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Transcript of Nitrogen Inerting For Corrosion Control in Fire …sfpe-asa.org/Resources/Meeting Handouts/2014-11...
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Nitrogen Inerting For Corrosion Control in Fire
Sprinkler Systems
Presented by:Lucas Kirn, PE
Engineered Corrosion Solutions
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Corrosion is considered normal and unavoidable.
Root causes are not well understood and myths abound . . . No corrosion engineers!
Current practice involves continually repairing leaks and completely replacing fire sprinkler systems.
Insanity – Continuing to do the same thing and expecting different results!
Fire Sprinkler IndustryConventional Wisdom
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Question: How common is corrosion?
Answer: Virtually all water based fire sprinkler systems are subject to attack by oxygen corrosion.
It is everywhere!
Fire Sprinkler Industry
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No.1 – MIC, MIC, MIC
No.2 – Bad Water
No.3 – Bad Pipe
No.4 – Galvanized steel is better than black steel
No.5 – Material defect causes weld seam failures
No.6 – Systems with high leak frequency - replace
Fire Sprinkler CorrosionThe Industry Myths
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Corrosion in Water Based FPS
Factors that Accelerate Corrosion Failures
– More O2 = More Corrosion
– Dry pipe fail faster than wet pipe
– Galvanized fail much faster than black
– Level of activity (drain/fill, remodels)
– System design – trapped air/water
– Quality of the system installation
– Higher temperatures increase rate
In every instance
Leak repair process creates more leaks
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Corrosion in Water Based FPS
Average service life of fire sprinkler systems today
– Wet pipe systems – 15 – 25 years with an average corrosion rate of 5 to 10 mils per year; failures generally start occurring after 15 years
– Dry pipe systems – 10 – 15 years with an average corrosion rate of 10 to 20 mils per year; failures start occurring in less than 5 years; galvanized systems have failed in 12 months
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What Are The Corrosion Risks?
Risks Associated with FPS that Do Not Work
• Life Safety Risk
• Structure and Property Risk
Risks Associated with Leaking FPS
• Repair and Replacement Cost - $
• Structure and Property Risk - $$
• Business Continuity Risk - $$$$
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Fire Marshal’s Concerns
Property Owner Concerns
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When Complete Systems Are Replaced?
We find that 80% of the piping shows no significant corrosion.
The Most Expensive Approach?
Replacing the fire sprinkler system one leak at a time!
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Fe3O4
FeS
further oxidation forms magnetite Fe3O4
Iron from the interior pipe wallreacts with oxygen and dissolves into the water
Reaction forms hematite (Fe2O3)
As iron is shed from interior pipe wall it leaves a void or pit at the air/water interface
Oxygen in water drives the reaction until all available oxygen is consumed
Iron oxide collects at “bottom” of pipe activating under deposit corrosion mechanisms
Creates ideal environment for bacteria (MIC)
Further oxidation forms magnetite (Fe3O4)
Wet Pipe System Internal Corrosion
ideal environment for microbial growth
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In Wet Systems Look for the Trapped Air
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What Does Wet Pipe Fire Sprinkler Systems Corrosion Look Like?
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Metal Loss Due to Corrosion
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Dry and Preaction Fire Sprinkler Corrosion
• Corrosion localized at locations in piping with trapped water
• Much more oxygen available per wetted pipe surface area
• Compressor continuously add warm, moist oxygen
• Condensate water from compressor very acidic
• Dryers ineffective in preventing corrosion
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O2
O2
O2
O2
O2
O2
O2
O2
O2
O2
O2
O2
O2
O2
O2
O2
O2
O2
Fe2O3
Dry and Preaction Fire SprinklerSystem Corrosion
Oxygen depleted area then forms magnetite
First forms hematite
Acidic condensate forms carbonic acid pH around 5.5
Characterized by• excessive amounts of oxygen• wetted metal corrodes very
quickly
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In Dry Systems Look for the Trapped Water
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Galvanized Pipe in Dry/Preaction FPS
Why Use Galvanized Pipe?
• Primary means of protection is zinc coating
• Secondary protection is cathodic protection of iron by zinc
In a persistently moist oxygenated environment galvanized pipe will fail 3 - 4 times faster than mild
steel – highly localized attack
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Zn0 ZnO Zn(OH)2 ZnCO3zinc metal zinc oxide zinc hydroxide zinc carbonate
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When Galvanized Pipe is Used …
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Galvanized Pipe Corrosion
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Options for Controlling Corrosion
1. Metallurgy – too expensive
2. Plastics – restricted by code
3. Coatings – delamination complications
4. Chemical Inhibitors – ineffective, incompatible
5. Remove the Corrosive Gas – purge the oxygen
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Wet Pipe Nitrogen Inerting (WPNI) Process(patent pending)
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Three essential components for the WPNI process:
1. Integral venting device to facilitate removal of oxygen from the system piping
2. Source of nitrogen gas of 98%+ purity (cylinders or nitrogen generator)
3. Nitrogen injection port to perform the “fill and purge” breathing process on the system piping in conjunction with the integral venting device
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Visual Indicator
Collection Chamber
PrimaryFloatValve
SecondaryFloatValve
Isolation Valve
Integral Venting Device(US Patent No. 8636023)
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Typical Wet Pipe Installation(Patent Pending)
Integral Venting Device
Injection Port with Nitrogen
Source
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Dry Pipe Nitrogen Inerting (DPNI) Process(patent pending)
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Three essential components for the DPNI process:
1. Continuous source of nitrogen gas of 98%+ purity
2. Integral venting device to facilitate removal of oxygen from the dry/preaction piping
3. Breathing system to perform the pneumatic “fill and purge” breathing process in conjunction with the nitrogen generator and the integral venting device
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Typical Dry Pipe Installation(Stand-Alone Generator System - patent pending)
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Corrosion Monitoring
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How Does the Industry Monitor Corrosion Today?
• Wait for the first leak to occur
• Riser mounted coupons
Why Monitor Corrosion in Fire Sprinkler Systems?
• Early warning system to prevent risk
• Validate effectiveness of corrosion management system
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ECS In-Line Corrosion Detector(Patent Pending)
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ECS In-Line Corrosion Detector(Patent Pending)
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results in thin walled section 25 mils thick, surrounded by sleeve that creates a pressure chamber
milled section of pipe
Remote Test Station included
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NFPA 13 Installation Standard2013 Edition
24.1.5.3
Where listed biocides and/or corrosion inhibitors are used, they shall be compatible with system components. Where used together, they shall also be compatible with each other.
There are currently ZERO biocides/corrosion inhibitors listed for use in FPS.
Table 23.4.4.7.1 Hazen-Williams C Values
• Black Steel (dry systems including preaction) 100• Black Steel (wet systems including deluge) 120• Galvanized Steel (dry systems including preaction) 100• Galvanized Steel (wet systems including deluge) 120
There is NO hydraulic advantage to using galvanized pipe.
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CONCLUSIONS
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• The root cause for corrosion in water based fire sprinkler systems is OXYGEN
• Removing the corrosive gas is the most cost effective method of eliminating corrosion in fire sprinkler systems
• The use of Nitrogen gas to displace oxygen is quickly growing in acceptance industry wide
• An effective means of corrosion monitoring should be employed with any corrosion management system