A water with a pH of 9.0 contains 20 mg/L CO3-2 and 55 mg/L HCO3-. Calculate the alkalinity of the water expressed as meq/L (milli equivalents per liter) and as mg/L as CaCO3.
We need at least 10 more requests to produce the answer.
0 / 10 have requested this problem solution
The more requests, the faster the answer.
A water with a pH of 9.0 contains 20 mg/L CO3-2 and 55 mg/L HCO3-. Calculate the alkalinity of the water expressed as meq/L (milli equivalents per liter) and as mg/L as CaCO3.
1a.) From water sample, 10 mg/L HCO3- as CaCO3, 10 mg/L CO3- as CaCO3 and 50 mg/L Ca+ as CaCO3 were measured. pH was near neutral. What is alkalinity? _____ mg/L as CaCO3 1b.) From water sample, 10 mg/L HCO3- as CaCO3, 10 mg/L CO3- as CaCO3 and 50 mg/L Ca+ as CaCO3 were measured. pH was near neutral. What is alkalinity? _____ mg/L as CaCO3 1c.) Calculate Ksp = _____ A2BO3 ->2A++ BO32- Molar concentration of A+ = Molar...
Determine the total alkalinity in mg CaCO3/L given the following: a)[HCO3-] =0M ,[Co3^2-]=0M ,[OH-]=1.0*10^-5M ,[H3O+]=1.0*10^-9M b)[HCO3-] =0.0100M ,[Co3^2-]=0M ,[OH-]=2.0*10^-6M ,[H3O+]=5.01*10^-9M c)Convert a and b to meq. I already aksed this question once on Cheg, and it was not explaned so i am re-asking in hopes for a better responce. A step by step solution would be greatly appreciated.
A solution has a pH of 7.3 and an alkalinity of 25 mg/L as CaCO3. Essentially all the alkalinity is contributed by the carbonate system. The water also contains 10^(-4) M Fe2+ (5.5 mg Fe2+/L). To remove the iron, oxygen is injected into the solution, converting the Fe2+ to Fe3+; the Fe3+ then precipitates as ferric hydroxide according to the following reaction: Fe2+ 1/4O2 + 2.5H20 -> Fe(OH)3 + 2H+. Calculate the pH of water after the reactions are complete....
(35 points) For the following water sample please complete the table (meq/L and mg/L as CaCO3) and the questions that follow (Remember - 50 mg CaCO3/meq CaCO3) lon mg/L mg/meq meq/L (Please fill in the values below) as CaCO3 mg/L HCO3 125 61.0 2- 35 250 30.0 Mg K* Fe2 Mn2+ SO.2 NO3 NO2 Ca2 12.2 100 39.1 27.9 175 12 27.5 300 48.0 62.0 2 0.1 46.0 155 125 20.0 CI Na* 35.5 25 23.0 pH 7.0 (15 points)...
2. Given the following test results, determine the alkalinity and hardness in milligrams per liter as CaCOs for the water sample assuming the pH is 6.5 and temperature is 20°C. Concentration Cation Ca2+ Mg2+ Na+ Concentration mg/L 40.0 12.2 15.1 5.1 Anion HCO3 SO mg/L 91.5 22.9 72 Cl.. NO3 5.0
9. Given that water contains 10 mg/L of bicarbonate at pH 5, what is the alkalinity in mg/Las CaCO,? 10. Report the alkalinity (in mg/L as Caco,) for that contains 10 mg/L of bicarbonate but has pH 10.
2. Determine the approximate alkalinity (in mg/L as CaCO3) for a water which has 127.3 mg/L of bicarbonate ions and 18.5 mg/L of carbonate ions.
Calculate the hardness of a water sample containing Ca 2+ 60 mg/L, Mg 2+ 30 mg/L and HCO3- 366 mg/L and 17 mg/L of CO3= at a pH of 9.8.. Calculate the total hardness in terms of calcium carbonate.
(15 pts) Calculate the lime and soda ash for Hardness removal of a water with the following water chemistry: CO2/H2CO3 = 0.7 meq/L Ca(HCO3)2 3.5 meq/L CaSO4 = 1.8 meq/L MgS04 2.0 meq/L 1. (15 pts) Calculate the lime and soda ash for Hardness removal of a water with the following water chemistry: CO2/H2CO3 = 0.7 meq/L Ca(HCO3)2 3.5 meq/L CaSO4 = 1.8 meq/L MgS04 2.0 meq/L 1.
Groundwater is defined by the following analysis: Ca2+ = 80 mg/L as Ca2+ Mg2+ - 55 mg/L as Mg2+ HCO3-350 mg/L as CaCO3 pH = 8.0 FORMULA CaCO3 Ca2+ Mg2+ EQUIVALENT WEIGHT (g/EW 50 20 12.2 61 HCO3 mg as CaCO3 L mg Equivalent Weight of CaCo3 (g/EW) as species X L Equivalent Weight of Species (g/EW) Noncarbonate hardness (NCH) of the raw water, in mg/L as CaCO3, is: 1) 55.0 2) 76.3 3) 135.0 4) 200.0 5) 350.0