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Boiler Chemicals-42

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How to Protects cooling systems aboard vessels, including engine cooling circuits and auxiliary systems

Question: How to Protects cooling systems aboard vessels, including engine cooling circuits and auxiliary systems?

Ans : RXSOL 2000 is a specialized liquid treatment formulated to safeguard cooling systems from the detrimental effects of corrosion, scaling, and biological fouling. This all-in-one treatment is particularly suited for closed-loop and open recirculating cooling water systems.

 

Question: Why RXSOL 2000?

Ans :

How to Protects cooling systems aboard vessels, including engine cooling circuits and auxiliary systems

Question: How to Protects cooling systems aboard vessels, including engine cooling circuits and auxiliary systems?

Ans : RXSOL 2000 is a specialized liquid treatment formulated to safeguard cooling systems from the detrimental effects of corrosion, scaling, and biological fouling. This all-in-one treatment is particularly suited for closed-loop and open recirculating cooling water systems.

 

Question: Why RXSOL 2000?

Ans :

Condensnol Amine is Boiler Water Treatment Chemical to control corrosion in feed water Condensate System

Condensnol amine is a chemical treatment used to control corrosion in condensate and feed water systems, particularly in boiler systems. It works by neutralizing acidic contaminants, such as dissolved carbon dioxide, which cause corrosion. The amines in Condensnol volatilize with the steam, protecting both the steam and condensate lines by elevating the pH and forming a protective film on metal surfaces. 

Here's a more detailed explanation:

Sodium Hexametaphosphate to precipitate calcium in low-pressure boilers

Sodium Hexametaphosphate to precipitate calcium in low-pressure boilers

Sodium Hexametaphosphate supplier

Sodium hexametaphosphate is a commonly used source of orthophosphate anion used to precipitate calcium in low-pressure boilers. With dispersants the calcium phosphate becomes a fluidized sludge capable of being blown down and out of the boiler before the calcium can form a deposit.

Example

The reaction rate is the first part of the equation and the residual the second part:

Oxygen scavengers for Boiler Water

Oxygen scavengers for Boiler Water

Oxygen scavengers are best fed to the storage section of the deaerator or feedwater tank. In most low-pressure industrial boiler systems, if oxygen remains in the feedwater and enters the boiler, it is too late to remove all of the oxygen and protect the boiler and condensate from oxygen corrosion. A residual of sulfite or other.

Oxygen scavenger in the boiler cannot chemically reduce all of the oxygen before it escapes with the steam or reacts with the metal surfaces.

Mercaptobenzothiazole with sulfamic acid

Mercaptobenzothiazole with sulfamic acid

Mercaptobenzothiazole plays a role of corrosion inhibitor with Sulfamic Acid.  Mercaptobenzothiazole also works as Biocide. Uses of sulfamic acid without blend of corrision inhibitor not recommended scientifically. As Sulfamic acid attack on metal surface to corrode. While small presence of corrosion inhibitor increases sulfamic acid utility for descaling purpose.

Product: 

Sulfamic Acid Descaler Cleaner

COMPARATIVE TEST METHOD FOR DEHA

COMPARATIVE TEST METHOD FOR DEHA

COMPARATIVE TEST METHOD FOR DEHA
Take sample in 2 cells with 10 ml of Standard Solution of DEHA.

Then in both cell add 6 drops DEHA Test Solution and mix. Then add 1.0 ml (25 drops) DEHA Indicator Solution and mix.

Place the cell in a dark area and wait for 10 minutes.

Rotate disc until fully colour  is obtained. Record disc reading.

Product: 

Diethyl Hydroxyl Amine N,N- DEHA

Diethylhydroxylamine Analysis

Diethylhydroxylamine Analysis

DEHA Analysis method

 

Diethyl hydroxyl amine DEHA or other oxygen scavengers in the sample buffered between pH 4 and 10 react with ferric iron in the Fe(III) solution to produce ferrous ion in an amount

that is equivalent to the DEHA concentration. This solution then reacts with ferrozine reagent, which forms a purple colour with ferrous iron that is proportional to the concentration of the oxygen scavenger.
 

Analysis steps

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