Post on 12-Jan-2016
Smart LDAR:Smart LDAR:October 30, 2002October 30, 2002
Dave Markwordt, Dave Markwordt, Bill Grimley, Tom LoganBill Grimley, Tom Logan
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OutlineOutline
• Fugitive Emissions & Why We Control Them
• What is Smart LDAR?
• The Smart LDAR Instrument
• Regulatory Issues with Smart LDAR
• Next Steps
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Fugitive EmissionsFugitive Emissions
• Routine leakage from valves, pumps, flanges, connectors, etc.
• Can aggregate to significant tonnage
• Can be hazardous air pollutants with direct health impact
• Can be controlled by equipment design or,more commonly, leak detection & repair programs
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Most current LDAR programsrequire visiting every component
regularly (e.g.. monthly).
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0102030405060708090
100
0-99ppm
500-999ppm
10,000-49,999ppm
>100,000ppm
%Total Count
% Total Emissions
Most equipmentdoesn’t
leak
84% of emissions come from
0.13% ofcomponents
Taback et al., 1997, API Publ 310, “Analysis of Refinery Screening Data”
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What Is What Is Smart LDARSmart LDAR??
• Smart Leak Detection And Repair is nothing more than the efficient locating and repair of the relatively small number of leaky valves, pumps, connectors, etc., in a large population of process equipment.
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Smart LDAR Conceptual Smart LDAR Conceptual FrameworkFramework
• Use remote sensing technology to quickly & economically identify significant leakers
• Scan often enough to catch significant leakers before emissions accumulate
• Repair (same as existing program)
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Smart LDAR Conceptual Smart LDAR Conceptual Framework (cont.)Framework (cont.)
• Tradeoffs include:– More frequent detection scans but fewer
repairs(don’t repair little leakers)
– More expensive equipment but less manpower for inspection and less repair cost (?)
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Smart LDAR InstrumentSmart LDAR Instrument
• API helping develop (with DOE & EPA)Backscatter Absorption Gas Imaging (BAGI) by LIS– BAGI scans laser over imaged area– Reflected laser captured by camera to form
image of area– Target gas absorbs laser and image appears
black
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Instrument DevelopmentInstrument Development
• Commercial product: – GasVue from Laser Imaging Systems
– Uses CO2 laser to see SF6
• Being adapted by Sandia National Labs– Changing to PPLN laser to look at H-C bond
stretch(periodically-polled Lithium Niobate)
– Making man-portable and intrinsically safe• Issues include laser power, battery life, weight
– Largely paid for by DOE & EPA
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Shoulder-mounted camera
Shoulder-mounted camera
Backpack power/control unit
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Does Instrument Work?Does Instrument Work?
• 1998 petrochem plant test
• 1999 refinery test
• 2001 laboratory tests
• 2002 refinery test delayed due to instrument problems– Various glitches & gremlins in the system
• Fully expect to establish reliable field detection limit
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Smart LDAR Regulatory Smart LDAR Regulatory ProgressProgress
• 2000 report established “equivalence” criteria between Smart LDAR and Method 21– Required sophisticated Monte Carlo analysis – Determined relationship between frequency of
scan and required reliable detection limit
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Open Issues / Next StepsOpen Issues / Next Steps
• Reliability in field use
• Detection limit and subjectivity of interpretation
• Standardized Procedures &Recordkeeping
• Commercial availability of BAGI units
• Alternative technologies development
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SummarySummary
• Significant incentives exist to continue developing Smart LDAR technologies & regulations
• Laser BAGI technology poised to achieve field demonstration status for a man-portable unit
• All participants in this multi-stakeholder, multi-disciplinary effort are optimistic of a successful conclusion.