Phenol (C6H6O) can be degraded as shown in the reaction below. Answer the following questions if phenol is present in water at a concentration of 100 mg/L and the water flowrate is 8.2 million gallons per day (mgd). You may assume that 90% of the phenol is degraded (i.e., 10% is not reacted). C6H60+70₂6CO2 + 3 H₂O a. What amount of carbon dioxide (CO₂) will be produced each day (in lbs/day and kg/day)? b. How much oxygen (O₂) will need to be supplied (in mg/L and lbs/day) if the oxygen transfer process is 52% efficient (i.e., for every pound of O₂ added, only 0.52 pounds react)?

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Phenol (C6H₂O) can be degraded as shown in the reaction below. Answer the following questions if
phenol is present in water at a concentration of 100 mg/L and the water flowrate is 8.2 million gallons
per day (mgd). You may assume that 90% of the phenol is degraded (i.e., 10% is not reacted).
C6H6O + 70₂ 6CO₂ + 3 H₂O
a. What amount of carbon dioxide (CO₂) will be produced each day (in lbs/day and kg/day)?
b. How much oxygen (O₂) will need to be supplied (in mg/L and lbs/day) if the oxygen transfer
process is 52% efficient (i.e., for every pound of O₂ added, only 0.52 pounds react)?
Transcribed Image Text:3. Phenol (C6H₂O) can be degraded as shown in the reaction below. Answer the following questions if phenol is present in water at a concentration of 100 mg/L and the water flowrate is 8.2 million gallons per day (mgd). You may assume that 90% of the phenol is degraded (i.e., 10% is not reacted). C6H6O + 70₂ 6CO₂ + 3 H₂O a. What amount of carbon dioxide (CO₂) will be produced each day (in lbs/day and kg/day)? b. How much oxygen (O₂) will need to be supplied (in mg/L and lbs/day) if the oxygen transfer process is 52% efficient (i.e., for every pound of O₂ added, only 0.52 pounds react)?
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