Reference no: EM131310549

A 425-m³(15,000 ft³) basin, equipped with 10 gas dispersers of a new design, is to be installed for stripping hydrogen sulfide, H₂S, from wastewater. The dispensers, each to use air at a rate of 7:08 × 10^-3 m³/s, will be located at a depth of 3.2 m (10.5 ft) below the liquid surface. A preliminary analysis of the 283 K wastewater indicates an initial H₂S concentration of 0.3 mmol/L.

In a pilot investigation of the proposed new dispenser, the designated flow rate of 7:08 × 10^-3 m³/s was discharged from a single dispenser located at 3.2 m below the surface of the water held in a 28.3-m³ (1000-ft³ ) tank. This water was maintained at 283 K. After 4 h of aeration, the dissolved oxygen concentration increased from 0.04 to 0.25 mmol/L. Based upon this pilot investigation, determine

a. the K_La for oxygen for this new dispenser when it is operated 3.2 m below the liquid surface with the air flow rate of 7:08 × 10^-3 m³/s. At 283 K, Henry's law constant for the oxygen-water system is 3.27× 10^-4 atm/mole fraction.

b. the K_La for H₂S for this new dispenser when it is operated 3.2 m below the liquid surface with the air flow rate of 7:08 × 10^-3 m³/s. If the penetration-theory model holds, the capacity coefficient, K_La, is proportional to the liquid mass diffusivity raised to the power of 1/2. The liquid diffusivity of oxygen in water at 283 K is 2.14× 10^-5 cm² /s and of H₂S in water at 283 K is 1.4× 10^-5 cm² /s.

c. the concentration of H₂S in the 425-m³ basin after 4h of operation if the wastewater's initial H₂S concentration is 0.3 m mole/L. Henry's law constant for H₂S-water system at 283 K is 0.0367×10⁴ atm/mole fraction.