A laboratory evaporation system capable of being configured as rising or falling film, single or double effect.
Integral USB interface for computer data logging and control.
Contains vacuum pump, condenser and condensate vessel.
Temperature controlled pre-heat stage.
Adjustable re-circulation on each evaporation stage.
Manual control console.
Options to operate from external steam supply, or integral electrically heated pressurized hot water circulator.
The refrigerator circuit is made ofcopper pipes.The set of equipment and the vacuum and recharge station allow a fastassembly and disassembly of the refrigerator circuit. The Trainer On Industrial Refrigerators With One Evaporator And An Open Type Compressor With Fault Simulation allows to study the circuit layout adopted in the normal industrial refrigerators fitted with water evaporator and an open-type compressor. The student can rise his knowledge about the main components of arefrigerator plant, experiment the problems due to the filling and the emptying of the circuit and, at last, simulate some simplefaults. The refrigerant is Freon R134a (HFC), CFC free, and the unitincludes the measuring instruments that are necessary to survey operating parameters and to test the refrigerator circuit. A wheeled frame carries a horizontal working panel, fitted with a 80 mm vice, and a vertical frame, where the maincomponents of the unit and a silk-screen printed synoptic panel are mounted at sight.
Required services of Trainer On Industrial Refrigerators With One Evaporator And An Open Type Compressor With Fault Simulation
The refrigerator circuit is made of copper pipes. The set of equipment and the vacuum and recharge station allow a fast assembly and disassembly of the refrigerator circuit. The Trainer On Industrial Refrigerators With One Evaporator And An Hermetic Compressor With Fault Simulation allows to study the circuit layout adopted in the normal industrial one-compartment refrigerator systems, fitted with positive temperature evaporator and hermetic compressor. The refrigerant is Freon R134a (HFC), CFC free, and the unit includes the measuring instruments that are necessary to monitor operating parameters and to test the refrigerator circuit. The student can rise his knowledge about the main components of a refrigerator plant, experiment the problems due to the filling and the emptying of the circuit and, at last, simulate some simple fault. A wheeled frame carries a horizontal working panel, fitted with a 80 mm clamp, and a vertical frame, where the main components of the unit and a screen printed synoptic panel are mounted at sight.
....The evaporation is obtained under an adequate vacuum degree. With this plant it is possible to realise different process continuous and batch concentration. It is also possible to repeat the concentration step many times until a desired concentration degree is reached. The Thin Layer Evaporator Concentrator evaporator plant was designed in order carry out test of concentration of alimentary product such as fruit juice, milk, sugar solution, tomato sauce or other liquid, under vacuum and thin film productions. The process of concentration of above products is obtained by evaporation of the solvent (water normally) with the result to increase the degree of food conservation.
....The Trainer On Domestic Refrigerators With One Evaporator And Hermetic Compressor allows to study the circuit layout adopted in the normal domestic one-compartment refrigerator systems, fitted with positive temperature evaporator and hermetic compressor. The training unit is supplied as standard with a full set of manuals describing the composition of the unit, the set up procedure, operating methods and some exercises. The refrigerator circuit is made of copper pipes. The set of equipment and the vacuum and recharge station allow a fast assembly and disassembly of the refrigerator circuit. A wheeled frame carries a horizontal working panel, fitted with a 80 mm vice, and a vertical frame, where the main components of the unit and a silk-screen printed synoptic panel are mounted at sight. The student can rise his knowledge about the main components of a refrigerator plant, experiment the problems due to the filling and the emptying of the circuit and, at last, simulate some simple faults.
....The fully instrumented equipment allows to study the concentration at atmospheric pressure or under various vacuum levels as well as to produce small quantities of concentrate to be utilized in the laboratory.
....The Trainer On Industrial Refrigerators With One Evaporator And A Semi-Hermetic Compressor With Fault Simulation allows to study the circuit layout adopted in the normal industrial refrigerators, fitted with positive temperature evaporator and semi-hermetic compressor. A wheeled frame carries a horizontal working panel, fitted with a 80 mm vice, and a vertical frame, where the main components of the unit and a silk-screen printed synoptic panel are mounted at sight. The refrigerant is Freon R134a (HFC), CFC free, and the unit includes the measuring instruments that are necessary to survey operating parameters and to test the refrigerator circuit. The student can rise his knowledge about the main components of a refrigerator plant, experiment the problems due to the filling and the emptying of the circuit and, at last, simulate some simple faults. The refrigerator circuit is made of copper pipes. The set of equipment and the vacuum and recharge station allow a fast assembly and disassembly of the refrigerator circuit.
....The Trainer On Domestic Refrigerators With Two Evaporators And Hermetic Compressor allows to study the circuit layout adopted in the normal domestic refrigerators with freezing room, fitted with positive temperature evaporator, negative temperature evaporator and hermetic compressor. A wheeled frame carries a horizontal working panel, fitted with a 80 mm clamp, and a vertical frame, where the main components of the unit and a screen printed synoptic panel are mounted at sight. The refrigerant is (HFC), CFC free, and the unit includes the measuring instruments that are necessary to monitor operating parameters and to test the refrigerator circuit. The student can rise his knowledge about the main components of a refrigerator plant, experiment the problems due to the filling and the emptying of the circuit and, at last, simulate some simple faults. The refrigerator circuit is made of copper pipes. The set of equipment and the vacuum and recharge station allow a fast assembly and disassembly of the refrigerator circuit.
Experiments:
Filling of a refrigerator circuit and leak detection.
Study of the main components.
Fault simulation.
Assembly and disassembly of the circuit.
The steam bench includes two evaporator vessels with interconnecting pipework and valves to allow single or double effect evaporation. The steam feed line includes a pressure reducing valve and safety relief valve. Double Effect Evaporator consists of a sturdy framework and panels of all steel construction, fitted with a student work surface interconnecting back panel and adjustable feet. Bourdon type pressure gauges are provided for pressure indications and thermocouples are used to measure temperature, which may be individually selected for display on an analogue temperature meter. The steam used is measured by sub cooling the condensate and using collecting beakers.
Experimental Capability:
Comparison of the relative efficiencies of a single effect and double effect evaporator.
Determination of the performance of a double effect evaporator.
Bench-top unit.
Diagram in the front panel with similar distribution to the elements in the real unit.
Cooling compressor, computer controlled.
Anodized aluminium structure and panels in painted steel (epoxy paint). Main metallic elements in stainless steel.
Air evaporator, computer controlled. Water evaporator.
High pressure control.
Coolant accumulation tank. Cooling filter. Tank of division of the cooling liquid.
Expansion valve.
Water condenser.
2 Pressure sensors: Cooling pressure sensor (compressor outlet). Cooling pressure sensor (compressor inlet).
4 Manometers.
3 Flow sensors: Cooling flow sensor. Water flow sensor (water condenser). Water flow sensor (water evaporator).
Wattmeter.
Bench-top unit. Anodized aluminium structure and panels in painted steel (epoxy paint). Main metallic elements in stainless steel.
Air condenser, computer controlled.
High pressure control.
Coolant accumulation tank. Cooling filter. Tank of division of the cooling liquid.
Diagram in the front panel with similar distribution to the elements in the real unit.
Cooling compressor, computer controlled.
Expansion valve.
Air evaporator, computer controlled.
Water evaporator.
4 Manometers.
2 Flow sensors: Cooling flow sensor. Water flow sensor (water evaporator).
9 Temperature sensors (4 sensors measure the cooling temperature, 2 sensors measure the water temperature, 3 sensors measure the air temperature
2 Pressure sensors: Cooling pressure sensor (compressor outlet). Cooling pressure sensor (compressor inlet).
Enthalpy diagram of the refrigerant R134a.
Wattmeter.
The refrigerant is Freon R134a (HFC), CFC free, and the unit includes the measuring instruments that are necessary to monitor operating parameters and to test the refrigerator circuit. The Trainer On Industrial Refrigerators With Two Evaporators And Semi-Hermetic Compressor allows to study the circuit layout adopted in the industrial refrigerators with two evaporators and semi-hermetic compressor. The refrigerator circuit is made of copper pipes. A wheeled frame carries a horizontal working panel, fitted with a 80 mm clamp, and a vertical frame, where the main components of the unit and a screen printed synoptic panel are mounted at sight. The student can rise his knowledge about the main components of a refrigerator plant, experiment the problems due to the filling and the emptying of the circuit and, at last, simulate some simple faults. The Trainer On Industrial Refrigerators With Two Evaporators And Semi Hermetic Compressor set of equipment and the vacuum and recharge station allow a fast assembly and disassembly of the refrigerator circuit.
Experiments:
Filling of a refrigerator circuit and leak detection.
Fault simulation.
Study of the main components.
Assembly and disassembly of the circuit.
The Heat Pump with Dual Mode Evaporator Training Bench comprises a hermetic piston compressor with integrated oil cooler and a water condenser. All instruments are included to take real-time data readings for further analysis.
The refrigerant used complies with anti-pollution legislation.
An Air-to-Water Heat Pump with Dual mode Evaporator Training Bench for studying the refrigeration cycle where the evaporator can be operated with either water or air.
The Heat Pump with Dual Mode Evaporator Training Bench has been designed and manufactured to incorporate all current safety standards.
Experiments:
Studying the operation of a heat pump
Determining the ideal and actual coefficient of performance (C.O.P.)
Comparison of evaporator operation and performance when operated with air or water
Reading and analysing the water temperatures and flow rate in real-time when the equipment is operating
Reading and analysing refrigerant pressures, temperatures and flow rate
Plotting the refrigeration cycle on a p-h diagram.
Nitrogen Evaporator and Concentrator
....Bench-top unit.
Anodized aluminium structure and panels in painted steel. Main metallic elements in stainless steel.
High pressure control.
Coolant accumulation tank. Cooling filter. Tank of division of the cooling liquid.
Expansion valve.
Cooling compressor, computer controlled.
Water condenser.
Water evaporator.
4 Manometers.
2 Pressure sensors: Cooling pressure sensor (compressor outlet). Cooling pressure sensor (compressor inlet).
7 Temperature sensors:
3 Flow sensors: Cooling flow sensor. Water flow sensor (water condenser). Water flow sensor (water evaporator).
Enthalpy diagram of the refrigerant R134a.
Wattmeter.
Bench-top unit.
Diagram in the front panel with similar distribution to the elements in the real unit.
Cooling compressor, computer controlled.
Anodized aluminium structure and panels in painted steel. Main metallic elements in stainless steel.
Coolant accumulation tank. Cooling filter.
Expansion valve.
Water evaporator.
Air condenser, computer controlled.
High pressure control.
Tank of division of the cooling liquid.
4 Manometers.
2 Flow sensors (cooling flow sensor and water flow sensor).
2 Pressure sensors: Cooling pressure sensor (compressor outlet). Cooling pressure sensor (compressor inlet).
8 Temperature sensors (4 sensors for the cooling temperature, 2 sensors for water temperature, 2 sensors for the air temperature)
Enthalpy diagram of the refrigerant R134a.
Wattmeter.
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.
Bench top unit with anodized aluminum structure and panels of painted steel.
Diagram in the front panel with similar distribution to the elements in the real unit.
Main metallic elements of stainless steel.
Computer controlled cooling compressor:
a. Type: hermetic.
b. Power: 1 CV.
2 water condensers, capacity: 1580 W.
2 computer controlled air condensers.
High pressure switch.
Expansion valve.
Coolant accumulator.
Coolant filter to retain particles of condensate.
2 computer controlled air evaporators.
2 water evaporators, capacity: 1580 W.
4 manometers, situated at important points of the process.
13 type J temperature sensors.
Liquid separator to retain liquid particles before being directed to the compressor.