Post on 04-Apr-2015
Multiplication factors for converting to equivalents of CaCO3
Ca= 40Mg=24Fe=56Al=26
Hardness Estimation by EDTA- Numerical Problems
1. Standard hard water: Convert to Normality or MolarityNormality = Weight in gram per Lit / Eq.weightMolarity = Weight in gram per Lit / Molecular weight
2. Estimate EDTA strength (N or M)
Use N1V1= N2V2 Formulae
3. By using EDTA Strength (N or M), Find out hardness producing salts strengthin unknown hard water
Use N1V1=N2V2 Formulae
4. Using strength of hardness producing salt, find out the quantity of salts in mg per liter (ppm)
Hardness producing salt strength X 50 (for N) or 100 for M)X1000 mg /L or ppm
50 ml of sample hard water (CaCO3 :1mg per ml) requires 100 ml of EDTA for titration. 200 ml of hard water requires 80 ml of EDTA with same strength. Total hardness will be
1. Standard hard water: Convert to Normality or MolarityNormality = Weight in gram per Lit / Eq.weightMolarity = Weight in gram per Lit / Molecular weight
1mg /mL = 1000mg/Lit = 1g per LitSample Hard water CaCO3 strength = 1/100 = 0.01 M
= 1/50 = 0.02 N
2. Estimate EDTA strength (N or M)Use N1V1= N2V2 FormulaeEDTA Volume = V1 = 100mLSample hard water Volume = V2 = 50 mLSample hard water strength = 0.01 MEDTA strength = 0.01X50/100 = 0.005 M
= 0.02X50/100 = 0.01N
50 ml of sample hard water (CaCO3 :1mg per ml) requires 100 ml of EDTA for titration. 200 ml of hard water requires 80 ml of EDTA with same strength. Total hardness will be
2. Estimate EDTA strength (N or M)EDTA strength = 0.01X50/100 = 0.005 M
= 0.02X50/100 = 0.01N
3. By using EDTA Strength (N or M), Find out hardness producing salts strengthin unknown hard water Use N1V1=N2V2 Formulae
200 ml Hard water requires 80 ml of 0.005M EDTA (0.0025N)hardness producing salts strength = 80X0.005/200= 0.002M
= 80X0.01/200 = 0.004N
4. Using strength of hardness producing salt, find out the quantity of salts in mg per liter (ppm)Hardness producing salt strength X 50 (for N) or 100 for M)X1000 mg /L or ppm
Hardness = 0.002 (M)X100X1000 = 200 ppm= 0.004 (N) X50X1000= 200 ppm
Zeolite or Permutit process
X= 2-10, Y= 2-6
Natural Zeolite : non porusNatrolite, Na2OAl3O34SiO2.2H2O
Synthetic Zeolite: Porous and possess gelStructure. This type zeolite used for softening purpose is called permutitPrepared by heating together china clay, faldspar and soda ashThis has higher exchange capacity per unit weight than natural zeolite
2. Zeolite or Permutit process
Hence out goingWater contains sodium salt
Ion exchange or de-ionization or de-mineralization process
Cation Exchange resin
Cation: Positive charged ions Na+, H+, K+, Ca2+
Cation exchange resin: Cation can be exchangedSince anion is attached in solid (Resin)
SO
OOH S
O
OO- H+
OOH
OO- H+
Resin
Cation exchange resin
SO
OO- H+
OO- H+
+ Ca2+Cl2 SO
OO- Ca2+
+ Ca2+Cl2O
O- Ca2+
+ HCl
+ HCl
2
2
Cation exchange resin: Cation can be exchangedSince anion is attached with solid by covalent bond
Cation Resin Regeneration
SO
OO- Ca2+
OO- Ca2+
+ 2HCl
+ 2HCl
SO
OO- H+
OO- H+
+ CaCl2
+ CaCl2
2
2
Anion exchange resin
Anion: Negative charged ions Cl-, OH-,
Anion exchange resin: Anion can be exchangedSince cation is attached in solid (Resin) by covalent bond
NR
RR OH-Resin
Anion exchange resin
NR
RR OH- + Cl- + OH-N
R
RR Cl-
Anion exchange resin: Anion can be exchangedSince cation is attached with solid (Resin)
Anion Resin Regeneration
+ Na+OH-NR
RR Cl- N
R
RR OH- + Na+Cl-
Ion exchange or de-ionization or de-mineralization process
Mixed Bed De-ionizer
Municipal Water Treatment
3O2Silent electric discharge
2O3
Silent electric dischargeO2 + OO3