Power Consumption and Energy Dissipation Rate Reduction in Agitated Tanks by Control Rods Attached to a Pitched Blade Impeller

The effects of axially symmetric control rods added to the archetypal four-blade pitched blade turbine (PBT) have been evaluated. The convectional PBT and two control rod configurations were tested (P2 and P3). Modifications resulted in a significant improvement in the hydrodynamic performance of the PBT impeller. Experimental measurements of torque and mixing time have been obtained, as well as flow measurement through particle image velocimetry (PIV) techniques to validate and compare the results obtained through numerical simulation using computational fluid dynamics. All these experimental tests and simulations have been used to evaluate the hydrodynamic behavior of these rod-controlled impellers. It was found that the modified PBT with control rods shows reduced power consumption compared to the conventional PBT. The use of control rods has achieved a reduction of up to 12.18% in the po w e r number. It was found that the control rods reduce the fluid separation, reducing the pressure drag and the suction pressure zones on the rear of the blade, thus reducing the power consumption. Despite the reduction in the pumping number for the two configurations proposed, pumping efficiency is not greatly affected . For configuration P3, the efficiency is similar to that of the PBT. It is worth highlighting that all the control rods evaluated showed a reduction in the energy dissipation rate, and for the best case, P3, a maximum of 17.02% reduction was achieved. The reduction in the energy dissipation rate may be useful in applications that require low shearing stresses during processing. Also, the same impeller design may decrease the energy consumption during long-term processing tasks.

Automated summary

The effects of axially symmetric control rods on the hydrodynamic performance of a four-blade pitched blade turbine (PBT) were evaluated. The modified PBT with control rods showed improved efficiency and reduced power consumption, as well as a decrease in energy dissipation rate.