معلوبH.W: An activated sludge process operates under the following data:Q=0.21 m³/s, So= 250 mg/l, S=6.2 mg/l, MLVSS (X) = 3500 mg/1, 0c= 10 daysReturn sludge concentration (X)= 10000 mg/l, Y=0.5, Ka =0.06 d¹, volatile supersolid represent 80% of SS, Find:

Step 1:Given ;Influent rate(Q)=0.21m3/sInfluent substrate concentration (So)=250 mg/lEffluent…

Answered: معلوب H.W: An activated sludge process…

Structural Analysis

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ISBN:9781337630931

Author:KASSIMALI, Aslam.

Publisher:KASSIMALI, Aslam.

Chapter2: Loads On Structures

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معلوب
H.W: An activated sludge process operates under the following data:
Q=0.21 m³/s, So= 250 mg/l, S=6.2 mg/l, MLVSS (X) = 3500 mg/1, 0c= 10 days
Return sludge concentration (X)= 10000 mg/l, Y=0.5, Ka =0.06 d¹, volatile super
solid represent 80% of SS, Find:

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A completely mixed activated sludge process operating at equilibrium is designed to treat 300 MLD of waste water. The influent and effluent BOD are 200 mg/1 and 18 mg/1 respectively If the F M then the hydraulic retention time is A 0.125 day B 4.21 hours C 8.42 hours D 0.225 day = 0.3 and MLSS is 3800 mg/1,
1. The following information is provided for an activated sludge system design: Parameter Symbol Value Units Flow rate Q 10000 m³/d Influent BOD So 150 mg/L Effluent BOD S 2 mg/L Hydraulic residence time Ꮎ 4 hr Mean cell residence time Oc 6 d Maximum specific growth rate μm 3 1/d Half saturation constant Ks 40 mg/L Yield coefficient Y 0.5 Endogenous decay coefficient b 0.08 1/d Death rate coefficient γ 0.04 1/d Determine: a) The aeration tank biomass concentration (X) in mg/L b) The aeration tank oxygen requirement in kg/d c) The rate of biomass wasting in kg/d
Given:Flow rate of water = 500 L/minSuspended solids concentration in influent water = 100 mg/LRequired effluent suspended solids concentration = 10 mg/LFiltration rate = 10 m^3/m^2/hrFiltration tank dimensions: Length = 5 m, Width = 3 m, Depth = 4 mCalculate:o Calculate the total suspended solids (TSS) load in the influent water:o Calculate the filtration tank surface area:o Calculate the required filtration tank capacity:o Calculate the required detention time in the filtration tank: Q2) DisinfectionGiven:Flow rate of water = 2000 m^3/hChlorine residual required in effluent = 0.5 mg/LInitial chlorine concentration in influent water = 2 mg/LChlorine decay rate in disinfection tank = 0.05 per hourDisinfection tank volume = 300 m^3Calculate:o Calculate the chlorine demand in the influent water:o Calculate the chlorine dosage required:o Calculate the chlorine dosage rate:o Calculate the actual chlorine dosage rate considering chlorine decay:
The data of an activated sludge process are 3. as follows: MLSS = 5000 mg/lit %3D Flow = 0.15 m3/sec SS of inflow = 400 mg/lit Solids settled after 30 min = 25% %3D Volume of Aeration Tank = 3000m3 %3D Sludge Wastage Rate = 120 m³/day with VSS of 15000 mg/lit. %3D Calculate Sludge Volume Index (SVI), Sludge Density Index (SDI), Return Sludge Ratio (Qp/Q,) and Mean cell residence time (0,).
1
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11.8 A 1- L cylinder is used to measure the settleability of 0.5% suspended solids sludge. After 30 min the settled sludge solids occupy 600 mL. Calculate the SVI
Q2: A column analysis for an activated sludge suspension yielded the following: MLSS Conc (mg/l) Settling velocity m/h 1000 2.8 2000 3000 1.2 0.4 4000 0.2 5000 Question 0.1 6000 0.06 The influent MLSS concentration is 2000 mg/l and the flow rate is 4200 m³/d. Determine the size of the clarifier that will thicken the solids to 8000 mg/l.
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The ionic character of a groundwater is defined by the following hypothetical combinations: Ca(HCO3)2 = 3.0 meq/L MgSO4 = 0.8 meq/L NaCl = 0.6 meq/L 0.4 meq/L Mg(HCO3)2 Na2SO4 = 0.2 meq/L Draw a milliequivalents-per-liter bar graph. Is the hardness of this water considered excessive? What process do you recommend for precipitation softening of this water?

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معلوب H.W: An activated sludge process operates under the following data: Q=0.21 m³/s, So= 250 mg/l, S=6.2 mg/l, MLVSS (X) = 3500 mg/1, 0c= 10 days Return sludge concentration (X)= 10000 mg/l, Y=0.5, Ka =0.06 d¹, volatile super solid represent 80% of SS, Find: