The design flow for a plant, using 4 tricking filters with a plastic media, is 0.5 mgd. the filte...
the design flow for a plant, using 4 tricking filters with a plastic media, is 0.5 mgd. the filters will be in parallel, the influent bod5 to filters will be 200 mg/l, the required effluent bod 5 will e 25 mg/l, the trickling filter design depth is 25 ft. lab testing conducted at 25c and 40 ft depth found the biodegradability constant to be 0.865/ft 0.5 d ^0.5. find the diameter required for each trickling filters.
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The design flow for a plant, using 4 tricking filters with a plastic media, is 0.5 mgd. the filte...
Problem 5 A primary effluent with Q- 1.0 MGD, BODs 138 mg/, and SS - 104...
Problem 5 A primary effluent with Q- 1.0 MGD, BODs 138 mg/, and SS - 104 mg/l is treated by a single stage tricking filter with the following characteristics: 6 feet deep rock trickling filter media; design BOD loading of 50 lb/day/1000 ft3; design hydraulic loading of 0.30 gpm/ft2; recirculation ratio of 1.5. Determine: 1) the volume (ft3) and diameter (ft) of the trickling filter; 2) the effluent BOD concentration. Problem 6
Two trickling filters operating in parallel are being designed to treat the domestic wastewater from a town of 5500 people where the average per-capita wastewater generation is 450 liters per person p...
Two trickling filters operating in parallel are being designed to treat the domestic wastewater from a town of 5500 people where the average per-capita wastewater generation is 450 liters per person per day. A plastic trickling filter media and filter height of 3.5 m have been selected. The influent BOD5 is 120 mg/L and the facility must meet an NPDES permit limiting effluent BOD5 to 35 mg/L. The filter media constant (n) is 0.67 and the BOD decay constant for...
10) Determine the size of two stage trickling filter using the NRC equations. Assume both filters have the same effi...
10) Determine the size of two stage trickling filter using the NRC equations. Assume both filters have the same efficiency BOD removal and the same recirculation ratio. Other conditions are as follows o Wastewater temperature 20 C o Wastewater flow, Q 3785 n/d o Influent BODs 195 mg/l Design effluent BOD = 20mg/ o Depth of each filter 2m o Recirculation for filters 1 and 2, r 218
10) Determine the size of two stage trickling filter using the NRC...
\The flow rate to treat is 5.6 MGD and the BOD concentration is 150 mg/L. The...
\The flow rate to treat is 5.6 MGD and the BOD concentration is 150 mg/L. The design solids concentration (X) at steady-state is 2,000 mg/L. The design MCRT is 7 days. The kinetic coefficients are as follows: k = 2 g BOD/g cells*day; Ks = 25 mg BOD/L; kd = 0.06 1/day; Y = 0.5 g cells/g BOD. The influent ammonia concentration is 40 mg/L and nitrification is needed. It takes 1400 ft3 of air per pound of BOD. Use...
4. (40 pts) You need to design a set of activated sludge aeration tanks. The flow...
4. (40 pts) You need to design a set of activated sludge aeration tanks. The flow rate to treat is 5.6 MGD and the BOD concentration is 150 mg/L. The design solids concentration (X) at steady-state is 2,000 mg/L. The design MCRT is 7 days. The kinetic coefficients are as follows: k = 2 g BOD!g cells*day; K = 25 mg BOD/L; k, = 0.06 1/day; Y = 0.5 g cells/G BOD. The influent ammonia concentration is 40 mg/L and...
It is required that a wastewater flow of 2 MGD with a strength of 300 mg/L...
It is required that a wastewater flow of 2 MGD with a strength of 300 mg/L BOD5 be treated to remove 90% of the BOD5. To achieve this, a 25-ft deep filter will be constructed and plastic media will be used. A treatability study has shown that n = 0.5 and K= 0.05 min-1 at 20⁰C. If the critical wastewater temperature is expected to be 10⁰C, what size filter should be required? Recirculation will not be used. Use Excel and...
Design 4 trickling filters based on the following information: BOD = 215.02 mg/l assuming 30% BOD...
Design 4 trickling filters based on the following
information:
BOD = 215.02 mg/l assuming 30% BOD removed in primary
sedimentation
TSS = 290.84 mg/l assuming 50% TSS removed in primary
sedimentation
Trickling Filters Hydraulic loading rate, HLR (m3/m?/d) Recommended range of HLR (Range 4-8) Design organic (BOD) loading rate (kg/m3/d) 0.25 mmended operation range of organic loading rate (kg/m3/d) Recirculation Ratio Recommended depth (m) Minimum number of trickling filters 0.24-0.50 2.4 4
Environmental Engineering 3&4 So 3. An activated sludge plant treats 5 MGD and the average influent...
Environmental Engineering 3&4
So 3. An activated sludge plant treats 5 MGD and the average influent BOD is 200 mg/L. The WWTP has 2 aeration basins, each 100 ft x 25 ft x 15 ft deep and 2 final clarifiers with diameters of 20 ft. About 35% of BOD is removed in primary clarifiers. Determine the BOD in the primary effluent, hydraulic retention time, F/M ratio, BOD exiting the aeration basin and mass of solids wasted (1b/d). The operation parameters...
Secondary Treatment Based on a plant flow rate of 40 mgd, design an activated sludge, secondary t...
Secondary Treatment Based on a plant flow rate of 40 mgd, design an activated sludge, secondary treatment system with recycle which maintains a MLVSS = 2,000 mg/L in the aeration reactor and has an average Solids Retention Time (SRT)-4 days. The biota kinetic constants are Kinetic Coefficients for the Activated-sludge Process for the Removal of Organic Matter from Domestic Wastewater Endogenous Decay Coefficient- k(d) 0.1 Half-velocity constant- K(s VSS/qVss-da 15 Mg/L bsCOD Max. Specific Substrate Utilization Rate-k 6 G bsCOD/gVSS-da...
A wastewater treatment plant that treats wastewater to secondary treatment standards uses a primary sedimentation process...
A wastewater treatment plant that treats wastewater to secondary treatment standards uses a primary sedimentation process followed by conventional activated sludge process composed of covered aeration tanks and secondary clarifiers. You are asked to calculate the different operation parameters to make sure that the system is operated within normal process ranges listed in the reference tables below. Table 5-20 Typical design information for primary sedimentation tanks U.S. customary units Item Unit Range Typical Primary sedimentation tanks followed by secondary treatment...
Problem 5 A primary effluent with Q- 1.0 MGD, BODs 138 mg/, and SS - 104 mg/l is treated by a single stage tricking filter with the following characteristics: 6 feet deep rock trickling filter media; design BOD loading of 50 lb/day/1000 ft3; design hydraulic loading of 0.30 gpm/ft2; recirculation ratio of 1.5. Determine: 1) the volume (ft3) and diameter (ft) of the trickling filter; 2) the effluent BOD concentration. Problem 6
10) Determine the size of two stage trickling filter using the NRC equations. Assume both filters have the same efficiency BOD removal and the same recirculation ratio. Other conditions are as follows o Wastewater temperature 20 C o Wastewater flow, Q 3785 n/d o Influent BODs 195 mg/l Design effluent BOD = 20mg/ o Depth of each filter 2m o Recirculation for filters 1 and 2, r 218
10) Determine the size of two stage trickling filter using the NRC...
4. (40 pts) You need to design a set of activated sludge aeration tanks. The flow rate to treat is 5.6 MGD and the BOD concentration is 150 mg/L. The design solids concentration (X) at steady-state is 2,000 mg/L. The design MCRT is 7 days. The kinetic coefficients are as follows: k = 2 g BOD!g cells*day; K = 25 mg BOD/L; k, = 0.06 1/day; Y = 0.5 g cells/G BOD. The influent ammonia concentration is 40 mg/L and...
Design 4 trickling filters based on the following
information:
BOD = 215.02 mg/l assuming 30% BOD removed in primary
sedimentation
TSS = 290.84 mg/l assuming 50% TSS removed in primary
sedimentation
Trickling Filters Hydraulic loading rate, HLR (m3/m?/d) Recommended range of HLR (Range 4-8) Design organic (BOD) loading rate (kg/m3/d) 0.25 mmended operation range of organic loading rate (kg/m3/d) Recirculation Ratio Recommended depth (m) Minimum number of trickling filters 0.24-0.50 2.4 4
Environmental Engineering 3&4
So 3. An activated sludge plant treats 5 MGD and the average influent BOD is 200 mg/L. The WWTP has 2 aeration basins, each 100 ft x 25 ft x 15 ft deep and 2 final clarifiers with diameters of 20 ft. About 35% of BOD is removed in primary clarifiers. Determine the BOD in the primary effluent, hydraulic retention time, F/M ratio, BOD exiting the aeration basin and mass of solids wasted (1b/d). The operation parameters...
Secondary Treatment Based on a plant flow rate of 40 mgd, design an activated sludge, secondary treatment system with recycle which maintains a MLVSS = 2,000 mg/L in the aeration reactor and has an average Solids Retention Time (SRT)-4 days. The biota kinetic constants are Kinetic Coefficients for the Activated-sludge Process for the Removal of Organic Matter from Domestic Wastewater Endogenous Decay Coefficient- k(d) 0.1 Half-velocity constant- K(s VSS/qVss-da 15 Mg/L bsCOD Max. Specific Substrate Utilization Rate-k 6 G bsCOD/gVSS-da...
A wastewater treatment plant that treats wastewater to secondary treatment standards uses a primary sedimentation process followed by conventional activated sludge process composed of covered aeration tanks and secondary clarifiers. You are asked to calculate the different operation parameters to make sure that the system is operated within normal process ranges listed in the reference tables below. Table 5-20 Typical design information for primary sedimentation tanks U.S. customary units Item Unit Range Typical Primary sedimentation tanks followed by secondary treatment...
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