Plastic keys, sliding cover protection, dual line display, 240 function, x/y score display, multi step reproduction, a set of multi-functional and integrated function calculator.
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For Use With (Equipment): Micro TPI and Micro TPW Portable Turbidimeters
Type: Primary Calibration Kit
Turbidity: 0.02, 10, 1000 NTU.
This lab coat is off the charts with all our best material production features.
Featuring a 6-gripper closure, neck gripper, and a chest pocket, this Unisex Specialized Cuffed Lab Coat looks as professional as it is durable.
Plus, who doesn't need the storage offered by a chest pocket and two lower pockets?
Put this lab coat to the test and see why it's a customer favorite.
Lab, medical facility, and clinic workers will appreciate the knit cuffs that keep sleeves from interfering with work and extended back coverage to protect from messy jobs.
Maintenance Kit containing Leakage Detector
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Fiber Optic Splicer Electronic Engineering Lab
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Automatic Glassware Washer
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Data Collection Platform 64 Bit
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Beams are important design elements in mechanical engineering and building construction that can deform under load. In linearelastic material behaviour, the bending line, also known as elastic line, is used to determine the deflection of beams. Deflection can be determined at any point on the beam using the influence coefficients and commutative theory. Beams are subjected to load transversely in the axial direction, which leads to deflection.
Features:
Beams of different materials: steel, brass and aluminium.
Learning Objectives And Experiments:
Elastic line and support forces in statically indeterminate systems.
Elastic line under varying load.
Elastic line under various support conditions.
The process of Dropwise Condensation is enhanced by the special water cooled condenser surface finish that prevents wetting of the surface. This continuous cleaning puts the water cooled surface in direct contact with the vapour. Condensation then occurs in droplets which grow and fall under gravity. These falling droplets wipe the surface clean ready for more droplets to form.
Vapour may condense onto a cooled surface in two distinct modes known as Filmwise and Dropwise. However it involves special surface finishes or treatment in order to maintain Dropwise Condensation and for this reason, though desirable, it seldom occurs in real plant operation. For the same temperature difference between the vapour and the surface, Dropwise Condensation is several more times effective than filmwise.
The film effectively acts as a resistance to heat transfer, as heat must be conducted through this film to the internal cooling water. The duplicate Filmwise Condenser is not specially treated and allows condensation to form as a film. This effectively grows and runs down the condenser gaining thickness as it falls.
The engine can be operated as an external ignition petrol engine or an auto-ignition diesel engine. The mode of operation can be changed by a few simple conversion steps. This allows the compression ratio to be adjusted over a wide range. The key feature is that the cylinder has been modified so that its height can be adjusted along with that of the cylinder head. Major technical modifications have been made to a standard water-cooled single cylinder engine to allow demanding issues in engine technology to be investigated by experiment.
Learning Objectives/Experiments:
Influence of ignition point on fuel consumption, power output, efficiency and exhaust gas composition
Comparison of diesel and petrol cycles
Plotting of torque and power curves
Determination of volumetric efficiency and lambda (fuel-air ratio)
Energy balances
Determination of friction loss (in passive mode)
Determination of specific fuel consumption
Determination of efficiency
Influence of compression on fuel consumption,
Power output, efficiency and exhaust gas composition.
Specifically, this learning system focuses on using a Safety PLC with Step 7 software to teach applicable reversing motor applications such as controlling the movement of a conveyor system that does not require a variable speed. Safety I/O With Reversing Starter Learning System teaches reversing motor starter configuration, programming, and operation in Safety PLC applications. Major topic areas within the curriculum are reversing motor starter operation, motor starter construction, disconnect module operation, starter configuration, and starter programming.
This learning system adds to the Programmable Controller Troubleshooting Learning System and the PLC Troubleshooting Learning System to expand offering of Safety PLC curriculum. The Safety I/O With Reversing Starter Learning System includes a reversing motor starter, discrete I/O modules, disconnect module, curriculum, instructors guide, and installation guide.
Features:
Teaches reversing motor starter configuration, programming, and operation in Safety PLC applications
Only source for reversing motor starter training on safety PLC applications
Focuses on using a Safety PLC with Step 7 software.
The simulator takes into consideration all the devices, circuits and systems for the starting and the recharging. The combustion engines must be started with a special device because, differently iron the electric motors or the steam engines, they cannot start by themselves. The simulator analyzes in detail all the different phases relevant to the starting transistors, the conditions of standard operation, the recharging and the situations or variation of the electric loads.
In particular the following components are analyzed:
Alternator
Connecting circuits
Battery
Starter.
Bench-top unit, with anodized aluminum structure and painted steel panels.
Main metallic elements of stainless steel.
Water condenser, capacity: 1580 W.
High pressure control.
Coolant accumulator.
Diagram in the front panel with similar distribution to the elements in the real unit.
Cooling compressor, computer controlled, power: 1/2 CV.
Air condenser, computer controlled.
Coolant filter to retain particles of condensate.
Expansion valve.
4 Manometers, situated at important points of the unit.
Water evaporator, capacity: 1580 W.
Air evaporator, computer controlled.
Liquid separator to retain liquid particles before going on to the compressor.
The Mechanical Drives Learning System includes a mobile workstation, motor control unit, mechanical transmission system components, specialized tools, prony brake load device, and performance measurement instruments. Mechanical Drives Learning System covers the operation, installation, performance analysis, and basic design of mechanical transmission systems using chains, v-belts, spur gears, bearings, and couplings. Additional panels are also available to extend the learning capabilities of the Mechanical Drives Learning System to provide the most extensive range of component coverage ever available for a mechanical trainer. Learners will practice industry-relevant skills to prepare for real-world industrial applications in fields such as agriculture, automotive, mining, and many more. Learners will use these mechanical transmission components to study major topics like key fasteners, power transmission systems, V-belt drives, chain drives, spur gear drives, and multiple shaft drives. Mechanical Drives Learning System uses industrial quality components to help assure that learners are better prepared for what mechanical drives they will encounter on the job and to withstand frequent student use.
Features:
System Performance Measurement
Machine Load Devices
Industrial Safety Procedures with Lockout/ Tagout
Heavy Duty Precision-Machined Worksurface
Component Storage Panels
Double-Sided Workstation
Wide Range of Component Options
2-Student Workstation
Industrial Standard Components
Student Reference Guide
Multimedia Curriculum Available.
Metering pump with a flow rate of 0 to 24 liters per hour.
Steam trap
Graduated tank with a capacity of 1 liter for measuring the condensate
Bourdon vacuum gauge with a capacity of 1 to 0
Bourdon pressure gauge with a capacity of 0 to 1.6 bar
Bourdon pressure gauge with a capacity of 0 to 6 bar
Metering pump with flow rate of 0 to 8.5 liters per hour
Feed tank with a capacity of 25 liters
Tank with a capacity of 10 liters for collecting the condensed solvent
Tank with a capacity of 10 liters for collecting the concentrated product
Shell-and-tube condenser with an exchange surface of 1.1 m2
Falling film shell-and-tube evaporator with an exchange surface of 0.27 m2
Tube-in-tube heat exchanger.
Calibrated diaphragm with differential pressure transmitter for measuring the steam flow rate
Pneumatic valve for control of the steam flow rate, Cv=0.32
6x electronic temperature indicators
6x digital thermocouples with pt100 probes protected by stainless steel shield sleeves.
Compact laboratory designed for training of 14 years students and over. The trolley is completely mobile and has 5 storage drawers, protecting the equipment in shock-free, molded sponge pods. You can organize the equipment according to the subjects for quick and easy setup and control of the equipment itself. It is particularly suitable to introduce the main and practical refrigeration applications in both vocational and technical schools. It is possible to compose the circuit on the aluminum surface to place on the working top. Opportunity of fault insertion and detection. It is ideal for all teaching environments and its modular design guarantees both flexibility and adaptability for all the experiments. The Refrigeration Mobile Lab is already equipped with all the necessary feed fittings according to the industrial standards.
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The device simulates various working conditions of the engine, cleaning and detecting the fuel injection nozzle of various automobile, and can also carry out the cleaning of the automobile fuel injection nozzle and the fuel supply system. The equipment adopts ultrasonic cleaning technology and microcomputer oil pressure closed loop control cleaning detection technology.
Features:
Ultrasonic Cleaning
On-vehicle Cleaning
Auto cleaning test function
Uniformity & Spray ability Test
Leakage Test
Direct Flush
Reverse Flush
