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Advanced Technocracy Inc.
Advanced Technocracy Inc.


Fluid Mechanics

Providing you the best range of hydrodynamics trainer, pipe network bench, hydrodynamics trainer / pc, properties of fluids and hydrostatics bench, stability of a floating body and thermal engineering equipments with effective & timely delivery.

Hydrodynamics Trainer

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Hydrodynamics Trainer
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Technical Description


The hydrodynamic trainer permits basic experiments on fluid mechanics. The experiment is set up clearly on a mobile laboratory trolley. Thanks to the closed water circuit the test stand is especially well suited for use in seminars and lecture rooms. The system includes a variable-area flowmeter, an electronic differential pressure gauge and other pressure measuring devices. The objects to be measured are various pipelines and add-on parts, five of which represent different types of pipe installations (such as a membrane valve or dirt trap). In order to make the function of the unit visible, three of the objects are made of Plexiglas: they represent a Venturi tube, pitot tube and measuring orifice/nozzle. The measuring points and pressure gauges are connected with hoses and rapid action hose couplings.
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Pipe Network Bench

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Pipe Network Bench
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Technical Description

A common problem in the installation of pipe-work is the determination of pressure and flow rate in complex pipe systems. The Pipe Network Bench facilitates the setting up and investigation of different types of pipe system, for instance series and parallel configurations of pipes, their branches and joints. Analogous to Kirchoff's laws in electrical engineering, the pressure in the pipes corresponds to the electrical voltage, the pressure losses to the electrical resistances. Node analyses can be performed. The pipe systems can be assembled on the top of the experimental module using the pipes and connecting fittings supplied. The experimental module includes a closed water circuit with supply tank and pump, and a tank for volumetric flow rate measurement. Two-tube manometers with different measuring ranges are included for pressure measurements.
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Hydrodynamics Trainer / PC

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Hydrodynamics Trainer / PC
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Technical Description

The trainer permits basic experiments on fluid mechanics. The experimental set-up is clearly laid out on a laboratory trolley. Due the use of a sealed water circuit, the trainer is particularly suitable for use in training and seminar rooms, and also lecture theaters. The system contains pressure and flow rate sensors that allow the values measured to be further processed on a PC. 6 different pipe sections and 8 components are used as measurement objects; of the 8 components, 5 represent components built into pipes, e.g. a membrane valve or dirt trap. 3 measurement objects are manufactured from Plexiglass and represent a venturi tube, a pitot tube, a metering orifice and a metering nozzle. With the PC data acquisition card and software included measured values can be displayed and evaluated on a PC. 

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Properties Of Fluids And Hydrostatics Bench

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Properties Of Fluids And Hydrostatics Bench
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Technical Description

With this well equipped hydrostatics bench, numerous experiments on the topic of the hydrostatics of liquids and gases can be carried out. A pipe section and various pressure measuring devices are fitted to a laboratory trolley with a demonstration panel, working area and cabinet. Various measuring containers are integrated into the pipe section. The sealed water circuit and pump with supply tank permit experiments to be performed independent of a mains water connection. This feature makes the bench particularly suitable for use in seminars rooms and lecture theatres. Further experimental apparatus are included in the cabinet, e.g. a device for determining the centre of pressure of a column of water. This enables the pressure on a weir to be determined, amongst other aspects. 

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Stability Of A Floating Body

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Stability Of A Floating Body
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Technical Description

This simple apparatus for determining the metacentre of a model hull is particularly suitable for experiments in small groups. The experiments are performed in a tank filled with water. A transparent hull is used with a rectangular cross-section. Horizontal and vertical sliding weights enable the center of gravity to be adjusted. The position of the sliding weights as well as the draught of the floating body can be read on scales. An inclinometer indicates the angle of heel. 

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Thermal Engineering Equipments

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Thermal Engineering Equipments
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Thermal Engineering Equipments Manufacturer

Technical Description

The demonstrator is designed such that it can be set up with an inlet tank and an outlet tank .The inlet and outlet tanks guarantee constant-pressure conditions. A flow channel of variable cross-section and transparent viewing window forms the main component of the experimental set-up. By means of the addition of ink, the velocity along the channel can be demonstrated. A twelve-tube manometer for measuring static pressure is distributed along the length of the nozzle at even distances to indicate the pressure distribution.

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Osborne Reynolds Demonstrator

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Osborne Reynolds Demonstrator
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Technical Description

The core of the demonstrator is a transparent pipe section (di=10mm, length 540mm) with a streamlined inlet through which water flows. The flow rate in the experimental pipe section can be adjusted with a manual valve. Ink from a tank is injected into the flowing water to visualize the flow. The transition from laminar to turbulent flow can be observed as function of the flow velocity. The critical Reynolds number is determined from the results of the experiment.
The water supply is provided either from the laboratory mains or using the (closed water circuit). 

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Pitot-Static Tube Apparatus

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Pitot-Static Tube Apparatus
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Technical Description

It is possible to move the Pitot-static tube across the entire cross-section of the pipe and thus measure the pressure profile. The position of the measuring tip relative to the bottom of the pipe can be read on a scale. The Pitot-static tube can be connected to any differential pressure manometer using hose connections. Differential pressures up to approx. 50mbar are possible when using the pump .
The water supply is provided either from the laboratory mains or using the (closed water circuit). 

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Pipe Friction Apparatus

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Pipe Friction Apparatus
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Technical Description

The experimental set-up can be used on its own or with the Basic Hydraulics Bench. A supply of water is all that is required for operation. The unit is suitable for measuring pipe friction losses for laminar and turbulent flows. The experimental set-up is clearly laid out on a training panel. For investigations on laminar flow, a head tank is used for the water supply, whilst for turbulent flow, the supply is provided via the Basic Hydraulics Bench directly (or the water mains). The water flows through a pipe section, the flow is adjusted using reducing valves. The connection to the required measuring device is made via pressure tappings. 

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Methods of Flow Measurement for Engineering Lab Equipment

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Methods of Flow Measurement for Engineering Lab Equipment
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Methods of Flow Measurement for Engineering Lab Equipment:

Technical Description

The Flow Meter Demonstration Apparatus contains different flow rate measurement devices that are clearly laid out with the associated pipework on a metal sheet. So that the function can be observed, the measuring devices are made of transparent plastic. The flow rate is measured using a nozzle, orifice, venturi flow meter and variable-area flow meter. To determine the flow rate using a nozzle/orifice and with the venturi flow meter, a differential pressure measuring device is required. This is included in the form of a multiple tube manometer so that the pressure curve along the venturi flow meter can also be displayed. The apparatus is placed on the Basic Hydraulics Bench, this provides the water supply to the unit.

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Aerodynamic Tunnel

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Aerodynamic Tunnel
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Advanced Technocracy Inc. is Manufacturer, Exporter & Supplier of Aerodynamic Tunnel.

EXERCISES AND PRACTICAL POSSIBILITIES

Some Practical Possibilities of the Unit:
1.-Comprehensive study of subsonic aerodynamics and air flow.              
2.-Flux in a nozzle. Determine the characteristics of the pressures field in a nozzle. 
3.-Flux  in  an  nozzle.  To  observe  the  local  characteristics, depending on whether the walls have a curvature or not, as well as happens in the inlet and outlet
areas of the contraction.                                                   4.-Flow of an uniform current around a cylinder.
5.-To determine the form of the field of pressures around a cylinder on which a perpendicular to the axis current impacts.               
6.-To determine, by the detachment type, if the boundary layer becomes turbulent or remains laminar.
7.-To determine the coefficient of resistance of the cylinder, for the described situation of flow.
8.-To relate all the above mentioned with the Reynolds’s number. studies
9.-Flow of an uniform current around a concave and a convex semi-cylinder.
10.-To determine the field or pressures in the two semi-cylinders, the concave  one and the convex one.
11.-To determine the coefficients of aerodynamic resistance in the well as what concave and the convex semi-cylinders.
12.-Aerodynamics forces due to the wind on house.
13.-Measurement  of pressure   distribution   around   body   two dimensional.
14.-Flow visualization studies.
15.-Velocity and pressure distribution measurement using a Pitot’s finally tube.
16.-Filling the manometric tubes. 

 

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Computer Controlled Aerodynamic Tunnel

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Computer Controlled Aerodynamic Tunnel
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Advanced Technocracy Inc. is Manufacturer, Exporter & Supplier of Computer Controlled Aerodynamic Tunnel,1200x1200 mm.

DESCRIPTION

Aerodynamic Tunnel of 1200*1200mm, principal characteristics:

* Adequate size for demostration tests and teaching.

* Suitable for three-dimensional models.

* Test Chamber builts with transparent materials.

* Low operation and maintenance cost.

* Suitable for smokes visualization test.

* AC motor-ventilator gropu, monophasic, with frequency variator.

SPECIFICATIONS 

 

*The Aerodynbamic Tunnel of 1200*1200 mm section for testing, witha longitude of 2000 mm is of the Eiffeltype, aspirate and of open circuit, and allows us to carry out tests of measuring formces and aerodynamic field on models of structures, construcitons, land vehicles and small planes. * Its power plant, formed by 4 standard type ventilators, of 10 CV of power each one and 900 mm in diameter, has kept the final cost of the product low, while at the same time that assuring a simple and economicmaitenance. Nevertheless, this aspect does not prejudice the quality of the vein, of great uniformity and low turbulence level, thanks also to the adequate design of the contraction, neither does it affect the speed that is reached, this being about 36m/s in a vacuum.

*The tunnel is built basically of wood, with a steel support structure, and windows for viewing inside the test chamber. Its wood panels are easilyreplaceable, if through wear and tear, or for any other motive, its aspect or mechanical capacity should make it necessary. This has the additional advantage of the ease with which new instrumentation can be added, since the corresponding supports and leads and conduit passes are easily made.

*It has a Pitot pipe for measuring the speed of the incident flow. To this instrumentation, a multimanometer or a scanner system for the simultaneous measurement of pressures can be added, as well as a small scale of six components for measuring forces. A smoke generator can also be connected for flow visualization.

 

 

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Computer Controlled Centrifugal Fan Teaching Trainer

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Computer Controlled Centrifugal Fan Teaching Trainer
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Advanced Technocracy Inc. is Manufacturer, Exporter & Supplier of Computer Controlled Centrifugal Fan Teaching Trainer

EXERCISES AND PRACTICAL POSSIBILITIES

Some Practical Possibilities of the Unit:

1.-Measurement of constant-speed fan performance in terms of static and total pressures, rotor speed and motor shaft power, as a function of inlet flow.

2.-Calculation of flow with and orifice plate.

3.-Calculation of the fan efficiency.

4.-Introduction to similarity laws for scale-up.

5.-Calculation of the flow by static pressure measurement, dynamic pressure measurement and total pressure depending of the test.

6.-Practices with the different of turbines: with the blades forwards, with the blades backwards and with flat blades.

7.-Determination of the fan characteristics curves.

8.-Calculation of the typical curve of a fan at a constant turning speed (turbine with blades forwards).

9.-Calculation of the typical curve of a fan at a constant turning speed (turbine with blades backwards).

10.-Calculation of the typical curve of a fan at a constant turning speed (turbine with flat blades).

11.-Measurement of performance at constant speeds.

12.-Static pressure increasing.

13.-Sensors calibration.

Other possible practices (with the optional Set of Accessories):

14.-Calculation of flow. Test with discharge duct and nozzle.

15.-Calculation of flow. Test with aspiration duct and nozzle.

16.-Calculation of the differential flow according to the turbines position in the discharge duct.

17.-Calculation of the differential flow according to the turbines position in the aspiration duct.

18.-Determination of the fan characteristics curves (with the optional Set of Accessories).

19.-Measuring a cooling curve.

20.-Determination of the coefficient of heat transfer from the cooling curve.

21.-Measurement of the pressure distribution around a cylinder in a transverse flow.

22.-Measurements behind a cylinder in a transverse flow.

23.-Pressure loss measurements at a bend.

24.-Pressure loss measurements on pipe sections.

25.-Pressure loss measurements at an elbow.

26.-To investigate the influence of different shaped pipe inlets.

Practices to be done by PLC Module (PLC-PI)+PLC Control Software:

27.-Control of the HVCC unit process through the control interface box without the computer.

28.-Visualization of all the sensors values used in the HVCC unit process.

29.-Calibration of all sensors included in the HVCC unit process.

30.-Hand on of all the actuators involved in the HVCC unit process.

31.-Realization of different experiments, in automatic way, without having in front the unit. (This experiment can be decided previously).

32.-Simulation of outside actions, in the cases do not
exist hardware elements. (Example: test of complementary tanks, complementary industrial environment to the process to be studied, etc).

33.-PLC hardware general use and manipulation.

34.-PLC process application for HVCC unit.

35.-PLC structure.

36.-PLC inputs and outputs configuration.

37.-PLC configuration possibilities.

38.-PLC program languages.

39.-PLC different programming standard languages.

40.-New configuration and development of new process.

41.-Hand on an established process.

42.-To visualize and see the results and to make comparisons with the HVCC unit process.

43.-Possibility of creating new process in relation with the HVCC unit.
44.-PLC Programming Exercises.

   45.-Own PLC applications in accordance with teacher      and student requirements. 

 

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Computer Controlled Centrifugal Pump Bench

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Computer Controlled Centrifugal Pump Bench
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Advanced Technocracy Inc. is Manufacturer, Exporter & Supplier of Computer Controlled Centrifugal Pump Bench

Exercises and Practical Possibilities to be done with Main Items 

1.-Demonstration of a centrifugal water pump in operation.

2.-Introduction to pump speed laws.

3.-Obtaining of curves H(Q), N(Q) and Eff%(Q).

4.-Simultaneous representation of H(Q), N(Q) and Eff%(Q).

5.-Obtaining the map of a centrifugal pump.

6.-Adimensional study of magnitudes H *, N * and Q *.

7.-Cavitation test and obtaining of curves NPSHr.

Additional practical possibilities:

8.-Sensors calibration.

Other possibilities to be done with this Unit:

9.-Many students view results simultaneously.
To view all results in real time in the classroom by means of a projector or an electronic blackboard.
10.-Open Control, Multicontrol and Real Time Control.
This unit allows intrinsically and/or extrinsically to change the span, gains; proportional, integral, derivate parameters; etc in real time.

11.-The Computer Control System with SCADA allows a real industrial simulation.

12.-This unit is totally safe as uses mechanical, electrical and electronic, and software safety devices.

13.-This unit can be used for doing applied research.

14.-This unit can be used for giving training courses to Industries even to other Technical Education Institutions.

15.-Control of the PBCC unit process through the control interface box without the computer.

16.-Visualization of all the sensors values used in the PBCC unit process.

- By using PLC-PI additional 19 more exercises can be done.

- Several other exercises can be done and designed by the user. 

 

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Computer Controlled Experimental Impulse Turbine

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Computer Controlled Experimental Impulse Turbine
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Advanced Technocracy Inc. is Manufacturer, Exporter & Supplier of Computer Controlled Experimental Impulse Turbine

EXERCISES AND PRACTICAL POSSIBILITIES

Some Practical Possibilities of the Unit:

1.-Visual examination of a small turbine.

2.-Comparison of turbine performance, including specific consumption, when using:
Throttle control.
Nozzle control.

3.-Production of torque/speed and power/speed curves.

4.-Determination of the isentropic efficiency of a turbine and plotting the end states on a temperature/entropy diagram.

5.-Application of the First Law to a simple open system undergoing a steady flow process.

6.-Construction of retardation curve and the determination of resisting torques due to bearing frictions, disc friction and windage, at different speeds.

7.-Demonstration of cooling by expansion.

Other possible practices:

8.-Sensors calibration.

Practices to be done by PLC Module (PLC-PI)+PLC Control Software:

9.-Control of the HTIC unit process through the control interface box without the computer.

10.-Visualization of all the sensors values used in the HTIC unit process.

11.-Calibration of all sensors included in the HTIC unit process.

12.-Hand on of all the actuators involved in the HTIC unit process.

13.-Realization of different experiments, in automatic way, without having in front the unit. (This experiment can be decided previously).

14.-Simulation of outside actions, in the cases do not
exist hardware elements. (Example: test of complementary tanks, complementary industrial environment to the process to be studied, etc).

15.-PLC hardware general use and manipulation.

16.-PLC process application for HTIC unit.

17.-PLC structure.

18.-PLC inputs and outputs configuration.

19.-PLC configuration possibilities.

20.-PLC program languages.

21.-PLC different programming standard languages.

22.-New configuration and development of new process.

23.-Hand on an established process.

24.-To visualize and see the results and to make comparisons with the HTIC unit process.

25.-Possibility of creating new process in relation with the HTIC unit.

26.-PLC Programming Exercises.

   27.-Own PLC applications in accordance with teacher        and student requirements. 

 

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Computer Controlled Multipump Testing Bench

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Computer Controlled Multipump Testing Bench
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Advanced Technocracy Inc. is Manufacturer, Exporter & Supplier of Computer Controlled Multipump Testing Bench.

Exercises and Practical Possibilities to be done with Main Items 

1.-Determination of the flow by a weir of thin wall in a U-shape.

2.-Determination of the unloading coefficient of a weir of thin wall in a U-shape.

3.-Determination of the curve Q vs r.p.m. for the centrifugal pump.

4.-Determination of the curve Q vs r.p.m. for the gear pump.

5.-Determination of the curve H vs Q for different r.p.m. for the centrifugal pump.

6.-Determination of the curve H vs Q for different r.p.m. for the gear pump.

7.-Determination of the mechanical power vs flow for different r.p.m. for the centrifugal pump.

8.-Determination of the mechanical power vs flow for different r.p.m. for the gear pump.

9.-Determination of the curve h vs the flow for different r.p.m. for the centrifugal pump.

10.-Determination of the curve h vs the flow for different r.p.m. for the gear pump.

11.-Determination of the map of a centrifugal pump.

12.-Determination of the map of a gear pump.

13.-Determination of the adimensional characteristic curves for the different pumps.

14.-Determination of the specific speed for the different pumps.

15.-Verification of the similarity rules for pumps of different geometry.

Additional practical possibilities:

16.-Sensors calibration.

Other possibilities to be done with this Unit:

17.-Many students view results simultaneously.
To view all results in real time in the classroom by means of a projector or an electronic blackboard.

18.-Open Control, Multicontrol and Real Time Control.
This unit allows intrinsically and/or extrinsically to change the span, gains; proportional, integral, derivate parameters; etc in real time.

19.-The Computer Control System with SCADA allows a real industrial simulation.

20.-This unit is totally safe as uses mechanical, electrical and electronic, and software safety devices.

21.-This unit can be used for doing applied research.

22.-This unit can be used for giving training courses to Industries even to other Technical Education Institutions.

23.-Control of the PB2C unit process through the control interface box without the computer.

24.-Visualization of all the sensors values used in the PB2C unit process.

- By using PLC-PI additional 19 more exercises can be done.

- Several other exercises can be done and designed by the user. 

 

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Computer Controlled Water Hammer Unit

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Computer Controlled Water Hammer Unit
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Exercises and Practical Possibilities to be done with Main Items

1.-    Characterization of the water hammer phenomenon in pipes.

2.-    Subduing the water hammer effects.

3.-    Calculation of energy losses in pipes.

4.-    Influences of  the pipe diameter on the speed propagation.

5.-    Subduing of the effects of the water hammer through abrupt expansions.

Additional practical possibilities:

6.-     Sensors calibration.

Other possibilities to be done with this Unit:

7.-    Many students view results simultaneously.

        To view all results in real time in the classroom by means of a projector or an electronic blackboard.

8.-    Open Control, Multicontrol and Real Time Control.

        This unit allows intrinsically and/or extrinsically to change the span, gain; proportional, integral, derivate parameters; etc in real time.

9.-    The Computer Control System with SCADA allows a real industrial simulation.

10.-  This unit is totally safe as uses mechanical, electrical and electronic, and software safety devices.

11.-  This unit can be used for doing applied research.

12.-  This unit can be used for giving training courses to Industries even to other Technical Education Institutions.

13.-  Control of the EGAC unit process through the control interface box without the computer.

14.-  Visualization of all the sensors values used in the EGAC unit process.

- By using PLC-PI additional 19 more exercises can be done.

- Several other exercises can be done and designed by the user.

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Computer Controlled Water Tunnel

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Computer Controlled Water Tunnel
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Advanced Technocracy Inc. is Manufacturer, Exporter & Supplier of Computer Controlled Water Tunnel, 500x500 mm. 

DESCRIPTION

Water tunnel of 500*500mm, principal characteristics:

* Adequate Size for flow visualizations on standard models of planes.

* Useful for teaching and development projects.

* Top quality vein, uniformity and low turbulence level.

* Low operation and maintenance cost. 

SPECIFICATIONS 

*The water tunnel of 500*500 mm, of low turbulence level, is specifically designed for carrying out visualization tests on threedimensional models, though, of course, they can also be used on two-dimensional models.

*As it is a closed circuit, it operates continuously and uses the same water, although it may be necessary to renew it once it has lost its transparency due to the use of colorings. However, if the technique of the hydrogen bubble is used as tracer this problem can also be avoided.

*Its dimensions and low operating costs make it suitable for teaching as well as for research or industrial use. Assorted systems for registering images and taking measurements can be incorporated when necessary.

 

 

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Demonstration Pelton Turbine

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Demonstration Pelton Turbine
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Technical Description

A characteristic of impulse turbines is the complete conversion of pressure into kinetic energy at the exit of the supply nozzle. The turbine consists of a housing, which is transparent on one side, the Pelton bucket wheel and an adjustable supply nozzle. The turbine is loaded with a belt brake. The torque is measured using spring balances located on the braking belt. The manometer fitted to the unit measures the water pressure applied. The pressurised water supply and flow rate measurement is provided . Alternatively, the arrangement can also be operated from the laboratory mains supply. 

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Hydraulic Ram Pump

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Hydraulic Ram Pump
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Technical Description

Using this type of pump it is possible to pump water to a higher level without additional mechanical energy. During this process the kinetic energy of the water flowing in a long pipe is converted into potential energy by suddenly stopping the flow. A valve pulsed by the hydraulic force of the water makes the hydraulic ram cycle automatically. The function of the hydraulic ram can be clearly seen with unshrouded valves and transparent cylinders. The water hammer develops in a pipe loop. All components are mounted on a clearly laid out panel. The flow rate is adjusted using manual valves. The water supply is provided either from the laboratory.(closed water circuit). 

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Kaplan Turbine Test Rig

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Kaplan Turbine Test Rig
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Kaplan Turbine Test Rig Manufacturer:

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.

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Metacentric Height

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Metacentric Height
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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.

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Orifice Discharge Apparatus

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Orifice Discharge Apparatus
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Technical Description

The water drains vertically from a transparent supply tank through a nozzle due to the hydrostatic pressure. The velocity of the jet can be measured with a Pitot tube and a U-tube manometer. The jet diameter is measured with a micrometer. 5 easy to interchange nozzles are included. The water level can be set precisely using an overflow.
The water supply is provided either from the laboratory (closed water circuit).
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Orifice and Free Jet Flow

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Orifice and Free Jet Flow
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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.

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Osborne Reynolds Apparatus for Engineering Lab Equipments

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Osborne Reynolds Apparatus for Engineering Lab Equipments
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Advanced Technocracy Inc. is Manufacturer, Exporter & Supplier of Osborne Reynolds' Apparatus For Engineering Lab Equipments

Specifications

• Floor standing apparatus to produce classic Osborne Reynolds' experiments.
• Fluid enters a vertically mounted test section through a carefully profiled bellmouth from a constant head tank.
• An easily cleaned dye injection system is incorporated.
• Fluid flow is controlled by a needle point globe valve.
• Supply includes stilling bed, hoses and dye.

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Pascal's Module

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Pascal's Module
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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.

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Pitot Static Tube Module

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Pitot Static Tube Module
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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.

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Precision Pressure Gauge Calibrator

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Precision Pressure Gauge Calibrator
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Specification 

The unit is a seft-contained and portable dead weight precision pressure gauge calibrator.

This unit allows pressure gauges to be accurately calibrated within the range 1-300 bar.

Calibrates gauges 1-300 bar range to ±0.015% of reading.

Two pistons allow calibration over a wide range of pressures.

Oil is used as the hydraulic fluid.

Minimum standard weight increment is 0.05 bar.

A set of weights, adaptors and spare seals are supplied.

Laboratory calibration certificate.

Carrying case.

Dimensions: 500 x 350 x 400 mm. approx.      Weight: 35 Kg. approx.

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Principles of Hydraulics

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Principles of Hydraulics
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Technical Description

The is part of a series of units that enable experiments to be performed on flow processes with the aid of a computer. Here several areas of incompressible flows can be investigated. After the recording of a pump characteristic curve, experiments on the topics of pipe flow and flow in open flumes can be performed. Water flows through a Venturi tube, an orifice, a bend, or a kink. During this process the pressure loss is measured and compared with the flow through a straight pipe. On flumes experiments can be performed on the open channel and on a channel with weir structures. Two different weir structures are supplied. 
The Data Logging Unit is necessary for the operation of the Computer Linked Hydraulics Bench. If power data is to be displayed, the Digital Power Meter is required. 

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Sediment Transport Demonstration Channel

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Sediment Transport Demonstration Channel
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Advanced Technocracy Inc. is Manufacturer, Exporter & Supplier of Sediment Transport Demonstration Channel

EXERCISES AND PRACTICAL POSSIBILITIES

Some Practical Possibilities of the Unit:

Flow over a mobile sand-bed

(bedforms associated with increasing flow intensity and sediment transport rate)

1.-    Lower Regime (bedforms exhibed):

- Plane- bed (no motion).

- Ripples and dunes.

- Washed-out dunes.

-Ripples.

-Dunes.

2.-    Upper Regime(bedforms exhibed):

- Plane- bed (with motion).

- Chutes and pools.

- Anti- dunes.

- Breaking anti-dunes.

- Standing waves.

Flow over fixed, gravel-bed

3.-    Although the channel can not transport gravel, this can be used to investigate flow resistance in gravel and polder- bed rivers.

4.-    We can calculate the flow resistance coeficients, using equations such as those of Bray, Limerinos, Hey, Lacey, Thompson and Campbell and Bathurst and the results compared to the actual values obtained by observation.

Flow structures

5.-    We can examine the structure of turbulence in the flow, using dye injection, interesting for the dune bedform configuration and clearly demonstrates separation on the lee face.

Fixed, smooth bed flow

(the channel may be used without sediment on the bed to demonstrate several flow phenomena and equations)

6.-    Rapid, super- critical flow- dominance of intertial over gravity forces, shock waves from flow obstructions.

7.-    Turbulence.

8.-    Governing equations of open channel flow-Reynold’s number, Froude number, continuity, Bernoulli’s equation, weir equations.

9.-    Tranquil, sub-critical flow- movement of surface waves upstream against flow.

10.-Hydraulic jump- transition from super to sub critical flow, air entrainment, mixing.

11.-Flow measurement- using sharp crested weirs.

Bedform hysteresis

12.-If the discharge in the channel changes quickly, there is no sufficient time for bedforms to adjust to the new flow regime. Hence, if a flood hydrograph is simulated by increasing and then decreasing the discharge, different depths will occur for the same discharge on the rising and falling limbs.

Data collection and numerical evaluation(computational work)

13.-In addition to illustrating flow and sediment phenomena, we can use the channel for basic data collection and numerical evaluation of the following:

               - Flow resistance:

                             Manning, Chezy and Darcy-Weisbach fricion factors for several bedform configuration.

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Series/Parallel Pumps Bench

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Series/Parallel Pumps Bench
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EXERCISES AND PRACTICAL POSSIBILITIES

 

Some Practical Possibilities of the Unit:

1.-Obtaining of curves H (Q), N (Q), Eff% (Q).

2.-Obtaining of the map of a centrifugal pump.

3.-Adimensional study of magnitudes H*, N* and Q*.

4.-Cavitation test and obtaining of curves NPSHr.

5.-Series coupling of two pumps with same characteristics.

6.-Series coupling of two pumps of different characteristics.

7.-Parallel coupling of two pumps with same characteristics.

8.-Parallel coupling of two pumps of different characteristics.

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Thermal Engineering Laboratory Equipment

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Thermal Engineering Laboratory Equipment
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ExercisesandPracticalPossibilitiestobedonewithMainItems

1.-Obtaining of curves H (Q), N (Q), Eff% (Q).

2.-Three simultaneous representatios of H (Q), N (Q) and Eff% (Q).

3.-Obtaining of the map of a centrifugal pump.

4.-Adimensional study of magnitudes H*, N* and Q*.

5.-Cavitation test and obtaining of curves NPSHr.

6.-Series coupling of two pumps with same characteristics.

7.-Series coupling of two pumps of different characteristics.

8.-Parallel coupling of two pumps with same characteristics.

9.-Parallel coupling of two pumps of different characteristics.

Additional practical possibilities:

10.-Sensors calibration.

Other possibilities to be done with this Unit:

11.-Many students view results simultaneously.

To view all results in real time in the classroom by means of a projector or an electronic blackboard.

12.-Open Control, Multicontrol and Real Time Control. This unit allows intrinsically and/or extrinsically to change the span, gains; proportional, integral, derivate parameters; etc in real time.

13.-The Computer Control System with SCADA allows a real industrial simulation.

14.-This unit is totally safe as uses mechanical, electrical and electronic, and software safety devices.

15.-This unit can be used for doing applied research.

16.-This unit can be used for giving training courses to Industries even to other Technical Education Institutions.

17.-Control of the PBSPC unit process through the control interface box without the computer.

18.-Visualization of all the sensors values used in the PBSPC unit process.

- By using PLC-PI additional 19 more exercises can be done.

- Several other exercises can be done and designed by the user.

 

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Thermal Engineering Scientific Equipment

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Thermal Engineering Scientific Equipment
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Thermal Engineering Scientific Equipment:

Bench-top unit.

Anodized aluminium structure and panel in painted steel (epoxi paint).

Diagram in the front panel.

Vacuum-meter of range (-9800 [mm H2O] to 0).

Vacuum-meter of range (-1000 [mm H2O] to 0).

Manometer of range (0 to 1000 [mm H2O] ).

Manometer of range (0 to 2.5 [bars]).

Mobile Piston (syringe).

8 valves.

Non-return valve.

Polyurethane tubes.

This system is supplied with atm, bares, psi, mmHg, mm H2O, conversion tables.

This system allows the calibration of 6 sensors (same type) simultaneously.

Manuals: This unit is supplied with the following manuals: Required Services, Assembly and Installation, Starting-up, Safety, Maintenance & Practices Manuals.

Dimensions: 720 x 300 x 570 mm. approx. Weight: 15 Kg. approx.

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Twin Centrifugal Pump Configurations

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Twin Centrifugal Pump Configurations
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Technical Description

The system comprises 2 identical centrifugal pumps that are connected together via pipes. Manual valves make it possible to switch quickly between series and parallel operation. Manometers indicate the pressure at all important points in the pipe system. The pump characteristics can be recorded. The hydraulic power output of the pumps can be determined. 
The water supply and volumetric flow rate measurement are provided by . Alternatively, the arrangement can also be operated from the laboratory mains supply. 

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Variable Speed Centrifugal Pump

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Variable Speed Centrifugal Pump
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Technical Description

The pump is a self-priming design. Experiments can be performed with the pump on its own, or in series with the pump on the  bench.
Drive is provided via a speed-controlled asynchronous motor with frequency converter. The speed and the electrical power at the motor are displayed digitally. Two manometers indicate the suction and delivery pressure.
The water supply and volumetric flow rate measurement are provided by the Basic Hydraulics Bench.
 

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Vortex Flowmeter

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Technical Description

The is used for experiments on various methods of measuring volumetric and mass flow rates. 2 continuous and 2 intermittent methods are introduced. The continuous methods include a vortex flow meter and a variable-area flow meter. In the vortex flow meter an oscillating vortex is produced, the frequency of the oscillation is proportional to the flow rate. The vortex is made visible using ink. The gravimetric measurement using precision scales can be used as a comparison measurement. The flow rate can be finely adjusted using a manual valve. A comparison of the measurements using the different methods is possible. The water supply is provided either from the laboratory (closed water 
circuit). 


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Kunal Chopra (CEO)
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