Abstract:
This research was inspired by the need to enhance the design of air blower
impellers and air blast intake structures in foundry industries in order to
improve product quality, minimize energy costs, and reuse cast iron scrap
metals in the country. This research is mainly focused on increase the rate
of air flow and pressure of the cupola furnace. The design of this impeller is
important with noise reduction and maximum efficiency. Therefore, different
blade thicknesses (from 1.5mm - 3mm) and rotating speeds (from 2550 rpm –
2850 rpm) have been taken into the consideration. And also adjust the blade
angle and number of blades. Then the four different model shapes of air blast
intake structures are design. A model design is done for the numerical study
using the software ANSYS Workbench. After that the effectiveness air blower
was selected using the result of ANSYS Workbench. The results show that an
impeller blade with a thickness of 1.5 mm produces less noise and vibrations
at its maximum rotation speed (2650 rpm). Then fix the Air blower into the
four different model shapes of air blast intake structures. After that the
effectiveness air blast intake structures were selected using the result of
ANSYS Workbench. The Static Pressure (981 N/m2), Discharge flow
rate (0.5m3/s) and the Outlet velocity of impeller (42m/s) were calculated.
Therefore, final design of improved air blast intake structures with air blower
was more effectiveness than other three designs. It is advised that the design
be used as a foundation for building better and cheaper foundry industries.
