Boiler Feed Water
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Transcript of Boiler Feed Water
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Boiler Feed Water
Aijaz Ali
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Introduction
• Industrial water– Process water
• Water that is used for, or comes in contact with an end product or the materials used in an end product.
– Boiler feed water• Water that serves in any level of the manufacturing
process• Common contaminants: Ca, Mg, Fe, Al,
Silica, silt, oil
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Impurity Resulting in Got rid by
Soluble Gases H2S Corrosion of boiler tubes Aeration, deaeration and chemical treatment
O2
CO
Suspended solids
Sediment and turbidity
Sludge and scale carryover Clarification, filtration and chemical treatment
Organic matter Carryover, foaming and corrosion
Dissolved colloidal solids
Oil and grease Foaming, deposition Coagulation, filtration
Hardness Ca & Mg Scaling, inhibits HT, boiler tube burn thru
Softening and internal treatment
Na, Alkalinity,Na2CO3,
Foaming, corrosion, embrittlement
Ion exchange, deionization
Sulphates Hard scales if Ca present Deionization
Chlorides Priming, foaming Deionization
Fe, Mn Rusting, resistence to HT Aeration, filtration, ion exchange
Silica Scaling Deionization, lime-soda process
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Treatment Methods
• External Treatment• Internal Treatment
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External methods of conditioning
• Clarification• Filtration• Ion exchange• Membrane separation
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Clarification
• Removes all types of solids & large particles – sediments, oil, natural org. matter, colour etc.
• Consists of 4 steps – screening, coagulation-flocculation, sedimentation, fine filtration.
• Screening protects downstream units from large, easily separable objects.
• Three types:– Fine screening (spacing < 10 mm)– Medium screening (spacing 10 – 40 mm)– Coarse screening (spacing > 40 mm)
• Coagulation-flocculation removes suspended solids & colloidal particles.
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Clarification (contd.)
• Important factors – velocity gradient, time, pH• Flotation – to separate particles having density lesser
than water.• Three types:
– Natural– Aided– Induced
• Induced flotation facilitated through bubbling of air; 2 types – – Dissolved air flotation (DAF) (bubbles of 40 – 70 mm)– Mechanical flotation (bubbles of 0.2 – 2 mm)
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Ion Exchange
• Resins - acidic/basic radicals with ions fixed on them; exchanged with ions present in water.
• Theoretically removes 100 % of salts; does not remove organics, virus or bacteria.
• 2 types of resins – gel type (microporous) and macroporous or loosely cross-linked type.
• 3 systems of resin beds:– Strong acid cation + Strong base anion– Strong acid cation + weak base anion + Strong base anion– Mixed-bed Deionization
• Ion exchange plant – softens water, removes heavy metals, produces demineralized water.
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Reverse Osmosis (RO)
• By applying pressure greater than osmotic pressure, water flows from the higher concentration solution to lower one.
• Mostly used for desalination; also for waste water treatment.• Applied pressure depends on the type and salinity of water.• Working pressure:
– < 15 bar for tap water (< 1500 ppm)– 15 – 25 bar for brackish water (< 8000 ppm)– 50 – 75 bar for sea water (35000 – 45000 ppm)
• RO plant preceded by pretreatment to avoid membrane fouling by sediments, bacteria, metal oxides & chlorine.
• RO permeate water more acidic than the feed water due to dissolved CO2. Common post-treatment are pH neutralization and remineralization.
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Electrodionization
• Combines membrane separation and ion-exchange to provide high efficiency demineralization process.
• Electric potential transports & segregates charged aqueous species.
• Electric current continuously regenerates resin; no need for periodical regeneration.
• Deionization chamber - ion exchange resin, packed between cationic & anionic exchange membranes.
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Electrodionization (Cont…)
• Advantages– continuous operation– eliminates use of chemicals for regeneration– low power consumption
• Disadvantages– Not used for water with hardness > 1– requires purification pretreatment– Pre-removal of CO2
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Internal Treatment methods
• Deaerators• Dissolved non-condensibles: O2 and CO2 • Pitting and corrosion• Mechanical deaeration: reducing solubility of gases
– Increased temperature– Decreased partial pressure over the water– Commonly used purge gas: steam– Advantages:
– No added impurities– Easily available– Also provides heat
– Pressure/Vacuum operation, ~98% of total and free is removed• Coupled with chemical scavengers for complete
deaeration
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Corrosion control
• pH control– Different for different components, different
alloys– CS : optimum pH = 9.2 to 9.6 at feed water
temperatures– MS : optimum pH = 8.5 to 12.7 in boilers– Cu and CS : 8.8 to 9.2– Maintained by addition of amines or small
amount of caustic soda– Avoidance of addition of ammonia
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Corrosion control (Cont…)
• Oxygen control: during operation– Chemical Scavengers added to feedwater and
condensates• Sodium sulfite, bisulfite, hydrazine• Quinone, ascorbate
– Common entry: between deaerator and storageSodium sulfite: easy to handle, safe, for pressures of < 70 bar,
solid addition to system, decomposition to corrosive gasesHydrazine: no solid addition, high pressures, but toxic, handling
issues, Ammonia liberation, slower reaction– Constant sampling and monitoring
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Deposits
• Scaling/deposition from carryover• Carbonate/Phosphate control
– Addition of certain amounts of carbonate/phosphate for ensuring precipitate in the form of salts. Prevention of Sulphates
– For removal of hardness, Ca and Mg– Precipitation in bulk instead of at walls, non-adherent
• Organic supplements: fluid sludge formation (polymer addition)– Bottom blowdown removes sludge
• Chelant control• Combination of additives• Blowdown
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Deaerators
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Discussion
• What Is Deaeration?• The Process - Removing O2• Equipment• DA Problems• Operational Impacts• Monitoring
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What Is It?
• Deaeration is the process of removing oxygen and other non-condensable gases from the boiler feed water like Co2
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Removing Oxygen
• Water @ 70oF and Atmospheric Pressure Will Have About 7,000 ppb of O2
• A Properly Functioning DA Will Reduce the Level to Approximately 5 - 10 ppb
• The Remaining O2 Is Removed With an Oxygen Scavenger, (i.e. Sulfite etc)
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Removing Oxygen
• Three Driving Forces– 1- Heat
• (Low Pressure Steam, Condensate)– 2- Surface Area
• (Nozzles, Trays)– 3- Pressure
• (Vent)
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Removing Oxygen
• Principle of Surface Area
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Removing Oxygen
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The Corrosion Process
• Anode: Feo ---> Fe+2 + 2e--• Cathode: 2e-- + H20 + 1/202 --> 2OH-
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Deaerator
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Deaerator
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DA Problems
• Inadequate Venting• Inadequate Steam Flow, Steam Pressure,
or Condensate• Flows Outside of Design Specifications• Broken, Plugged or Missing Nozzles• Broken, Plugged or Missing Trays• Broken or Missing Baffles
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Operational Impacts
• Corrosion Potential• Fe in the Boiler• Higher Oxygen Scavenger Usage
– Increased Boiler Conductivity, Lower Cycles• Reduced Boiler Efficiency
– Greater Chemical Costs• Reduced DA Life
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Monitoring
• Flow• Temperature• Pressure• Scavenger Usage• Venting• Inspections
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Corrosion Types in Boilers
Type Typically Caused byOxygen Attack BFW Oxygen
Alkalinityconcentration
Concentration of caustic under deposits
Acid attack Acid leaks into BFW or condensate
Chelant/Polymer Attack Excessive chemical concentration
Ammonia Attack High ammonia returned in condensate orfrom BFW
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Condensate in BFW
• Neutralize carbonic acid• Do not protect against oxygen corrosion• Maintain condensate pH 8.5-9.0• Add in direct proportion to amount of CO2 in
steam• Most products are blends of two or more
neutralizing amines• Important operational considerations are
volatility, acid neutralization ability, and basicity
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Neutralizing Amines
• Basicity - a measure of amine’s ability to raise pH in condensate
• Enough amine must be added to neutralize al carbonic acid
• Additional amine then added to maintain pH
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Ammonia
• Ammonia is used in steam lines where the steam contains a large amount of carbon dioxide or where there is an appreciable amount of steam loss from the condensate system. The advantage of ammonia is that the relative cost is less than other amines. The disadvantage is that it cannot be used in systems containing copper or nickel.
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Thank You