The effect of seeds, air velocity a

The effect of seeds, air velocity and conveying capacity on pressure drop at the pipe of inside diameter of 70.3 mm can be seen in Figs. 4–7. At all air velocities of
20.9, 22.5, 25.31, and 28.92 m/s and all conveying capacities of 2.5, 5.0, and 7.5 t/h, the highest pressure drop was obtained from wheat, while the lower pressure drop was
sunflower. In addition, the increase in pressure drop with increase in air velocity can be seen in Figs. 4–7. The pressure drops for wheat, barley, sunflower, and lentil at the
constant conveying capacity of 7.5 t/h increased from 1.46, 1.16, 1.05, and 1.42 kPa/m at 20.9 m/s to 1.67, 1.48,1.37, and 1.64 kPa/m at 28.92 m/s, respectively. According
to these values, with a given conveying capacity and pipe inside diameter, the pressure drop increases as the air velocity for all seeds. This is agreement with results obtained by Segler (1951). The figures show that for all air velocities of 20.90, 22.50, 25.31, and 28.92 m/s and at the pipe of inside diameter of 70.3 mm the pressure drop rises directly with the conveying capacity. For example, from a constant capacity of 2.5–7.5 t/h, at the constant velocity of 28.92 m/s the pressure drop of wheat, barley, sunflower,and lentil increased from 1.20, 1.04, 0.98, and 1.14 kPa/m to 1.67, 1.48, 1.37, and 1.64 kPa/m. Crane and Carleton