Lee-Presentation-Corrosion-web.pdf.Internal corrosion prevention:Internal corrosion prevention:Internal corrosion prevention:Internal corrosion prevention:Internal corrosion prevention:
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About This Presentation
Internal Pipeline Corrosion for Carbon Steel
Slide Content
1
Internal Pipeline Corrosion
Pipeline Safety
Trust Conference
November 2, 2017
Kenneth Lee
Director, Engineering & Research
PHMSA Office of Pipeline Safety
Internal Pipeline Corrosion
Pipeline Safety
Trust Conference
November 2, 2017
Kenneth Lee
Director, Engineering & Research
PHMSA Office of Pipeline Safety
2
Steel Pipeline Corrosion
• Iron ore ⇒ Steel ⇒ Iron ore
• Outside coated, inside usually bare
• External corrosion prevention:
– Coating
– Cathodic protection
• Internal corrosion prevention:
– Controlling composition to ensure product is
not corrosive
Steel Pipeline Corrosion
• Iron ore ⇒ Steel ⇒ Iron ore
• Outside coated, inside usually bare
• External corrosion prevention:
– Coating
– Cathodic protection
• Internal corrosion prevention:
– Controlling composition to ensure product is
not corrosive
3
Internal Corrosion Drivers
• Impurities: water, carbon dioxide,
chlorides, hydrogen sulfide
• Microbes (e.g. sulfate reducing bacteria)
• Higher temperatures
• Lower gas velocities (stagnant flow)
Internal Corrosion Drivers
• Impurities: water, carbon dioxide,
chlorides, hydrogen sulfide
• Microbes (e.g. sulfate reducing bacteria)
• Higher temperatures
• Lower gas velocities (stagnant flow)
4
Hazardous Liquid
Corrosion: 25%
External: 11%, Internal 14%
Hazardous Liquid
Corrosion: 25%
External: 11%, Internal 14%
5
Natural Gas Transmission
Corrosion: 26%
External: 9%, Internal: 17%
Natural Gas Transmission
Corrosion: 26%
External: 9%, Internal: 17%
6
Natural Gas Distribution
Corrosion: 3%
Internal: 1%, External 2%
Natural Gas Distribution
Corrosion: 3%
Internal: 1%, External 2%
7
Gas Transmission Onshore Pipeline
Significant Incident Rates per Decade
2005 - 2016 - Incidents per 1,000 Miles
“Unknown and Pre-1940” decade leading cause is Corrosion
“1940s” decade leading cause is Material Failure of Pipe or Weld
“2010s” decade leading cause is Equipment Failure
Gas Transmission Onshore Pipeline
Significant Incident Rates per Decade
2005 - 2016 - Incidents per 1,000 Miles
“Unknown and Pre-1940” decade leading cause is Corrosion
“1940s” decade leading cause is Material Failure of Pipe or Weld
“2010s” decade leading cause is Equipment Failure
8
Incidents: Internal Corrosion
• 2000: Carlsbad, NM (gas transmission)
– 12 fatalities
• 2008: Pasadena, TX (petroleum)
– 1 fatality, 5500 barrels released
• 2013: Cushing, OK (crude oil)
– 2250 barrels released
• 2016: Franklin County, MO (petroleum)
– 657 barrels released
Incidents: Internal Corrosion
• 2000: Carlsbad, NM (gas transmission)
– 12 fatalities
• 2008: Pasadena, TX (petroleum)
– 1 fatality, 5500 barrels released
• 2013: Cushing, OK (crude oil)
– 2250 barrels released
• 2016: Franklin County, MO (petroleum)
– 657 barrels released
9
Internal Corrosion Control
• Controlling product quality composition
• Minimizing stagnant flow
• Liquids removal for natural gas pipelines
• Inspection, monitoring, & alarms
Internal Corrosion Control
• Controlling product quality composition
• Minimizing stagnant flow
• Liquids removal for natural gas pipelines
• Inspection, monitoring, & alarms
10
Internal Corrosion Protection
Methods
• Cleaning Pigs/Tools
• Inhibitors/Biocides/Other Chemical
Additives
• Control moisture and chemical content of
products in pipeline
• Inline Inspection (ILI)
• Integrity Management
Internal Corrosion Protection
Methods
• Cleaning Pigs/Tools
• Inhibitors/Biocides/Other Chemical
Additives
• Control moisture and chemical content of
products in pipeline
• Inline Inspection (ILI)
• Integrity Management
11
49 CFR 195 Hazardous Liquid
• §195.4 Chemically compatible
• Subpart H: Corrosion Control
• §195.452: Integrity Management
• §192.475 Internal Corrosion Control
49 CFR 195 Hazardous Liquid
• §195.4 Chemically compatible
• Subpart H: Corrosion Control
• §195.452: Integrity Management
• §192.475 Internal Corrosion Control
12
49 CFR 192 Natural Gas
• § 192.53 Chemically compatible
• Subpart I: Corrosion Control
• Subpart O: Integrity Management
• §192.475 Internal Corrosion Control
49 CFR 192 Natural Gas
• § 192.53 Chemically compatible
• Subpart I: Corrosion Control
• Subpart O: Integrity Management
• §192.475 Internal Corrosion Control
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§ 192.475 Internal corrosion control: General.
(a) Corrosive gas may not be transported by pipeline, unless the
corrosive effect of the gas on the pipeline has been investigated and
steps have been taken to minimize internal corrosion.
(b) Whenever any pipe is removed from a pipeline for any reason, the
internal surface must be inspected for evidence of corrosion. If internal
corrosion is found -
(1) The adjacent pipe must be investigated to determine the
extent of internal corrosion;
(2) Replacement must be made to the extent required by the
applicable paragraphs of §§ 192.485, 192.487, or 192.489; and
(3) Steps must be taken to minimize the internal corrosion.
(c) Gas containing more than 0.25 grain of hydrogen sulfide per 100
cubic feet (5.8 milligrams/m .3) at standard conditions (4 parts per
million) may not be stored in pipe-type or bottle-type holders.
§ 192.475 Internal corrosion control: General.
(a) Corrosive gas may not be transported by pipeline, unless the
corrosive effect of the gas on the pipeline has been investigated and
steps have been taken to minimize internal corrosion.
(b) Whenever any pipe is removed from a pipeline for any reason, the
internal surface must be inspected for evidence of corrosion. If internal
corrosion is found -
(1) The adjacent pipe must be investigated to determine the
extent of internal corrosion;
(2) Replacement must be made to the extent required by the
applicable paragraphs of §§ 192.485, 192.487, or 192.489; and
(3) Steps must be taken to minimize the internal corrosion.
(c) Gas containing more than 0.25 grain of hydrogen sulfide per 100
cubic feet (5.8 milligrams/m .3) at standard conditions (4 parts per
million) may not be stored in pipe-type or bottle-type holders.
14
§ 192.476 Internal corrosion control: Design and
construction of transmission line.
(a)Design and construction. Except as provided in paragraph (b) of this
section, each new transmission line and each replacement of line pipe,
valve, fitting, or other line component in a transmission line must have
features incorporated into its design and construction to reduce the risk
of internal corrosion. At a minimum, unless it is impracticable or
unnecessary to do so, each new transmission line or replacement of line
pipe, valve, fitting, or other line component in a transmission line must:
(1) Be configured to reduce the risk that liquids will collect in the line;
(2) Have effective liquid removal features whenever the
configuration would allow liquids to collect; and
(3) Allow use of devices for monitoring internal corrosion at
locations with significant potential for internal corrosion.
………..
[ 72 FR 20059, Apr. 23, 2007]
§ 192.476 Internal corrosion control: Design and
construction of transmission line.
(a)Design and construction. Except as provided in paragraph (b) of this
section, each new transmission line and each replacement of line pipe,
valve, fitting, or other line component in a transmission line must have
features incorporated into its design and construction to reduce the risk
of internal corrosion. At a minimum, unless it is impracticable or
unnecessary to do so, each new transmission line or replacement of line
pipe, valve, fitting, or other line component in a transmission line must:
(1) Be configured to reduce the risk that liquids will collect in the line;
(2) Have effective liquid removal features whenever the
configuration would allow liquids to collect; and
(3) Allow use of devices for monitoring internal corrosion at
locations with significant potential for internal corrosion.
………..
[ 72 FR 20059, Apr. 23, 2007]
15
PHMSA Pipeline Safety Tools
• Regulations
• Inspections
• Enforcement
• Research
PHMSA Pipeline Safety Tools
• Regulations
• Inspections
• Enforcement
• Research
16
Courtesy: Pipetel
Technologies
Courtesy:
CRC Evens
Courtesy: Pure
Technologies Leak
Detection
Remaining Strength Corrosion Models
Courtesy: LASEN
Courtesy: ITT Kodak
PHMSA Funded Research
Gas/Liq Leak
Detection by Fixed
Wing/ Helicopter
along pipeline
Guided Wave
Ultrasonics
Courtesy: Pipetel
Technologies
Courtesy:
CRC Evens
Courtesy: Pure
Technologies Leak
Detection
Remaining Strength Corrosion Models
Courtesy: LASEN
Courtesy: ITT Kodak
PHMSA Funded Research
Gas/Liq Leak
Detection by Fixed
Wing/ Helicopter
along pipeline
Guided Wave
Ultrasonics
17
Small Sample of PHMSA
Research Projects
• Development of EMAT Sensors for Corrosion
Mapping of Unpiggable Natural Gas Pipelines Using
ILI Tools
• Establishing Remaining Strength of Line Pipe and
Fittings with Corrosion Type Defects
• Enhanced Mitigation of Pipeline Biocorrosion Using
A Mixture of D-Amino Acids with A Biocide
• Fundamental Mechanochemistry-based Detection of
Early Stage Corrosion Degradation of Pipeline Steels
Small Sample of PHMSA
Research Projects
• Development of EMAT Sensors for Corrosion
Mapping of Unpiggable Natural Gas Pipelines Using
ILI Tools
• Establishing Remaining Strength of Line Pipe and
Fittings with Corrosion Type Defects
• Enhanced Mitigation of Pipeline Biocorrosion Using
A Mixture of D-Amino Acids with A Biocide
• Fundamental Mechanochemistry-based Detection of
Early Stage Corrosion Degradation of Pipeline Steels
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