Difference between revisions of "DCOM Volume I Appendix I"

From Ministry of Water DCOM Manual
Line 1: Line 1:
=Appendix I: Measurement of Water Hardness=
+
=APPENDIX I: MEASUREMENTS OF WATER HARDNESS=
 
'''Hardness and its Measurement'''<br>
 
'''Hardness and its Measurement'''<br>
Hardness is expressed in terms of mg/l by weight in terms of calcium carbonate. Water having hardness not exceeding 70 mg/l is termed ‗soft‘ and above that 'hard'. In public water supplies, it used to be customary to reduce carbonate hardness to 35 - 40 mg/l and total hardness to between 50 and 100 mg/l. However as indicated above this is no longer recommended unless hardness exceeds about 130 mg/l, but should still be practised for strictly industrial supplies of hard water.
+
Hardness is expressed in terms of mg/l by weight and in terms of calcium
 +
carbonate. Water with hardness not exceeding 70 mg/l is termed ‘soft’ and
 +
above that 'hard'. In public water supplies, it used to be customary to reduce
 +
carbonate hardness to 35 - 40 mg/l and total hardness to between 50 and
 +
100 mg/l. However as indicated above this is no longer recommended unless
 +
hardness exceeds about 130 mg/l, but should still be practised for strictly
 +
industrial supplies of water.
  
'''Hardness = divalent cations = Ca<sup>2+</sup> + Mg <sup>2+</sup> + Fe <sup>2+</sup> + Mn <sup>2+</sup> + Sr<sup>2+</sup>.....'''<br>
+
'''Hardness = Σ divalent cations = Ca<sub>2</sub>+ + Mg<sub>2+</sub> + Fe<sub>2+</sub> + Mn<sub>2+</sub> + Sr<sub>2+</sub>..'''<br>
 +
The principle cations causing hardness in water and major anions associated
 +
with them are as follows:
  
Principle cations causing hardness in water and major anions associated with them are as follows:
+
[[Image:AppendixITable1.PNG|999px|link=DCOM_Volume_I]] <br>
  
Table I.1: Principle cations and anions associated with water Hardness
+
If hardness is too high it results into precipitation of soap, scaling on pipes,
 +
boilers, cooling towers, heat exchangers. If hardness is too low, the water
 +
becomes corrosive. Hard water interferes with almost every cleaning task from
 +
laundering and dishwashing to bathing and personal grooming (IANR, Water
 +
Quality 1996). Hard water ranges between 120-250 mg/L as CaCO3 or beyond
 +
250 mg/L as CaCO3 for very hard waters. The acceptable water hardness range is
 +
between 60-120 mg/L as CaCO3 (Dipa Dey, Amanda Herzog and Vidya Srinivasan,
 +
2007). The scale of hardness is shown in Table I.2:
  
{| class="wikitable"
+
[[Image:AppendixITable2.PNG|999px|link=DCOM_Volume_I]] <br>
|-
 
! Cations !! Anions
 
|-
 
| Ca<sup>2+</sup> || HCO<sup>-</sup><sub>3</sub> or CO<sup>2-</sup><sub>3</sub>
 
|-
 
| Mg<sup>2+</sup> || SO<sup>2-</sup><sub>4</sub>
 
|-
 
| Sr<sup>2+</sup> || cl<sup>-</sup>
 
|-
 
| Fe<sup>2+</sup> || NO<sup>-</sup><sub>3</sub>
 
|-
 
| Mn<sup>2+</sup> || SiO<sup>-</sup><sub>3</sub>
 
|}
 
 
 
If hardness is too high results into precipitation of soap, scaling on pipes, boilers, cooling towers, heat exchangers. If hardness is too low, the water becomes corrosive. Hard water interferes with almost every cleaning task from laundering and dishwashing to bathing and personal grooming (IANR, Water Quality 1996). Hard water ranges between 120-250 mg/L as CaCO3 or beyond 250 mg/L as CaCO3 for very hard waters. The acceptable water hardness range is between 60-120 mg/L as CaCO3 (Dipa Dey, Amanda Herzog and Vidya Srinivasan, 2007). The scale of hardness is shown in Table xxx<br>
 
(a) below:
 
Table I.2: Scale of Hardness (classification of hard waters)
 
 
 
{| class="wikitable"
 
|-
 
! Hardness in mg/l  !! Scale Description
 
|-
 
| 15 ||Extremely soft
 
|-
 
| 30 || Very soft
 
|-
 
| 45 || Soft
 
|-
 
| 90-110 || Moderately soft
 
|-
 
| 130 || Hard
 
|-
 
| 170 || Very Hard
 
|-
 
| 230 || Excessively hard
 
|-
 
| 250 || Too hard for use
 
|}
 
  
 
'''Temporary and Permanent Hardness'''<br>
 
'''Temporary and Permanent Hardness'''<br>
Hardness can be described as temporary or permanent as shown in the Table: xxxx(b) Carbonate hardness is called temporary because it precipitates readily at high temperatures since it is sensitive to heat and precipitates readily at high temperatures. Therefore, can be removed by boiling the water. Non-carbonate hardness is called permanent because it does not precipitate readily at high temperatures.
+
Hardness can be described as temporary or permanent as shown in the Table:
 
+
I.3 Carbonate hardness is called temporary because it precipitates readily at
Table I.3: Compounds Producing Temporary and Permanent Hardness
+
high temperatures since it is sensitive to heat and precipitates readily at high
 +
temperatures. Therefore, hardness can be removed by boiling the water. Noncarbonate
 +
hardness is called permanent because it does not precipitate readily
 +
at high temperatures.
  
{| class="wikitable"
+
[[Image:AppendixItable3.PNG|999px|link=DCOM_Volume_I]] <br>
|-
 
! Causing Temporary Hardness(Carbonate Hardness) !! Causing Permanent Hardness(Non-Carbonate Hardness)
 
|-
 
| Calcium bicarbonate[Ca(HCO<sub>3</sub>)<sub>2</sub>]||Calcium sulphate[CaSO<sub>4</sub>]
 
|-
 
| Magnesium bicarbonate[Mg(HCO<sub>3</sub>)<sub>2</sub>]|| Magnesium sulphate [MgSO<sub>4</sub>]
 
|-
 
|  || Calcium chloride [CaCl<sub>2</sub>]
 
|-
 
|  || Magnesium chloride [MgCl<sub>2</sub>]
 
|}
 
(Source: 3rd Edition Design manual, 2009)
 

Revision as of 19:20, 30 May 2021

APPENDIX I: MEASUREMENTS OF WATER HARDNESS

Hardness and its Measurement
Hardness is expressed in terms of mg/l by weight and in terms of calcium carbonate. Water with hardness not exceeding 70 mg/l is termed ‘soft’ and above that 'hard'. In public water supplies, it used to be customary to reduce carbonate hardness to 35 - 40 mg/l and total hardness to between 50 and 100 mg/l. However as indicated above this is no longer recommended unless hardness exceeds about 130 mg/l, but should still be practised for strictly industrial supplies of water.

Hardness = Σ divalent cations = Ca2+ + Mg2+ + Fe2+ + Mn2+ + Sr2+..
The principle cations causing hardness in water and major anions associated with them are as follows:

AppendixITable1.PNG

If hardness is too high it results into precipitation of soap, scaling on pipes, boilers, cooling towers, heat exchangers. If hardness is too low, the water becomes corrosive. Hard water interferes with almost every cleaning task from laundering and dishwashing to bathing and personal grooming (IANR, Water Quality 1996). Hard water ranges between 120-250 mg/L as CaCO3 or beyond 250 mg/L as CaCO3 for very hard waters. The acceptable water hardness range is between 60-120 mg/L as CaCO3 (Dipa Dey, Amanda Herzog and Vidya Srinivasan, 2007). The scale of hardness is shown in Table I.2:

AppendixITable2.PNG

Temporary and Permanent Hardness
Hardness can be described as temporary or permanent as shown in the Table: I.3 Carbonate hardness is called temporary because it precipitates readily at high temperatures since it is sensitive to heat and precipitates readily at high temperatures. Therefore, hardness can be removed by boiling the water. Noncarbonate hardness is called permanent because it does not precipitate readily at high temperatures.

AppendixItable3.PNG