Frequently Asked Questions Abrizan

Controlling the pH in a boiler is essential to prevent corrosion and scale formation. If the pH of the water is too acidic or too alkaline, it can cause corrosion of the boiler's internal surfaces or scale formation. Special anti-scale and anti-corrosion solutions for boilers help control pH fluctuations.

No, it is not recommended to use alkaline substances such as sodium hydroxide to control pH in boilers. Special anti-scale and anti-corrosion solutions for boilers work without the need for alkaline compounds and safely control pH fluctuations.

Anti-scale and anti-corrosion solutions for boilers have buffering properties and minimize pH fluctuations in water. These materials prevent scale and corrosion by forming a corrosion-resistant film and neutralizing carbonate and sulfate compounds. These solutions also work without the use of alkaline compounds (such as sodium and potassium hydroxide).

Boiler scale is caused by the presence of carbonate and sulfate compounds, cations such as calcium and magnesium, in the incoming water. These scales build up over time and act as insulators that impede heat transfer. This increases energy consumption, reduces boiler efficiency, and increases corrosion and wear on the equipment.

Boiler is a device that transfers heat from fuel combustion to water and produces hot water, hot steam or saturated steam. These devices are divided into three categories of high, medium and low pressure based on working pressure. Boilers are used in various industries such as steam turbines, pumps, heating systems, air conditioning, swimming pools, saunas and industrial equipment.

To ensure the effectiveness of dispersants, regular water quality and system performance analysis should be performed. Also, it is essential to use the appropriate dosage of dispersant and follow the manufacturer's instructions. If needed, free consultation with Abrizan experts can be useful.

The use of dispersants may have an initial cost, but in the long run, these costs are significantly offset by reduced energy costs and the prevention of mechanical failures. Therefore, the use of dispersants is an economical and smart investment.

Abrizan Company produces various types of dispersants according to the specific needs of industrial systems. These dispersants include various formulations that can be used to control various sediments (such as phosphate, carbonate, silica, etc.). For more information, please refer to the company's products section.

Proper and regular use of dispersants can significantly reduce, but not completely prevent, scale formation. To improve system performance, it is recommended that, in addition to using dispersants, the water quality and operating conditions of the system be monitored.

The selection of dispersants depends on the type of suspended particles in the water and the fouling agents present in the system. To make the correct selection, a careful analysis of the water quality and operating conditions of the system must be performed. Manufacturing companies such as Abrizan Company offer various products based on the specific needs of the systems.

Dispersants are chemicals that prevent particles from agglomerating and settling by creating electrical charges (positive or negative) on particles suspended in water. These substances keep the particles suspended in water and prevent them from depositing on surfaces. The use of dispersants controls sedimentation and prevents solid particles from settling in circulating water. This minimizes problems caused by clogged nozzles, reduced heat transfer efficiency, and increased energy costs.

The most common fouling compounds include phosphates, carbonates, sulfates, iron compounds, silica, and in some cases, oil and grease compounds. These substances usually precipitate in water due to high concentrations or temperature shocks.