2.2. Determination of pressure drop

2.2. Determination of pressure drop
A positive low pressure pneumatic conveying system was designed and manufactured. The general arrangement of the pneumatic conveyor is shown in Fig. 1 which shows the essential features of the control unit (1) roots blower(2), air inlet filter (3), roots blower motor (4), seed hopper(5), rotary feeder or hopper airlock feeder (6), rotary feeder motor (7), seed pipe of inside diameter of 70.3 mm (8),transparent tube (9), pressure drop measurement tappings(10), cyclone separator (11), cyclone separator airlock(12), cyclone separator airlock motor (13), seed discharge(14), vacuum blower (15), dust pipes (16), dust collector or exhaust air filter (17), light foreign materials (18). The pneumatic conveyor has 23 m long pipe and three bends.
The roots blower was used to deliver air through the system.The seed hopper served as a storage container for the material. The seeds to be conveyed are introduced into
the system using an airlock feeder under the hopper. The speed of the airlock feeder was adjusted to feed seeds at different rates by a motor with frequency inverter. The transparent tube provided a means to observe the transport phenomena in the horizontal flow. The cyclone separator slowed the seeds and separated the seeds from the air.
The cyclone separator airlock was used to provide an airtight on cyclone. In the cyclone separator, the seeds fell downward by the cyclone separator airlock, and the air
containing dust and light foreign materials was exhausted out of the cyclone to the filter by the vacuum blower.