The question refers to a well-mixed aeration pond or aeration lagoon that can be modeled according to the diagram below. The pond is simply a body of water that holds the wastewater for some detention time before the waste degrades or leaves in the effluent stream. There is no recycle line. You should derive a mass balance on X to solve these problems, make sure to include all terms in the mass balance. You may assume no X flows in with the influent. 

A rectangular, well-mixed aeration lagoon that has the same conceptual model above is 60 m long, 5 m wide, and 2 m deep. It receives 400 m³/d of wastewater with a BOD₅ of 336 mg BOD₅/L for treatment. The biodegradation rate constants for the wastewater are yield coefficient = 0.8 mg VSS/mg BOD_s, endogenous decay constant = 0.08 d^—1 , maximum specific microbial growth rate = 1.10 d^—1 , and the half velocity constant = 76.0 mg BOD₅/L.  Note: BOD refers to substrate concentration and it also refers to how much O₂ is required to consume the substrate. 

(a) What is the efficiency of BOD₅ removal of the lagoon?

(b) The pond’s efficiency of BOD₅ removal depends on oxygen being always available for the microbes to use in degrading the wastewater organic carbon. How much oxygen gas (in kg/d) must be supplied daily to the pond?

 

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31 Q. So, Xp well-mixed Q, S, X aeration lagoon V, S, X, r²', ras