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Under high calcium and high alkali conditions, PAPEMP (polyamino polyether methylphosphonic acid) is particularly effective because of its strong chelating ability and dispersing performance, which can effectively cope with these harsh water conditions. Below are the application effects and precautions of PAPEMP under high calcium and high alkali conditions:
Excellent scale inhibition performance:
PAPEMP is able to form stable chelates with calcium (Ca²⁺) and magnesium (Mg²⁺) ions in the water, thus preventing the formation of scale from these ions, especially calcium carbonate scale (CaCO₃). Under high calcium conditions, PAPEMP significantly reduces scale formation and keeps the system clean.
Good dispersion properties:
PAPEMP not only prevents the formation of new scale, but also disperses the fine particles already present, preventing them from aggregating to form large deposits. This helps keep water flowing freely and reduces clogging of heat exchangers and other equipment by deposits.
Enhanced corrosion inhibition properties:
Under high alkalinity conditions, PAPEMP can form a protective film with metal surfaces, reducing corrosion. In addition, when PAPEMP is used in combination with zinc salts and other corrosion inhibitors, the corrosion inhibition effect can be further enhanced to protect metal equipment from corrosion.
Thermal stability:
PAPEMP can still maintain good performance under high temperature conditions, which is especially important for high temperature water treatment systems. It can continue to play the role of scale and corrosion inhibition in high temperature environment.
Environmentally friendly:
Compared with some traditional water treatment agents, PAPEMP has better biodegradability, less impact on the environment and suitable for long-term use.
Use concentration:
Under high calcium and alkali conditions, PAPEMP may need to be used at a higher concentration than under conventional conditions. Typically, the recommended initial concentration range is 10~2⅐ mg/L, and the exact concentration needs to be determined by laboratory testing and field commissioning.
Compound Use:
For best results, PAPEMP is often used in combination with other water treatment chemicals (e.g., zinc salts, copolymers, other organophosphonic acids, etc.). When compounding, attention should be paid to the compatibility and synergistic effect between the components.
For example, compounding PAPEMP with zinc salt can enhance the corrosion inhibition performance; compounding with polycarboxylic acid can improve the scale inhibition effect.
pH adjustment:
Under high alkalinity conditions, pH adjustment may be needed to optimise the performance of PAPEMP. PAPEMP performs well in the range of pH 7.0~9.5, but the specific pH value may need to be adjusted according to the actual situation.
If the pH is too high, you may consider using an acid to adjust it, but you need to be careful to avoid other problems caused by a low pH.
Monitoring and Adjustment:
Regularly monitor water quality parameters such as total hardness, pH, turbidity, etc., as well as check for scaling or corrosion in the system.
Adjust the dosage of PAPEMP according to the monitoring results to ensure continuous and effective water treatment.
Safety Protection:
Wear appropriate personal protective equipment (PPE), such as protective glasses and gloves, when operating.
In case of inadvertent contact with skin or eyes, immediately flush with plenty of water and seek medical attention.
Waste disposal should follow local environmental regulations and should not be discharged at will.
PAPEMP performs well under high-calcium and high-alkali conditions, effectively preventing scale formation, dispersing suspended particles, and providing corrosion protection. Optimal application of PAPEMP under these harsh conditions can be ensured through proper use of concentration, compounding, pH adjustment, and regular monitoring and adjustment. In practice, it is recommended to work with a professional water treatment company or technician for more specific guidance and support.