Measurement of Gas Velocity in Industrial Flotation Cells (ABSTRACT PAGE)

"The dispersion of gas into bubbles is an essential feature of flotation machines. Three measurements have typically been used to describe the dispersion: superficial gas velocity (Jg), gas holdup and bubble size along with the derived quantity, bubble surface area flux. Measurement devices continue to be developed. The McGill Jg sensor based on accumulating bubbles by natural buoyancy comprises a tube with a valve and pressure transducer (Figure 1). The tube is immersed at a desired location and depth (H1) in a flotation cell. On closing the valve pressure increases to a maximum (P1) when the tube is full of air. The Jg is estimated from the slope of pressure-time curve (dP/dt).The relationship between Jg and dP/dt is derived from first principles. Testing the relationship is difficult in a flotation machine as the spatial variation in Jg is generally not known. This problem is overcome using a specially designed experimental setup and the estimated Jg is shown to equal the known Jg.The derivation reveals the importance of bulk density (?b). The sensor was modified to provide an estimate of ?b (Figure 2). A second tube was added immersed to a different depth (H2) and kept full of accumulated air giving a pressure P2. The estimate of ?b is given by (P1-P2)/(H1-H2) (i.e., at the end of collecting the pressure-time data). This two-tube sensor also helps dampen process noise as illustrated by a sudden change in level when collecting the pressure-time curve. Both the original and modified versions have been widely used in plant test work."