Introduction To Refrigeration Unit
....Ultra-High-Performance Liquid Chromatography (UHPLC)-DAD,ECD,RID
....Nitrogen Evaporator and Concentrator
....Board Electronic Engineering Lab
....Workshop Welding Helmet
....Vacuum Pump Oil Free
....Ancillary Equipment Not Connected To The Data Collection Platform, for In-Situ Field Monitoring
....Incubator Shaker Biological Shaker
....The creep rupture test is a destructive test method for determining the material behaviour (creep) at constant test temperature (room temperature and below) and after prolonged exposure to a constant load. Components that are subjected to long-term constant loads deform plastically. This material behaviour is called creep.
Features:
Experiments at or below room temperature are possible
Typical phenomena of creep processes
Learning Objectives And Experiments:
Influence of temperature and load on the creep
Creep in specimens of various materials
Record a straintime diagram (creep curve)
Load and recovery in plastics.
The heat exchanger is fully instrumented using the Heat Exchanger Service Unit with thermocouples on the inlet and outlet of both the hot and cold streams. An example of an industrial Coiled Concentric Tube Heat Exchanger with turbulence enhancing tubes. The heat exchanger is deliberately not insulated so that heat losses in all of the configurations can be investigated. The heat exchanger can be arranged so that either hot or cold streams are in the inner tube. With either configuration both co-current and counter-current flow can be established.
....Water turbines are turbomachines utilising water power. The water jet is redirected by approximately 180 in the blades. The impulse of the water jet is transmitted to the Pelton wheel. The Pelton turbine is a type of impulse turbine; such turbines convert the pressure energy of water into kinetic energy entirely in the distributor. During the conversion, the water jet is accelerated in a nozzle and directed onto the blades of the Pelton wheel tangentially.
Learning Objectives And Experiments:
Graphical representation of characteristic curves for torque, power and efficiency
Design and function of a Pelton turbine
Determination of torque, power and efficiency.
The Electric Motor Troubleshooting Learning System used in conjunction with the Basic Electrical Machines Learning System, covers the testing and troubleshooting of AC and DC motors using a multimeter and a megger meter. The Electric Motor Troubleshooting Learning System includes a motor connection box to practice hands-on skills such as troubleshooting faults in a DC motor and AC single-phase and three-phase motors, evaluating DC electric motor commutator and brush health, and using a multimeter to test an AC motor start/run capacitor. The skills and knowledge covered by this learning system will prove invaluable for industrial maintenance technicians or anyone working in a field that uses AC and/or DC motors. Learning systems feature real-world, industry-grade components for durability that will stand up to frequent use and to allow learners to gain real-world competencies. This learning system requires a digital multimeter, and a megger meter. Electric Motor Troubleshooting Learning System covers major topics like AC and DC motor failures, common methods of diagnosing these failures by using a multimeter and megger meter, and troubleshooting these failures.
Features:
Covers major topics like AC and DC motor failures, common methods of diagnosing these failures by using a multimeter and megger meter, and troubleshooting these failures.
Covers the testing and troubleshooting of AC and DC motors using a multimeter and a megger meter.
Includes a motor connection box to practice hands-on skills such as troubleshooting faults in a DC motor and AC single-phase and three-phase motors, evaluating DC electric motor commutator and brush health, and using a multimeter to test an AC motor start/run capacitor.
It is equipped with various kinds of basic logic gates, debounced logical switches, LED indicators, DC power supply with short circuit protection, pulse generator and solderless bread board. The design is easy to operate and easy to understand. Logic Trainer: The logic trainer is designed for the logic beginners to enhance the comprehension of basic logical theory.
Features:
Pulse generator
Eight LED indicators
Debounced logic switches
Basic logic gates
DC power supply +5V, -5V and ±15V
Solderless breadboard
Console style case.
Semi-Automatic Pasteurisation Pilot Plant
Pasteurisation is carried out by heating and then quickly cooling the liquid to prevent growth of residual micro-organisms.
A Pasteurisation Plant designed to pasteurise milk and clear juices.
Automated Pasteurisation Pilot Plant with SCADA
Pasteurisation is carried out by heating and then quickly cooling the liquid to prevent growth of residual micro-organisms. A Pasteurisation Plant designed to pasteurise milk and clear juices. It is supplied with a PID controller to control and monitor the process in real time and automatically collect and store process data.
This simulation panel deals with the circuits and the electric components used in the industrial vehicles (buses, Lorries, etc.).
The following sections of the electric plant are reproduced and analyzed:
Electrical supply
Starting
Indicators
Lighting system
Head lights
Anti-fog light
Cooling and aeration
Windshield wipers
Fuel injection
Auxiliary plants
Signalling system.
The kit is used primarily for viewing and information purposes. No provision is made for conducting exercises or experiments. The well-structured instructional material enhances the informational value of the kit. It includes 12 different milling cutters. A shell end mill arbor and 2 cutter arbor rings are also included. A small steel plate with examples of machining is provided to help identify the possible applications for the different types of milling cutter. The kit is clearly laid out on a plastic tray.
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