With very low noise level for small capacity.
Air intake: 50 litres/min.
Max. working pressure: 8 bar or 116 PSI
Tank capacity: 24 litres
Noise level: 40 dB
Motor power: 0.34 kW or 0.45 HP
Dimensions: 40 x 40 x 60 (h) cm.
Weight: 25 kg.
Pressure Process Control Learning System simulator features an exposed component layout built to enhance a learners understanding of a pressure process control systems operation. This functionality allows learners to study important industrial gas blanket applications as well as gain valuable hands-on experience in practicing a broad range of pressure process operations in both manual and automatic modes. Pressure Process Control Learning System offers the ability to control liquid level and tank pressure simultaneously using a human machine interface (HMI), programmable automation controller (PAC), and variable frequency drive (VFD) that are found in real-world industrial fields such as pharmaceutical, bio-technology, and power generation. Additional industrial-grade components on this learning system include: level sensors, which learners can use to set alarms; a centrifugal pump for producing liquid flow; and several valves to show their function and operation in a loop control system. This training simulator is compact enough to fit through a standard door, yet broad enough to offer all of the skills and topics a learner needs.
Features:
Highly Interactive Multimedia to Engage All Learners
Use with Additional Process Control Systems
Control Liquid Level and Tank Pressure Simultaneously
Practice Real-World Pressure Control using an Industrial-Grade PAC
Student Reference Guide.
All experiment elements are made in special and anodized aluminium.
Friction with roar.
Friction equipment.
Block of wheels with roar.
Set of rollers in a marc.
Foils of friction.
Roller.
Bearings.
The simple pendulum.
Principle of wedge.
The set is supplied in plastics box. Slider crank, slotted link, and quick return mechanism are used for studying relation of rotary motion and translation. Rotary Translation Motion Set is part of mechanical Engineering Test Series which provides sets for various experiments on Basic Panel (separately supplied) to study or demonstrate specific engineering principles.
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A bench mounted, belt driven, single stage reciprocating air compressor with a motor dynamometer allowing measurement of the motor shaft power.
Intake and discharge air pressures are measured together with the air flow rate, motor drive speed and torque.
An intake vessel reduces intake air pulsations and a high pressure air receiver is connected to the compressor discharge.
The unit is supplied with a detailed experimental operating and maintenance manual giving example experimental results and sample calculations.
An optional computerized data acquisition upgrade is available that allows all relevant system parameters to be automatically recorded on a PC.
Integral duplex thermocouples record all relevant system temperatures and are connected to a multi-way selector switch and digital temperature indicator.
The heavy-duty box-section support beamworks as the main support underneath the test beams and the leaf spring duringthe tests. The spring is of the same heavy-duty design as those used in vehicle suspensions. The Beam and Leaf Spring parts fit into the compressive testarea of Universal Testing Machine. The testing machine applies a compressive bending force and measures the beam deflection. Students may adjust the position of the knife edge supports to setthe length of beam under test. This give students a better understanding of a ‘real world engineering component. For beam tests, the test beam rests across two knife edge supports fixed to the support beam. This forms a ‘simply supported beam. For leaf spring tests, the spring rests on its rollerson two fl at supports fixed to the support beam. They can then compare theresults with those predicted by theory. Again, the testing machineapplies a compressive force and measures the leaf spring deflection. For thebeams, students use the deflection and force values to find the relationshipbetween force and deflection for the different beams.
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Features:
Automatic requesting for testing result data, also capable of launching an advanced analysis to inspect the data.
As many as 20 layers of sensor linear compensation, elevates the precision of the instruments to the next level.
Support saving, instant retrieving and inspection of testing results.
Capable of re-analyzing test data and curves, and partial zooming of testing curves at will.
Rounding off of numerical testing data complies with Rules of Rounding Off for Numerical Values, supports rounding off in sections and custom rounding off.
Characteristic testing data can be marked on testing graphs.
Capable of statistical operations on testing data (average, standard deviation, coefficient of variance).
Dynamic display of load, displacement, deformation and real-time testing curve on the screen.
Closed loop control of channels such as load, displacement, deformation, etc. Smooth switching in between.
Support Excel report templates and customized editing of test reports.
Integrated with software limit protection, hardware travel limit protection and full scale overload protection.
Support for multi-language user-interface extendibility.
Real-time drawing of curves of remaining load with time, or temperature with time.
Automatically retrieves test data and inspects the stress relaxation performance of the specimen. (e.g. stress relaxation rate, relaxed stress, relaxation rate, etc.)
Closed test space design reduces the temperature shift resulted from the air flow at the air-conditioner vent, improves the temperature uniformity and stability in the test space.
Pre-installed with reaction frame, provides more convenience for the load transducer to calibrate.
Comparing a framed structure with a column-based structure, the framed structure has better stiffness that is over 2.5 times greater than the column-based structure.
Support for 100-hour tests. Test time can be assigned at will. E.g. 24-hour test.
Closed loop control of channels such as load, displacement, deformation, etc. Smooth switching in between.
Splitting the sampling stage into four sub-stages and applies different sampling cycles in consideration of the logarithm characteristic of time, improving the reliability of data greatly.
Algorithm to predict specimens stress relaxation performance after 1000 hours (or any specified value in hours), with the option of single or double logarithm. Capable of predicting with standard specimen data or real-time collected data (Suggested). Integrated with an extensive specimen library to improve the precision and reliability of testing results.
As many as 20 layers of sensor linear compensation, elevates the precision of the instruments to the next level.
Mini Axial Flow Impulse Turbine is to be used with Hydraulics Bench. The Mini Axial Flow Impulse Turbine twin nozzles with flow control valves direct water jets to the runner radial blades. Mini Axial Flow Impulse Turbine demonstrates axial flow impulse turbine characteristics i.e. torque, power and efficiency at different speeds for various heads and flow rates of water. Flow rate is measured by the Hydraulics Bench measuring tank. The apparatus has a hose for connection to the Hydraulics Bench. Nozzle pressure is indicated by a pressure gauge. Torque is measured by a prony brake with two spring balances. Speed is indicated on a portable tachometer.
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The steam engine is supplied with steam from a steam header at a reduced pressure via an overspeed trip solenoid valve and a displacement lubricator from which oil is displaced by droplets of condensed steam into the steam supply to lubricate the engine. Steam Engine Steam Bench consists of a sturdy framework and panels of all steel construction, fitted with a student work surface, interconnecting hack panel and adjustable feet. Engine inlet and outlet steam pressures are indicated on 0-16 bar and -1 to 3 bar Bourdon tube pressure gauges respectively. A control cubicle surmounted by resistive load elements within a separate ventilated enclosure, contains electrical control circuits and is fitted with the control switches and the indicating instruments for engine speed, dynamometer output current and voltage and analogue temperatures which can be selected by an associated multi-position switch. The steam bench comprises a robust single cylinder, double acting reciprocating steam engine driving a dynamometer which enables a calculable, variable resistive load to be easily imposed on the engine. Exhaust steam is cooled by a water cooled, coiled tube type condenser.
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A low range strain gauge transducer measures the positive or negative force caused by the torque reaction produced when swirling air is straightened by the honeycomb. This torque is normally calibrated over a small range for higher accuracy.
The display unit contains the signal conditioning electronics in a rack mounting module.
The front panel carries the 4 digit LED display, a main on/off switch and zero and span potentiometers. The rear panel connections include a 10V analog signal for connection to the data acquisition system.
The matrix is connected via a torque to a strain gauge transducer which is calibrated by suspending weights over pulleys either side of the torque arm.
The length of torque arm is such as to enable torque values up to 0.1Nm to be The unit shall be arranged for flow in an upward and downward direction and is supplied complete with adaptor plate having a pilot bore of diameter 50mm.
Swirl meter comprises a Honeycomb matrix mounted within cylindrical housing.
The dimensions of individual cell of the matrix being suitable for arresting the swirl of the incoming air
Consists of a fabricated steel frame bench mounted on casters, which house the major components Control, instrumentation and data acquisition is mounted on the frame in one 3U high, 19 wide electronic rack enclosure.
Intended for use with port models with a nominal free air capacity of 50 litres/second.
It is used for blowing or drawing air through the cylinder head port model. The mode of control may either be direct fan speed set point or by the test piece pressure drop set point. A variable speed centrifugal fan/blower unit, capable of 100mBar static pressure and a flow rate of 300m/hr, is attached to a base plate on the bottom level of the frame.
The unit consists of a pump and a storage tank on a steel base input power sensors, and an interface box. The box includes power supply to the motor and computer interface unit. Mini Turbine Service Unit service module provides a water supply and input power measurement for the mini turbine demonstration unit. It also provides, interface ports to the sensors and computer. Both are separately supplied. The Mini Turbine Service Unit is to be used with Mini turbine demonstration unit, and a computer.
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The self-contained unit can do many experiments, but it can also connect to other products in the range for extra experiments. The Pressure Process Training System is a compact and mobile unit for a wide range of experiments in pressure control. It gives students a greater understanding of the stability of simple control systems. For distributed control, it can connect to the optional Computer Control System. For cascade control of flow and pressure, it can link to the optional Flow Process Training System.
The main parts are:
Industrial controller with auto-tune feature
Current-to-pressure converter
Gauge pressure transmitter
Pressure accumulator
Three-speed pump
Reservoir
Two-channel chart recorder
Pneumatic control valve.
The delivery is our responsibility! You can choose the following areas programs and we will provide a proposal FREE of charge.
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The column demonstration apparatus is a small scale vessel that models the operation of a gas contactor or distillation column using air and water as working fluids. Column staging internals show:
Tray columns using sieve, valve and bubble-cap trays
Packed columns using both random and structured packing
Function:
The process has manual control valves with rotameters and is intended to demonstrate contactor distillation principles with basic visual manual operation.
Gas Contactor Distillation Column Demonstrator process uses air and water to emulate column dynamics. Water is recycled; the air is vented to atmosphere.
Wind Turbine Generator Control Troubleshooting Learning System allows learners to gain adaptive skills for generator system operation, adjustment, and troubleshooting in a wide variety of situations. It helps learners to develop and practice both wind turbine component and system level skills and gives them the classroom instruction and hands-on experience that they need to succeed in this emerging and growing field. They know how to service, operate, and troubleshoot the generator control system, which includes the generator, rectifier, generator control unit, power distribution panel, pad mounted transformer, and generator control software. Wind Turbine Generator Control Troubleshooting Learning System also includes unique electronic fault insertion system, which lets learners gain hands-on experience with the troubleshooting of realistic generator control problems, as well as receive automatic feedback on their progress. The generator control system is the heart of a utility-scale wind turbine, converting mechanical rotation of the hub into clean, 3-phase power that synchronizes with the utility grid. Keeping these turbines operational and well maintained requires a specialized skill set, and wind turbine technicians possess these skills. Furthermore, Turbine Generator Control Troubleshooting connects to Nacelle and Hub workstations to create a comprehensive wind turbine learning laboratory.
Features:
Computer Based Fault Insertion across All Key Subsystems
Real-World, Utility-Scale Turbine Generator Control Experience
Connects to Nacelle and Hub workstations to create a comprehensive wind turbine learning laboratory.
The Stall Bar Learning System includes a pneumatic 50NM nutrunner with stall bar, 19MM socket, CD-ROM based student learning materials for both theory and lab, and teachers assessment guide. The Stall Bar Learning System teaches learners how to use a stall bar torque tool to assemble threaded fasteners. These are often used in assembly operations requiring very accurate torque. Stall Bar Learning System uses industrial quality components to help assure that students are better prepared for what they will encounter on the job and to withstand frequent student use. The CD-ROM based curriculum includes virtual simulation of key skills, allowing learners to practice skills in advance of actually working on the equipment. The CD-ROM based curriculum can be accessed locally or web delivered, allowing businesses to increase delivery of high quality assembly practices in far flung organizations.
Features:
Industrial quality components
Hands-on skills
Teaches learners how to use a stall bar torque tool to assemble threaded fasteners.
The dynamometers can be supplied with the standard height of the vertical streamlined profile or with an increased height of the vertical streamlined profile as described below. The three dynamometers are of the same general type but differ in size and capacity as shown below. Full technical details of the dynamometers are provided below.
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The different configuration is possible to enhance understanding of the principles ofmoments, levers, beams and the relationship of distance and forces applied on abeam. The Moments experiment kit enables studentsto understand the relationship of weights and beam balance.
Features:
Appliedstudent Learning via Building and experimentation
Hands-onLearning
Clear andconcise pictorial assembly instructions enhance the learning experience
Multipleexperimental capability per self-contained kit
Tool-Lessassembly.
Supplied witha detailed instruction manual, covering the theory of Moments includingmultiple practical experiments designed to further develop the students understandingin this field.
Air craft Radio Altimeter System Trainer is a fully functional radio altimeter system comprising of actual airborne avionics equipment. They are also abbreviated as Rad. Alt. in avionics terminology. The terms Radio Altimeter and Radar Altimeter are used interchangeably and essentially mean the same.
The Radio Altimeter System Trainer is comprised of the following items:
Bench-mounted mobile workstation
Radio Altimeter Tx and Rx Antennas
Radio Altimeter Transmitter/Receiver
Radio Height Indicator
Test Set Antenna Couplers, qty. 2
Test Set
Power Supply
All necessary wiring harnesses
Features:
Solid-stat eRadio Altimeter Receiver/ Transmitter Unit
Digital altitude processor for long, drift-free operation
Rugged,die-cast construction of the Receiver/Transmitter Unit
Radio Altitude Indicator
Operates on28 volt DC power
Has serial digital output for use by other avionics equipment like FMS and Autopilots
Self test to enable rapid verification of proper system function
Standard radio altimeter antenna used in general aviation aircraft
Adjustable Decision Height function provided to alert pilot via lamp and aural tone that the aircraft has descended to a selected altitude
Aircraft in the air simulation
Fixed, linear variable, and flight profile altitude simulation
Aircraft on Ground simulation
Para metrictesting functions.
