Download presentation
Presentation is loading. Please wait.
Published byJayson Eaton Modified over 9 years ago
1
Directed Inspection and Maintenance (DI&M) Lessons Learned from Natural Gas STAR Partners Producers Technology Transfer Workshop Devon Energy and EPA’s Natural Gas STAR Program Casper, Wyoming August 30, 2005
2
Slide 2 Reducing Emissions, Increasing Efficiency, Maximizing Profits DI&M: Agenda Methane Losses Methane Recovery Is Recovery Profitable? Industry Experience Discussion Questions
3
Slide 3 Reducing Emissions, Increasing Efficiency, Maximizing Profits Natural Gas Industry Emissions Production sector responsible for largest portion of emissions EmissionsReductions Transmission & Storage 101 Bcf Production 148 Bcf Processing 36 Bcf Distribution 68 Bcf 24 Bcf 7 Bcf 18 Bcf 1 Bcf Oil Downstream 2 Bcf Inventory of US Greenhouse Gas Emissions and Sinks 1990 - 2003
4
Slide 4 Reducing Emissions, Increasing Efficiency, Maximizing Profits Oil and Gas Production Sector Methane Emissions The production sector has several large methane emission sources that can be targeted for reductions Pneumatic Devices 61 Bcf Dehydrators and Pumps 17 Bcf Meters and Pipeline Leaks 10 Bcf Gas Engine Exhaust 12 Bcf Well Venting and Flaring 18 Bcf Storage Tank Venting 9 Bcf Other Sources 21 Bcf Inventory of US Greenhouse Gas Emissions and Sinks 1990 - 2003
5
Slide 5 Reducing Emissions, Increasing Efficiency, Maximizing Profits Control Valves 4.0% Open-Ended Lines 11.1% Other Flow Meters 0.2% Orifice Meters 0.1% Pressure Relief Valves 3.5% Valves 26.0% Blowdowns 0.8% Connectors 24.4% Compressor Seals 23.4% Crankcase Vents 4.2% Pump Seals 1.9% Pressure Regulators 0.4% Source: Clearstone Engineering, 2002 Methane Losses by Equipment Type
6
Slide 6 Reducing Emissions, Increasing Efficiency, Maximizing Profits What is the Problem? Gas leaks are invisible, unregulated and go unnoticed Gas STAR Partners find that valves, connectors, compressor seals and open- ended lines (OELs) are major sources u 27 Bcf of methane emitted per year by reciprocating compressors seals and OELs, each contributing equally to the emissions
7
Slide 7 Reducing Emissions, Increasing Efficiency, Maximizing Profits What are the Sources of Emissions? PCPC Compressor FC DC LC TC VC FTS FC LC LC Contactor Energy Exchange Pump Dehydrator Reboiler Pressure Relief Valve Drain Valve Compressor Seal Pneumatic Controller
8
Slide 8 Reducing Emissions, Increasing Efficiency, Maximizing Profits How Much Methane is Emitted?
9
Slide 9 Reducing Emissions, Increasing Efficiency, Maximizing Profits How Much Methane is Emitted?
10
Slide 10 Reducing Emissions, Increasing Efficiency, Maximizing Profits Methane Recovery Fugitive losses can be dramatically reduced by implementing a DI&M program u Voluntary program to identify and fix leaks that are cost effective to repair u Survey cost will pay out in the first year u Provides valuable data on leakers with information of where to look
11
Slide 11 Reducing Emissions, Increasing Efficiency, Maximizing Profits What is DI&M ? Direct Inspection and Maintenance u Cost-effective practice by definition u Find and fix significant leaks u Choice of leak detection technologies u Strictly tailored to company’s needs DI&M is NOT the regulated volatile organic compound (VOC) leak detection and repair program (LDAR)
12
Slide 12 Reducing Emissions, Increasing Efficiency, Maximizing Profits How Do You Implement DI&M? SCREEN and MEASURE leaks ESTIMATE repair cost, fix to a payback criteria DEVELOP a plan for future DI&M RECORD savings/REPORT to Gas STAR CONDUCT baseline survey FIX on the spot leaks
13
Slide 13 Reducing Emissions, Increasing Efficiency, Maximizing Profits How Do You Implement DI&M? Screening - finding leaks Soap bubble screening Electronic screening (sniffer) Toxic Vapor Analyzer (TVA) Organic Vapor Analyzer (OVA) Ultrasound Leak Detection Acoustic Leak Detection Optical Leak Imaging Acoustic Leak Detection Acoustic Leak Detection Toxic Vapor Analyzer Toxic Vapor Analyzer
14
Slide 14 Reducing Emissions, Increasing Efficiency, Maximizing Profits How Do You Implement DI&M? Evaluate the leaks detected - measure results Leak Measurement Using a High Volume Sampler High Volume Sampler Toxic Vapor Analyzer (correlation factors) (correlation factors) Rotameters
15
Slide 15 Reducing Emissions, Increasing Efficiency, Maximizing Profits DI&M by Leak Imaging Real-time visual image of gas leaks u Quicker identification & repair of leaks u Screen hundreds of components an hour u Screen inaccessible areas simply by viewing them
16
Slide 16 Reducing Emissions, Increasing Efficiency, Maximizing Profits Is Recovery Profitable?
17
Slide 17 Reducing Emissions, Increasing Efficiency, Maximizing Profits DI&M - Lessons Learned A successful, cost-effective DI&M program requires measurement of the leaks A high volume sampler is an effective tool for quantifying leaks and identifying cost- effective repairs Open-ended lines, compressor seals, blowdown, engine-starter and pressure relief valves represent 60% of methane emissions The business of leak detection is about to change dramatically with new technology
18
Slide 18 Reducing Emissions, Increasing Efficiency, Maximizing Profits DI&M - Partner Experience Partner A: Leaking cylinder head was tightened, which reduced the methane emissions from almost 64,000 Mcf/yr to 3,300 Mcf/yr u Repair required 9 man-hours of labor u Gas savings were approximately 60,700 Mcf/yr u Value of gas saved was $182,100/year at $3/Mcf Partner B: One-inch pressure relief valve emitted almost 36,774 Mcf/yr u Required five man-hours of labor and $125 of materials u Value of the gas saved was $110,300 at $3/Mcf
Similar presentations
© 2024 SlidePlayer.com. Inc.
All rights reserved.