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DIESEL ENGINE, TWO-STROKE (0192)
A model of two-stroke water cooled diesel engine made in cast alloy metal. Ignition simulated by meilns of a miniature bulb. Fuel supply is also sectioned. With hand crank proved for manual operation depicting cam operated inlet and exhaust valves.
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DIESEL ENGINE, TWO-STROKE Mounted on metal base with printed diagram and key (0192)
A model of two-stroke water cooled diesel engine made in cast alloy metal. Ignition simulated by meilns of a miniature bulb. Fuel supply is also sectioned. With hand crank proved for manual operation depicting cam operated inlet and exhaust valves.
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DIESEL ENGINE, TWO-STROKE Mounted on plastic base (0192)
A model of two-stroke water cooled diesel engine made in cast alloy metal. Ignition simulated by meilns of a miniature bulb. Fuel supply is also sectioned. With hand crank proved for manual operation depicting cam operated inlet and exhaust valves.
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DIESEL ENGINE, FOUR-STROKE (0193)
A model of four-stroke water-cooled diesel engine. Clearly demonstrates the functioning of all critical components such as fuel injection system. camshaft. rocker arms, tappets etc. Cam operated inlet and exhaust valves being driven by a gear train from rear of the main crank. Ignition simulated by means of a miniature bulb. Mounted on a stable base. with printed diagram and key.
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DIESEL ENGINE, FOUR-STROKE Mounted on metal base with printed diagram and key (0193)
A model of four-stroke water-cooled diesel engine. Clearly demonstrates the functioning of all critical components such as fuel injection system. camshaft. rocker arms, tappets etc. Cam operated inlet and exhaust valves being driven by a gear train from rear of the main crank. Ignition simulated by means of a miniature bulb. Mounted on a stable base. with printed diagram and key.
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DIESEL ENGINE, FOUR-STROKE Mounted on plastic base (0193)
A model of four-stroke water-cooled diesel engine. Clearly demonstrates the functioning of all critical components such as fuel injection system. camshaft. rocker arms, tappets etc. Cam operated inlet and exhaust valves being driven by a gear train from rear of the main crank. Ignition simulated by means of a miniature bulb. Mounted on a stable base. with printed diagram and key.
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STEAM ENGINE MODEL WITH BOILER (0194)
Operation of a commercial steam engine is well illustrated with this working model. The extra large size unit is provided with a horizontal boiler with a whistle. safety valve. steam gauge. Mounted on a metal base. Heating caused due to burning of fuel cause water in the boiler to boil and the resulting steam makes the flywheel mounted on the crank to rotate. A pulley mounted at the free end of flywheel shaft can be used to drive dynamo etc .. to demonstrate the conversion of chemical energy to heat, mechanical and electrical energies respectively. Supplied complete with fuel. fuel burner and screw driver for opening the boiler to fill it with water.
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WANKEL ENGINE (0195)
This sectional model shows the internal structure in detail and demonstrates its basic principle operation. Unlike other engines, this engine incorporates rotary piston arrangements, completely eliminating reciprocating parts. The power piston is an arch shaped triangular rotor, which on rotating through a crank handle at the rear generates an epitrechoid. Ignition simulated by means of a miniature bulb. Mounted on base, with key and printed diagram showing working
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WANKEL ENGINE Mounted on metal base with printed diagram and key (0195)
This sectional model shows the internal structure in detail and demonstrates its basic principle operation. Unlike other engines, this engine incorporates rotary piston arrangements, completely eliminating reciprocating parts. The power piston is an arch shaped triangular rotor, which on rotating through a crank handle at the rear generates an epitrechoid. Ignition simulated by means of a miniature bulb. Mounted on base, with key and printed diagram showing working
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WANKEL ENGINE Mounted on plastic base (0195)
This sectional model shows the internal structure in detail and demonstrates its basic principle operation. Unlike other engines, this engine incorporates rotary piston arrangements, completely eliminating reciprocating parts. The power piston is an arch shaped triangular rotor, which on rotating through a crank handle at the rear generates an epitrechoid. Ignition simulated by means of a miniature bulb. Mounted on base, with key and printed diagram showing working
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GAS TURBINE TURBOJET ENGINE Mounted on metal base with printed diagram and key (0196)
The open sectional model constructed of light?weight cast alloy metal shows the internal structure in detail. The critical components such as air intake, axial flow, double stage compressor, fuel supply, combustion chamber, turbine rotor, jet thrust exhaust etc. , are clearly depicted. Provides easy understanding of the functioning of a gas turbine / turbojet engine.
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GAS TURBINE TURBOJET ENGINE Mounted on plastic base (0196)
The open sectional model constructed of light?weight cast alloy metal shows the internal structure in detail. The critical components such as air intake, axial flow, double stage compressor, fuel supply, combustion chamber, turbine rotor, jet thrust exhaust etc. , are clearly depicted. Provides easy understanding of the functioning of a gas turbine / turbojet engine.
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GAS TURBINE TURBOJET ENGINE (0196)
The open sectional model constructed of light?weight cast alloy metal shows the internal structure in detail. The critical components such as air intake, axial flow, double stage compressor, fuel supply, combustion chamber, turbine rotor, jet thrust exhaust etc. , are clearly depicted. Provides easy understanding of the functioning of a gas turbine / turbojet engine.
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WATER TURBINE WITH DYNAMO MODEL (0197)
To show the conversion of mechanical energy into electrical energy by using it as a water turbine to drive a dynamo for producing electricity. The plastic impeller housed in a cast metal casing with a clear Perspex front that allows viewing of its functioning. The inlet tube provided at the top and outlet tube on the side, both tubes riffled for tubing connectors. A dynamo mounted along the impeller shaft glows the LED indicating the conversion of mechanical energy to electrical energy.
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HERO'S ENGINE EOLIPILE (0198)
A functional model of the earliest form of steam turbine described by Hero of Alexandria. Comprising a borosilicate glass bulb 10mm diameter approx., with side arms bent at right angles and formed into jets at their tips. The bulb is mounted horizontally on a stand, which leaves it free to rotate about its axis. Boiling the water contained in bulb ejects steam from the nozzles with high velocity triggering its rotation. Supplied complete with stand but without burner.
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