The SATURATION MENU is used to calculate display the water saturation condition. The resulting condition is displayed on the Main Display Screen as either "OK", "Scaling" or "Corrosive" using standard Langelier Index limits.
If a scaling or corrosive condition develops, it is immediately indicated with a flashing display on the Main Screen.
The SATURATION MENU is used for automatic calculation and display of the Langelier Index which monitors the Water Balance and Saturation conditions from:
- Alkalinity (default or manual input)
- Hardness (default or manual input)
- pH (sensor reading or manual input)
- Temperature (sensor reading or manual input)
For more technical information, see Water Balance and Saturation.
The concern with water saturation results from the aggressive nature of dissolved minerals in water - particularly Calcium Carbonate - which can lead to scaling or etching of plaster and metallic equipment. It is a relatively new concept for pool and spa professionals and deserves to be thoroughly understood. In the past, water saturation was left to hazard and the results were that some pools would last forever while others would need constant repairs.
In order to facilitate the monitoring of water saturation conditions, the CHEMTROL® PC3000, PC5000 , PC6000 and PC7000 Programmable Controllers automatically calculate and update the Langelier Saturation Index, taking sensor readings for pH and temperature and data entry for Alkalinity and Calcium Hardness.
Using standard Langelier Index limit values, the resulting water saturation condition is constantly displayed on the Main Screen as either "OK", "Scaling" or "Corrosive". If a scaling or corrosive condition develops, it is immediately indicated with a flashing display on the Main Screen.
"What if" analyses can be run at any time by the operator by manually entering different values for alkalinity, calcium hardness, pH and temperature. They are useful in predictiong the effect of changes in the operating conditions.
LANGELIER SATURATION INDEX
Studies in water treatment for boilers and cooling towers led to the development of the Langelier Saturation Index (SI) to determine the degree of saturation of Calcium Carbonate CaCO3 in water:
SI = pH + TF + AF + CF -12.1
The Langelier Saturation Index includes factors for pH, Total Alkalinity (AF), Calcium Hardness (CF), Temperature (TF) and to a lesser extend, Total Dissolved Solids.
Manual calculation of this formula is rather cumbersome as it requires the use of seperate data tables for each factor. The CHEMTROL® PC Programmable Controllers do it automatically and accurately.
As soon as a pool or spa is filled up with water - even before a sanitizer is added - one has to be concerned with water balance. The reason for it is that water is one of the most aggressive chemicals we have to deal with. If it does not contain enough key metals and minerals - in particular calcium - it will get them from its environment or if it contains too much of them, if will deposit them wherever possible. In other words, water has a definite affinity for certain inorganic compounds that must be satisfied at all times.
From a chemical standpoint, water balance has to deal with inorganic compounds, such as calcium and carbonates, that are soluble in water. Sanitation, on the other hand, deals with organic compounds, like algae, germs and bacteria, that live in the water.
The key factors in balancing pool or spa water are in order of decreasing importance:
- pH with an ideal range of 7.4 to 7.6,
- Total Alkalinity with an ideal range of 80 to 120 ppm,
- Calcium Hardness with an ideal range of 100 to 450 ppm,
- Total Dissolved Solids not to exceed 2,000 ppm.
Total alkalinity (TA) is a concept that is not easy to explain because it is easily confused with acidity or basicity. In fact it refers to the buffering effect of dissolved compounds that resist changes in pH values.
TA is expressed in parts per million (ppm) and represents the concentration of alkaline compounds - such as bicarbonates, carbonates or hydroxides - which are dissolved in the water and oppose changes in pH.
Although there are many compounds capable of contributing to TA, it is normally expressed in ppm of "equivalent calcium carbonate". For pools and spas, it should should be maintained between 80 and 120 ppm.
The easiest way to test for TA is with test strips. Another method is with liquid test chemicals. First a pH indicator is added to stabilize the pH. Then an acid reagent is added until there is a color change. The more acid reagent is required, the higher the resistance to pH change and therefore the higher TA is.
High alkalinity increases the amount of acid required to adjust the pH. This is called high acid demand and leads to high pH and formation of bicarbonate scale.
Low alkalinity on the contrary causes unstable pH. This is referred to as pH bounce, which leads in turn to staining and increased corrosion.
LOWERING THE ALKALINITY
To lower the alkalinity: add 1 qt (1 liter) of muriatic acid or 40 ozs (1.1 Kg) of granular acid par 10,000 gallons (40 m3) for each 12.5 ppm decrease.
RAISING THE ALKALINITY
To increase the alkalinity: add 1.5 lbs (700 g) of Sodium Bicarbonate per 10,000 gallons (40 m3 of water for each 10 ppm increase.
Calcium Hardness describes the water quality refering to the minerals, mainly calcium and magnesium compounds, which may deposit scale in pipes, walls and heaters. Carbonate and bicarbonate hardness also adds to alkalinity. Sodium and potassium compounds do not contribute to hardness.
High hardness contributes to scaling but low hardness is also undesirable as it makes the water aggressive with regard to plaster, grouting between tiles. The recommended hardness for pool plaster protection is within 100 to 450 ppm depending on pH and Total Alkalinity.
To correct low hardness (under 100 ppm), add 1 lb (450 g) of Calcium Chloride per 10,000 gallons (40 m3) of water to raise it by 10 ppm. Do not apply through skimmer and add progressively in small quantities.
To correct high hardness (over 450 ppm), the water should be replaced or partially softened. Iron hardness can be precipitated by high chlorine residuals. A scale inhibitor or replacement of water can also be used. Trisodium phosphate can also be used to precipitate the calcium.
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