Pneumatic Transport Apparatus Model FM 123
Pneumatic Transport Apparatus Model FM 123
Sci-tech Pneumatic Conveyor/Transport Apparatus Model FM 107 can be used to transport dispersed solids over great distances in pipelines.
The solid is transported out of a feed tank via a vibrating trough into an air flow. An interchangeable injector disperses the solid in the air flow. The air flow transports the solid upwards in the tube. The transport terminates in a collector tank.
Depending on the velocity and solid content of the air flow, different transport states may occur. At high velocities, the solid is dispersed evenly across the cross-section of the tube (dilute phase transport). If the velocity is reduced, strands and balls form on the wall of the tube which then slide down owing to their higher settling velocity. The strands and balls disintegrate again in the air flow and reform. Reducing the velocity to below the settling velocity of the individual particles ultimately results in plug transport. The different transport states can be observed through the transparent tube.
| Size: | 105cm x 65cm x 145cm (LxWxH) |
| Weight: | 105 kg |
Item Description
Features
- Pneumatic pressure-lifting of solids in a vertical tube
- Transparent tubes and tanks to observe different transport states.
- Practical experiments on a laboratory scale
- Optional ‘Sci-Cal’ software & hardware interface
Sci-tech Pneumatic Conveyor/Transport Apparatus Model FM 107 can be used to transport dispersed solids over great distances in pipelines.
The solid is transported out of a feed tank via a vibrating trough into an air flow. An interchangeable injector disperses the solid in the air flow. The air flow transports the solid upwards in the tube. The transport terminates in a collector tank.
Depending on the velocity and solid content of the air flow, different transport states may occur. At high velocities, the solid is dispersed evenly across the cross-section of the tube (dilute phase transport). If the velocity is reduced, strands and balls form on the wall of the tube which then slide down owing to their higher settling velocity. The strands and balls disintegrate again in the air flow and reform. Reducing the velocity to below the settling velocity of the individual particles ultimately results in plug transport. The different transport states can be observed through the transparent tube.
To identify the pressure loss and the flow velocity, measuring points are provided at all relevant positions. The velocity of the air flow is adjusted by a pressure regulator. The solid mass flow can be adjusted by way of the throw of the vibrating trough on a potentiometer. The compressed air has to be provided from the laboratory supply.
Peas or plastic granulate are recommended for use as the solid.
Technical Specifications
Specifications
1. Pneumatic pressure-lifting of solids in a vertical tube
2. Feed of solid into air flow via vibrating trough with adjustable throw
3. 4 interchangeable injectors to disperse the feed material into the air flow
4. Vertical tube made of glass
5. Collector and feed tanks made of transparent material (PMMA)
6. Collector and feed tanks interconnected by tube with plug valve
7. Precision pressure regulator to adjust input pressure and flow rate
8. Measuring points for pressure loss, temperature and flow velocity
Technical Specifications
Vertical tube
height: 2m
diameter: 50mm
Tanks
feed: 20L
collector: 40L
Measuring ranges
velocity (vertical tube): 0…36m/s
differential pressure (vertical tube): 0…10kPa
pressure (inlet): 0…1bar
temperature: 0…60°C
Optional: ‘Sci-Cal’ Computer Control Software & Interface
Experiments:
Learning the fundamental principle and method of operation of a pneumatic conveyor system
Observation of different transport states dependent on solid content and air velocity
Determination of the suspension velocity of the solid
Determination of the solid content of the flow
Pressure loss dependent on solid content and air velocity
Requirements
Mains Power 220 – 240V @ 50Hz, 1Ph
Model Number
FM 107
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