3. A FWS constructed wetland is being designed to polish grey water from a school building in Indiana. The grey water characteristics are 80 mg/L BOD, 20 mg/L TSS and 10 mg/L nitrogen (as ammonia nitrogen). They would like their constructed wetland to reduce their BOD to 15 mg/L before the water exits the wetland. No treatment objectives are required for TSS, nitrogen or pathogens in the wetland. Decaying plant matter provides a background BOD concentration (C*) of 7 mg/L. Assume a temperature in the wetland of 12ºC, and a kA,20ºC of 117 m/yr for BOD. The other design parameters are: Q = 80 m3 /d, Safety factor multiple = 1.2 Aspect ratio = 8:1 Average water depth (d) = 0.5 m Bed slope = 1% (0.01 m/m) Manning’s resistance factor (a) for sparse vegetation of 0.487
Determine the surface area for BOD, nitrogen, and pathogens (the largest area will control the design); increase the area by a safety factor of 20% (multiply by 1.2)
3. A FWS constructed wetland is being designed to polish grey water from a school building in Ind...
A FWS constructed wetland is being designed to polish grey water from a school building in Indiana. The grey water characteristics are 80 mg/L BOD, 20 mg/L TSS and 10 mg/L nitrogen (as ammonia nitrogen). They would like their constructed wetland to reduce their BOD to 15 mg/L before the water exits the wetland. No treatment objectives are required for TSS, nitrogen or pathogens in the wetland. Decaying plant matter provides a background BOD concentration (C*) of 7 mg/L. Assume...
8.4. A free water surface constructed wetland is to be designed to reduce the TP concentration from 1 mg/L in the influent to 0.1 mg/L in the effluent. The influent flow rate is 2700 L/min, ET is 900 mm/ yr, the transpiration fraction is 0.6, infiltration is negligible, and rainfall is 1500 mm/yr. It is anticipated that the TP background concentration in the wetland is 0.04 mg/L, the temperature of the water is 20"C, the areal rate coefficient is 18...
10. Write a one-page summary of the attached paper? INTRODUCTION Many problems can develop in activated sludge operation that adversely affect effluent quality with origins in the engineering, hydraulic and microbiological components of the process. The real "heart" of the activated sludge system is the development and maintenance of a mixed microbial culture (activated sludge) that treats wastewater and which can be managed. One definition of a wastewater treatment plant operator is a "bug farmer", one who controls the aeration...