytic Cracking Unit- Engineering Lab Training Systems Ministerial Tender Board Equipment, Ministry of Education and Vocational Training Lab Tenders Suppliers India....
Product Code: NLE-Export-132003 - (Fluid Bed Catalytic Cracking Unit- Engineering Lab Training Systems)
Fluid Friction Apparatus....
Product Code: NED029 - (Fluid Friction Apparatus)
Technical Description The panel comprises a pipe network with sub-sections that can be isolated individually and one measurement section in which different elements can be inserted.....
Product Code: NLE-Export-205022 - (Fluid Friction Apparatus- Engineering Lab Training Systems)
Fluid Friction in Pipes and Fittings....
Product Code: NED058 - (Fluid Friction in Pipes and Fittings)
Fluid Friction in Pipes and Fittings- Engineering Lab Training Systems....
Product Code: NLE-Export-207003 - (Fluid Friction in Pipes and Fittings- Engineering Lab Training Systems)
EXERCISES AND PRACTICAL POSSIBILITIES Some Practical Possibilities of the Unit: 1.- Load loss by friction in a rough pipe of 17 mm of interior diameter. 2.- Load loss by friction in a rough pipe of 23 mm of interior diameter. 3.- Load loss by friction in a smooth pipe of 6.5 mm of interior diameter 4.- Load loss by friction in a smooth pipe of 16.5 mm of interior diameter. 5.- Load loss by friction in a smooth pipe of 26.5 mm of interior diameter. 6.- Influence of the diameter in the load loss by friction in rough pipes. 7.- Influence of the diameter in the load loss by friction in smooth pipes. 8.- Load loss by friction in smooth and rough pipes. 9.- Friction coefficient in a rough pipe of 17 mm of interior diameter. 10.- Friction coefficient in a rough pipe of 23 mm of interior diameter. 11.- Friction coefficient in a smooth pipe of 6.5 mm of interior diameter. 12.- Friction coefficient in a smooth pipe of 16.5 mm of interior diameter. 13.- Friction coefficient in a smooth pipe of 26.5 mm of interior diameter. 14.- Influence of the diameter in the friction coefficient in rough pipes. 15.- Influence of the diameter in the friction coefficient in smooth pipes. 16.- Friction coefficient in smooth and rough pipes. 17.- Load losses in the inclined seat valve. 18.- Load losses in the floodgate valve. 19.- Load losses in the filter. 20.- Load losses in the membrane valve. 21.- Load losses in an abrupt broadening. 22.- Load losses in the Venturi. 23.- Load losses in the diaphragm. 24.- Load losses in an abrupt contraction. 25.- Load losses in the accessories. 26.- Flow measurements by load loss in a Venturi. 27.- Flow measurements by load loss in a diaphragm. 28.- Flow measurements by means of load loss. 29.- Load losses in a symmetrical bifurcation. 30.- Load losses after two 90º elbows. 31.- Load losses in a T-junction. 32.- Load losses for a 90º elbows. 33.- Load losses on the ball valve. 34.- Load losses for an elbow of 45º. 35.- Load losses in a inclined T-junction. 36.- Study of laminar regime. 37.- Study of turbulent regime. Other possible practices: 38.- Filling of the manometers. 39.- Universal graph for the pipe calculation. Fluid Mechanics Lab Equipments manufacturers....
Product Code: NLE-Export-205061 - (Fluid Friction In Pipes, With Basic Hydraulic Feed System- Engineering Lab Training Systems)
EXERCISES AND PRACTICAL POSSIBILITIES Some Practical Possibilities of the Unit: 1.- Load loss by friction in a rough pipe of 17 mm of interior diameter. 2.- Load loss by friction in a rough pipe of 23 mm of interior diameter. 3.- Load loss by friction in a smooth pipe of 6.5 mm of interior diameter 4.- Load loss by friction in a smooth pipe of 16.5 mm of interior diameter. 5.- Load loss by friction in a smooth pipe of 26.5 mm of interior diameter. 6.- Influence of the diameter in the load loss by friction in rough pipes. 7.- Influence of the diameter in the load loss by friction in smooth pipes. 8.- Load loss by friction in smooth and rough pipes. 9.- Friction coefficient in a rough pipe of 17 mm of interior diameter. 10.- Friction coefficient in a rough pipe of 23 mm of interior diameter. 11.- Friction coefficient in a smooth pipe of 6.5 mm of interior diameter. 12.- Friction coefficient in a smooth pipe of 16.5 mm of interior diameter. 13.- Friction coefficient in a smooth pipe of 26.5 mm of interior diameter. 14.- Influence of the diameter in the friction coefficient in rough pipes. 15.- Influence of the diameter in the friction coefficient in smooth pipes. 16.- Friction coefficient in smooth and rough pipes. 17.- Load losses in the inclined seat valve. 18.- Load losses in the floodgate valve. 19.- Load losses in the filter. 20.- Load losses in the membrane valve. 21.- Load losses in an abrupt broadening. 22.- Load losses in the Venturi. 23.- Load losses in the diaphragm. 24.- Load losses in an abrupt contraction. 25.- Load losses in the accessories. 26.- Flow measurements by load loss in a Venturi. 27.- Flow measurements by load loss in a diaphragm. 28.- Flow measurements by means of load loss. 29.- Load losses in a symmetrical bifurcation. 30.- Load losses after two 90º elbows. 31.- Load losses in a T-junction. 32.- Load losses for a 90º elbows. 33.- Load losses on the ball valve. 34.- Load losses for an elbow of 45º. 35.- Load losses in a inclined T-junction. 36.- Study of laminar regime. 37.- Study of turbulent regime. Other possible practices: 38.- Filling of the manometers. 39.- Universal graph for the pipe calculation. Fluid Mechanics Lab Equipments manufacturers....
Product Code: NLE-Export-205067 - (Fluid Friction In Pipes, With Basic Hydraulic Feed System- Engineering Lab Training Systems)
EXERCISES AND PRACTICAL POSSIBILITIES Some Practical Possibilities of the Unit: 1.- Load loss by friction in a rough pipe of 17 mm of interior diameter. 2.- Load loss by friction in a rough pipe of 23 mm of interior diameter. 3.- Load loss by friction in a smooth pipe of 6.5 mm of interior diameter. 4.- Load loss by friction in a smooth pipe of 16.5 mm of interior diameter. 5.- Load loss by friction in a smooth pipe of 26.5 mm of interior diameter. 6.- Influence of the diameter in the load loss by friction in rough pipes. 7.- Influence of the diameter in the load loss by friction in smooth pipes. 8.- Load loss by friction in smooth and rough pipes. 9.- Friction coefficient in a rough pipe of 17 mm of interior diameter. 10.- Friction coefficient in a rough pipe of 23 mm of interior diameter. 11.- Friction coefficient in a smooth pipe of 6.5 mm of interior diameter. 12.- Friction coefficient in a smooth pipe of 16.5 mm of interior diameter. 13.- Friction coefficient in a smooth pipe of 26.5 mm of interior diameter. 14.- Influence of the diameter in the friction coefficient in rough pipes. 15.- Influence of the diameter in the friction coefficient in smooth pipes. 16.- Friction coefficient in smooth and rough pipes. 17.- Load losses in the inclined seat valve. 18.- Load losses in the floodgate valve. 19.- Load losses in the filter. 20.- Load losses in the membrane valve. 21.- Load losses in an abrupt broadening. 22.- Load losses in the Venturi. 23.- Load losses in the diaphragm. 24.- Load losses in an abrupt contraction. 25.- Load losses in the accessories. 26.- Flow measurements by load loss in a Venturi. 27.- Flow measurements by load loss in a diaphragm. 28.- Flow measurements by means of load loss. 29.- Load losses in a symmetrical bifurcation. 30.- Load losses after two 90º elbows. 31.- Load losses in a T-junction. 32.- Load losses for a 90º elbows. 33.- Load losses on the ball valve. 34.- Load losses for an elbow of 45º. 35.- Load losses in a inclined T-junction. 36.- Study of laminar regime. 37.- Study of turbulent regime. Other possible practices: 38.- Filling of the manometers. 39.- Universal graph for the pipe calculation. Fluid Mechanics Lab Equipments manufacturers....
Product Code: NLE-Export-205060 - (Fluid Friction In Pipes, With Hydraulics Bench- Engineering Lab Training Systems)
EXERCISES AND PRACTICAL POSSIBILITIES Some Practical Possibilities of the Unit: 1.- Load loss by friction in a rough pipe of 17 mm of interior diameter. 2.- Load loss by friction in a rough pipe of 23 mm of interior diameter. 3.- Load loss by friction in a smooth pipe of 6.5 mm of interior diameter. 4.- Load loss by friction in a smooth pipe of 16.5 mm of interior diameter. 5.- Load loss by friction in a smooth pipe of 26.5 mm of interior diameter. 6.- Influence of the diameter in the load loss by friction in rough pipes. 7.- Influence of the diameter in the load loss by friction in smooth pipes. 8.- Load loss by friction in smooth and rough pipes. 9.- Friction coefficient in a rough pipe of 17 mm of interior diameter. 10.- Friction coefficient in a rough pipe of 23 mm of interior diameter. 11.- Friction coefficient in a smooth pipe of 6.5 mm of interior diameter. 12.- Friction coefficient in a smooth pipe of 16.5 mm of interior diameter. 13.- Friction coefficient in a smooth pipe of 26.5 mm of interior diameter. 14.-Influence of the diameter in the friction coefficient in rough pipes. 15.- Influence of the diameter in the friction coefficient in smooth pipes. 16.- Friction coefficient in smooth and rough pipes. 17.- Load losses in the inclined seat valve. 18.- Load losses in the floodgate valve. 19.- Load losses in the filter. 20.- Load losses in the membrane valve. 21.- Load losses in an abrupt broadening. 22.- Load losses in the Venturi. 23.- Load losses in the diaphragm. 24.- Load losses in an abrupt contraction. 25.- Load losses in the accessories. 26.- Flow measurements by load loss in a Venturi. 27.- Flow measurements by load loss in a diaphragm. 28.- Flow measurements by means of load loss. 29.- Load losses in a symmetrical bifurcation. 30.- Load losses after two 90º elbows. 31.- Load losses in a T-junction. 32.- Load losses for a 90º elbows. 33.- Load losses on the ball valve. 34.- Load losses for an elbow of 45º. 35.- Load losses in a inclined T-junction. 36.- Study of laminar regime. 37.- Study of turbulent regime. Other possible practices: 38.- Filling of the manometers. 39.- Universal graph for the pipe calculation. Fluid Mechanics Lab Equipments manufacturers....
Product Code: NLE-Export-205066 - (Fluid Friction in Pipes, with Hydraulics Bench- Engineering Lab Training Systems)
EXERCISES AND PRACTICAL POSSIBILITIES Some Practical Possibilities of the Unit: 1.- Load loss by friction in a rough pipe of 17 mm of interior diameter. 2.- Load loss by friction in a rough pipe of 23 mm of interior diameter. 3.- Load loss by friction in a smooth pipe of 6.5 mm of interior diameter. 4.- Load loss by friction in a smooth pipe of 16.5 mm of interior diameter. 5.- Load loss by friction in a smooth pipe of 26.5 mm of interior diameter. 6.- Influence of the diameter in the load loss by friction in rough pipes. 7.- Influence of the diameter in the load loss by friction in smooth pipes. 8.- Load loss by friction in smooth and rough pipes. 9.- Friction coefficient in a rough pipe of 17 mm of interior diameter. 10.- Friction coefficient in a rough pipe of 23 mm of interior diameter. 11.- Friction coefficient in a smooth pipe of 6.5 mm of interior diameter. 12.- Friction coefficient in a smooth pipe of 16.5 mm of interior diameter. 13.- Friction coefficient in a smooth pipe of 26.5 mm of interior diameter. 14.- Influence of the diameter in the friction coefficient in rough pipes. 15.- Influence of the diameter in the friction coefficient in smooth pipes. 16.- Friction coefficient in smooth and rough pipes. 17.- Load losses in the inclined seat valve. 18.- Load losses in the floodgate valve. 19.- Load losses in the filter. 20.- Load losses in the membrane valve. 21.- Load losses in an abrupt broadening. 22.- Load losses in the Venturi. 23.- Load losses in the diaphragm. 24.- Load losses in an abrupt contraction. 25.- Load losses in the accessories. 26.- Flow measurements by load loss in a Venturi. 27.- Flow measurements by load loss in a diaphragm. 28.- Flow measurements by means of load loss. 29.- Load losses in a symmetrical bifurcation. 30.- Load losses after two 90º elbows. 31.- Load losses in a T-junction. 32.- Load losses for a 90º elbows. 33.- Load losses on the ball valve. 34.- Load losses for an elbow of 45º. 35.- Load losses in a inclined T-junction. 36.- Study of laminar regime. 37.- Study of turbulent regime. Other possible practices: 38.- Filling of the manometers. 39.- Universal graph for the pipe calculation. Fluid Mechanics Lab Equipments manufacturers....
Product Code: NLE-Export-205062 - (Fluid Friction in Pipes- Engineering Lab Training Systems)
Technical Description Terms such as the static pressure of a fluid at rest (hydrostatic pressure), static pressure of a flowing liquid or the pressure loss between two points can be demonstrated on this unit. The experimental set-up includes a transparent supply tank with a pipe section connected as a drain. The initial pressure is kept constant by the overflow in the head tank. The pressure at six distributed measuring points on the pipe section can be measured on a multiple tube manometer. A supply of water is required. The training panel can be fitted to the Universal Stand.....
Product Code: NLE-Export-162026 - (Fluid Friction Training Panel Laboratory Equipments Supplies)
Fluid Mechanics Lab Apparatus....
Product Code: Fluid Equipments0008 - (Fluid Mechanics Lab Apparatus)Fluid Mechanics Technical Training Lab Equipment Suppliers China....
Product Code: DIDACTIC-LAB-KIT-0027 - (Fluid Mechanics Technical Training Lab Equipment Suppliers China)Fluid Mixer Apparatus....
Product Code: NLE-Export-031062 - (Fluid Mixer Apparatus)
Fluid Pressure Apparatus....
Product Code: NLE-Export-002032 - (Fluid Pressure Apparatus)
STRUCTURAL SPECIFICATIONS: 1) Stainless structure. 2) Screws, nuts, plates and all the metallic elements in stainless steel.....
Product Code: NLE-Export-205046 - (Fluid Statics and Manometry- Engineering Lab Training Systems)
Fluid Friction Measurements ....
Product Code: NE4947 - (Fluid Friction Measurements )
Fluidisation And Fluid Bed Heat Transfer Unit....
Product Code: Chemical Equipments0013 - (Fluidisation And Fluid Bed Heat Transfer Unit)
Fluidisation and Heat Transfer- Engineering Lab Training Systems....
Product Code: NLE-Export-126002 - (Fluidisation and Heat Transfer- Engineering Lab Training Systems)
Fluidised Bed Formation- Engineering Lab Training Systems....
Product Code: NLE-Export-210052 - (Fluidised Bed Formation- Engineering Lab Training Systems)
Fluidized Bed Characterstics The setup consists of a glass column with fluidizing material i.e. beads, S.S. mesh to support the beads and with calming section.....
Product Code: NLE-Export-198007 - (Fluidized Bed Characterstics)
Fluidized Bed Dryer Ministerial Tender Board Equipment, Ministry of Education and Vocational Training Lab Tenders Suppliers India....
Product Code: Mass Transfer Lab0001 - (Fluidized Bed Dryer)
Fluidized Bed Dryer....
Product Code: Mass Transfer Lab0018 - (Fluidized Bed Dryer)
Fluidized Bed Granulator....
Product Code: NEL0438 - (Fluidized Bed Granulator)
Flume For Open And Closed Flow- Engineering Lab Training Systems....
Product Code: NLE-Export-206005 - (Flume For Open And Closed Flow- Engineering Lab Training Systems)
Fluorescence Microscopes....
Product Code: NLE-Export-018011 - (Fluorescence Microscopes)
Fluorescence Microscopy....
Product Code: NEL0612 - (Fluorescence Microscopy)
Flying Shore- Engineering Lab Training Systems....
Product Code: NLE-Export-270058 - (Flying Shore- Engineering Lab Training Systems)
Flyover Road Junction- Engineering Lab Training Systems....
Product Code: NLE-Export-270073 - (Flyover Road Junction- Engineering Lab Training Systems)
Flywheel Apparatus- Engineering Lab Training Systems....
Product Code: NLE-Export-055009 - (Flywheel Apparatus- Engineering Lab Training Systems)
FM Radio System Trainer....
Product Code: NEI044 - (FM Radio System Trainer)FM transmitter and receiver trainer has been designed....
Product Code: NLE-Export-081074 - (FM Transmitter & Receiver Trainer For Electrical Lab Training)
FM Transmitter Trainer....
Product Code: NLE-Export-202436 - (FM Transmitter Trainer)
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