What amount of lime, in mg/L as CaCO3, is required to soften the village of Lime Ridge's water to 80 mg/L hardness as CaCO3
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What amount of lime, in mg/L as CaCO3, is required to soften the village of Lime...
1e. What amount of lime and/or soda ash, in mg/L as CaCO3, is required 6-19 to soften the Village of Zap's water to 80.0 mg/L hardness as CaCO3? Compound CO2 Ca2+ Mg нсоз Concentration, mg/L as CaCO3 44.2 87.4 96.3 204.6 73.8 SO so
Determine the lime and soda ash dose, in mg/l as CaCO3, to soften the following water to a final hardness of 80 mg/l as CaCO3. The ion concentrations reported below are all in mg/l as CaCO3. Ca2+ = 120 Mg2+ = 30 HCO3- = 70 CO2 = 10
Determine the lime and soda ask dose, in mg/L as CaCOs to soften the following water to a final hardness of 70.0 mg/L as CaCO3. The ion concentrations reported below all as CaCO3. 6-16. Determine the lime and soda ash dose, in mg/L as CaCO3 to soften the following water to a final hardness of 70.0 mg/L as CaCO3. The ion con- centrations reported below are all as CaCO2 Ca2+ 220.0 Mg2+一75.0 HCO3 265.0 CO2 17.0 Answers: Total lime addition-...
3. Determine the lime and soda ash dose, in mg/L as Ca(OH)2 and Na2CO3, to soften the water of a village to a final hardness of 40.0 mg/L as CaCO3. Chemical analysis showed that the water contains Na+ (50 mg/L), Ca2+ (150 mg/L), Mg²+ (30 mg/L, HCO3 (100 mg/Las CaCO3), Cl (80 mg/L). and CO2 (5.0 mg/L).
The following water quality data are available for a community Water quality Ca2+ = 60 mg/l (as species) Mg2+ = 40 mg/l (as species) HCO3- = 220 mg/l as CaCO3 CO2 = 7 mg/l (as species) pH = 7.6 Final desired hardness = 80 mg/l as CaCO3. The flow rate of the treatment plant is 0.24 m3/s. a. Calculate the total, carbonate, and non-carbonate hardness b. Calculate the amount of lime (as mg/l of CaO) needed to soften the water...
The chemical composition of a water sample is given in the table below. The goal hardness is 80 mg/L as CaCO3 Water composition (mg/L): Ca2+ HCO3 15 SO42- Na* CO2 242 Mg2+ 56 (a) Convert the given ionic concentrations in mg/L to mg/L as CaCO3 (b) What is the total hardness, carbonate hardness and non-carbonate hardness? (C) What is the lime-soda dosage to soften the water to a hardness of 80 mg/L as CaCO3 (d) What is the annual cost...
Question 30 (4 points) Groundwater defined by the following analysis is to be softened by lime-soda ash treatment. The target total hardness is 90 mg/L as CaCO3, in which CH = 40 mg/L as CaCO3 CO2 = 30 mg/L as CO2 = 120 mg/L as Ca2+ Ca2+ Mg2+ = 48 mg/L as Mg2+ Nat = 46 mg/L as Nat HCO3 = 200 mg/L as Cacos SO42- 96 mg/L as SO42- 35 mg/L as CI FORMULA CO2 CaCO3 EQUIVALENT WEIGHT (S/EW)...
21 Points]) A water tre of vari Water treatment plant needs to soften water containing the below concentration e. Assume the pH is near neutral and that the flowrate is 1.7 MGD (million ous constituents gallons per day). Determine: a) the total hardness (mg/L as CaCO.) b) the total alkalinity (mg/L as CaCO3) c) b ased on the i on balance, does the analysis appear to be missing some ions? ay the total amount of sludge (CaCOs and Mg(OH)2) produced...
QUESTION 3 Given the following information determine the annual chemical cost to soften the water in a treatment plant. Water flow rate = 0.04 m3/s Ca2+ = 167 mg/L as CaCO3 Mg2+ = 21 mg/L as CaCO3 HCO3 = 167+21 mg/L as CaCO3 CO2 = 7 mg/L as CaCO3 Cost of lime (purchased as Cao)= 76.7 per megagram (Mg) Cost of soda ash (purchase as Na2CO3) = 261.1 per megagram (Mg) Assume the lime is 90 percent pure and soda...
8.13 (a) Calculate the lime dosage required for soft- ening by selective calcium removal for the following water analysis. The chemical constituents in the water are CO2 =17.6 mg/L, Ca2+ 63 mg/L, Mg 15 mg/L, Nat = CACO3, SO What is the finished-water hardness? 189 mg/L 10 mg/L 20 mg/L. Alk (HCO3 80 mg/L, and Cl 2- as