boiler water treatment – Hard and Soft Water

Internal treatment and control of boiler feed water

June 6, 2015June 6, 2015 Tasrik Leave a comment

Even if external water treatment is designed and executed, it is inevitable that problems such as corrosion and scale still occur in the long run of the boiler operation. Boiler water treatment chemicals are therefore used for protecting a boiler plant from the problems and are applied for the whole systems including the feed water line and the steam condensate line. In case of internal boiler water treatment, chemicals are added to the boiler to prevent the formation of scale by converting the scale forming compounds to free flowing sludges, which can be removed by-blow down. The chemicals are also added to prevent corrosion, priming and foaming.

Purpose of using boiler water treatment chemicals

Controlling pH and alkalinity to prevent scale formation and corrosion
Softening to prevent scale formation
Sludge dispersing for easy blow down to prevent scaling
Oxygen scavenging to prevent corrosion
Preventing foaming of boiler water
Neutralizing and film forming to prevent corrosion

Boiler water treatment chemicals and their functions

Phosphate base chemicals and alkali agent

Phosphate base boiler compounds for low-pressure boiler contain phosphates and alkali agents. Both phosphates and alkalies take part in preventing scale formation and corrosion on heating surfaces of a boiler by

reacting with hardness components
keeping silica substances water soluble
controlling of alkalinity of boiler water

In a medium pressure boiler caustic or coordinated phosphate treatment is applied. For high pressure boilers, in the light of high heat flux, a coordinated phosphate treatment is employed in order to prevent alkali corrosion caused by the concentrated free alkali. The chemicals generally used are : Na₃PO₄, NaHPO₄, (NaPO₃)₆, NaOH etc.

Non-phosphate base chemicals

1) Polymer base compounds
Synthetic polyelectrolyte, Natural polyelectrolyte, etc. are used to prevent scale formation. The difference between polymer base and phosphate base boiler compounds is in the function that they prevent the scale formation of hardness components. The preventive mechanism is considered as follows:

Inhibit the crystal growth of scale components
Inhibit the crystallization of scale components
Keep the solids in suspension

2) Chelating agent
In chelate treatment, the hardness components contaminated in feed water are kept in a soluble state by the chelating agent. Typical chelating agents are ethylenediamine tetra acetate (EDTA) and nitrilo triacetate.

Sludge dispersant:
Hardness compounds and silica which enter into the boiler from the feed water become sludges of hydroxyapatite, magnesium hydroxide, magnesium silicate etc. by the effect of boiler compounds. Most of these are easily suspensible in water and are discharged by blow down from the boiler. In order to prevent the accumulation of sludge on the bottom of drum and to prevent scaling on the heating surface by hydroxyapatite, etc., sludge dispersants are frequently employed. Synthetic polymer e.g. acrylic acid polymer is generally used as Sludge dispersant.

Oxygen scavenging chemicals
Although oxygen can be reduced to less than seven parts per billion in modern deaerators, it is still necessary to reduce oxygen even further. This is accomplished by chemical scavenging in which either sodium sulfite (Na₂SO₃), hydrazine ( N₂H₄), hydroxylamine derivatives, hydroquinone/progallol-based derivatives is fed into the boiler feed water.

Sodium sulfite
Sodium sulfite is the most common scavenger in industry. The reaction involved is the following,

Na₂SO₃: + O₂ → Na₂SO₄

Such that oxygen is removed to produce soluble sodium sulfite. Sulfite is fed at about 40 parts to 1 part oxygen.

Hydrazine
The alternative to sulfite treatment is hydrazine, which has traditionally been used on higher pressure boilers. One reaction by which hydrazine removes oxygen is a two step process.

4Fe₃O₄ + O₂ → 6Fe₂O₃

6Fe₂O₃ + N₂H₄ → 4Fe₃O₄ + 2H₂O + N₂

One interesting feature of these reactions is that in the first reaction the oxygen breaks down the protective oxide coating to form rust. In the second reaction, the hydrazine reduces the rust to the desired passive form. Only three parts 35 percent hydrazine solution is required per part of oxygen.
In using either hydrazine or sulfite, it is important to apply the following rules,

Feed the scavenger at earliest practical point
Feed continuously
Maintain residual sulfite or hydrazine according to levels recommended below

After the scavenging process of oxygen removal, the dissolved oxygen should be less than ten parts per billion.

Corrosion inhibitors
Volatile amines and filming amines are typically used as corrosion inhibitors to prevent the steam and condensate lines from corrosion. Volatile amines inhibit the corrosion by controlling the condensate pH. Filming amines are applied to form a water repellent film on metal surfaces which prevents direct contact with the corrosive substances such as oxygen and carbon di-oxide. Volatile amines eg., ammonia (NH₃), cyclohexyl amine (C₆H₁₁NH₂) etc., and filming amines eg., alkyl amines (RNH₂) ( R=C₁₀-C₂₂) are used as corrosion inhibitors.

Antifoaming agents
Antifoaming agents are chemicals used to control foaming on the boiler water surface, caused by an increase of the dissolved or suspended solids or by contamination of oil and fat or organic matter in the boiler water. Chemicals of amide based, alcohol based or fatty acid ester based chemicals are used as antifoaming agents. These chemicals change the surface tension of the water.

Water quality control method for boiler feed water system

1) Water quality control target value
The boiler water quality control target value is set on the basis of standard criteria and considerations of the structure and operation conditions of a boiler. The following standard values for different parameters of boiler water should be maintained for smooth operation of boiler.

a) Control items for feed water

pH
Total hardness
Dissolved oxygen
Total iron and total copper
Conductivity
Silica
Hydrazine

b) Control items for boiler water

pH
Alkalinity
Total evaporation residue
Electrical conductivity
Chloride ion
Phosphate ion
Sulfite ion or hydrazine
Silica

2) Boiler water treatment methods

Caustic treatment
Coordinated phosphate treatment
volatile treatment

3) Concentration control of boiler water
Blow down is done to control the concentration of boiler water and to discharge sludge, impurities contained in the feed water and solids in the chemicals added.

4) Control of chemical injection
The purpose of controlling the chemical injection includes the adjustment of the water quality of the boiler system to the specified values by sufficient effect of the functions of chemicals chosen for an individual boiler. Some chemicals do not exert their total effect and in addition, may cause secondary problems depending on the excess or shortage of dosage and the point or method of injection. The control of chemical injection involves the following

Dissolution and dilution
Determination of dosage-Initial dosage, maintenance dosage
Injection point

External Boiler feed water treatment

May 7, 2015May 6, 2015 Tasrik 1 Comment

Water is treated properly before feeding boiler. External Boiler Feed water treatment is the decrease or elimination of contaminants from water outside the boiler. It involves removal or reduction of some undesirable characteristics and addition of desirable characteristics to make water suitable and less troublesome for a proposed application before it is delivered to the point of use.

With object to prepare boiler feed water, the water after conventional treatment is further treated before using as boiler feed water. The following steps are associated in external boiler Feed water treatment.

Demineralization to remove dissolved minerals, salts or acids.
Dearation to remove dissolved oxygen

Demineralization of boiler feed water
The following steps consist in demineralization section:
– Cation exchanger
– Degasifier
– Anion exchanger
– mixed Bed polisher

Cation exchanger
In demineralization process, hydrogen cation exchanger is generally employed to remove all cations from water. Filtered water is passed though the cation tower, which is filled with hydrogen cation exchanger. In cation exchanger the following reactions are taken place. Therefore the scale forming cations such as Ca, Mg ions are replaced by the labile hydrogen, and water is set free from those ions.

Ca(HCO₃)₂ + 2HR = CaR₂ + 2H₂O + 2CO₂

Mg(HCO₃)₂ + 2HR = MgR₂ + 2H₂O + 2CO₂

NaHCO₃ + HR = NaR + H₂O + CO₂

Here the symbol R stand for the organic radical.
The following reactions are taken place between the resins and sulfates or chlorides ions.

CaSO₄ + 2HR = CaR₂ + H₂SO₄

MgSO₄ + 2HR = MgR₂ + H₂SO₄

NaCl + HR = NaR + HCl

Regeneration with sulfuric acid is the most widely used and most economical method of regeneration. The reactions, in condensed form, may be indicated as follows:

CaR₂ + H₂SO₄ = CaSO₄ + 2HR

MgR₂ + H₂SO₄ = MgSO₄ + 2HR

2NaR + H₂SO₄ = Na₂SO₄ + 2HR

Carbonic acid is produced by the reactions with bi-carbonate salts. In sequence which is removed as CO2 gas. Sulphate and chloride ions in water give rise to mineral acids. The resins are turn into corresponding salts and the feed water becomes acidic soft water.

Degasifier
Most of the CO2 is removed from acidic soft water in degasifier. This is obtained by spreading water over raching rings and air that flows there in counter current direction by the blower.

Anion Exchanger
Then water is passed though the anion exchanger. Which is filled with two types of organic synthetic resin, i.e highly basic or weakly basic. Both types can remove strongly ionized acids for example sulfuric acid, hydrochloric acid or nitric acid. But only highly basic anion exchange resin can remove weakly ionized acids such as silicic and carbonic acids. For the anion exchange of a strongly ionized acid the following reaction may take place, where R4N represents the complex anion-exchanger radical.

H₂SO₄ + 2R₄NOH → (R₄N)₂SO₄ + 2H₂O

Regeneration
Highly basic anion exchangers are regenerated with caustic soda, and weakly basic anion exchanger may be regenerated with caustic soda, soda ash or sometimes ammonium hydroxide.

(R₄N)₂SO₄ + 2NaOH → 2R₄NOH + Na₂SO₄

Mixed Bed Polisher
Lastly the water is passed though the mixed bed polisher containing cation exchange resins and anion exchange resins to remove the ions left in water after passing though anion exchange resins demineralized water thus produced is used as make-up for boiler feed water.

Deaeration
Mechanical Deaerator
The simplest process for removing dissolved gases like oxygen is by the use of an open tank containing the water and dissolved oxygen, where most of the dissolved oxygen is stripped of by means of low pressure steam.

The Deaerator consists of a horizontal tank provided with a packed tower. During normal operation, the demineralized water is introduced above the packed bed & the stripping steam is introduced under the bed, controlled by the pressure controller. During start up steam can be introduced at the bottom of the tank, to heat up the stored quality of water.

The deaerator is operated at approx. 132⁰C in order to ensure proper shipping of the water, it is significant that an additional of steam be available in the bed, as a result the inlet temperature of the water to the Deaerator is kept (5-20)⁰C bellow the temperature level in the deaerator. It is checked that a reasonable flow of steam leaves the deaerator through the flow orifice. The deaerated water is called as the boiler feed water. The quality of stripped demineralized water is determined by analyzing samples taken from sample line. The boiler feed water from the deaerator pumped by the BFW pumps to the auxiliary boiler.

Boiler feed water treatment

May 1, 2015December 8, 2015 Tasrik 1 Comment

The function of the boiler is producing steam. The effectiveness of the boiler is depends on the water. Hence the boiler feed water quality is an important factor for boiler system. Lots of problems in the boiler system caused by water can be prevented in many cases if the water quality is controlled properly. Therefore, it is required boiler feed water treatment perfectly. In boiler, water quality control target values are set on the basis of standard criteria and operation condition of a boiler and these are maintained for smooth running of the boiler.

Necessity of boiler feed water treatment:

To obtain maximum boiler efficiency
To enhance the life time of boiler tubes
To prevent corrosion due to condensate quality
To prevent down time caused by troubles arisen from water quality

Boiler Problems caused by water

Scale Problem: Scale development is highly unwanted. If the boiler water contaminant with some dissolved solids, it will reduce the boiler performance and boiler life. When the steam is generated, the solid content become concentrated and form deposit in the bottom of the boiler. As a result poor heat transfer and it need to be overheating the boiler tube. Therefore decreases the effectiveness of the boiler. More over increase the fuel and maintenance cost.
Corrosion Problem: If the boiler feed water contains some gases as like oxygen, carbondioxide, and ammonia it will harmful for boiler. These gases will react with the boiler plate and others metals and lead to boiler corrosion.
Priming and foaming problem

Water treatment for boiler
Water is treated suitably before feeding boiler. It also requires some physical and chemical treatment inside boiler to prevent any detrimental effects due to water. The main function of boiler water treatment is to protect the boiler from corrosion and scale formation. The water conditioning for boiler is broadly classified into two types of boiler feed water treatment: