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Atmos Environ X


Title:Evaluating Natural Gas Emissions from Pneumatic Controllers from Upstream Oil and Gas Facilities in West Virginia
Author(s):Footer TL; Thoma ED; Clark N; Johnson D; Nash J; Herndon SC;
Address:"Eastern Research Group, Inc., 601 Keystone Park Drive, Suite 700, Morrisville, NC 27560, United States. Center for Environmental Measurement and Modeling, Office of Research and Development, U.S. Environmental Protection Agency, Research Triangle Park, NC 27711, United States. West Virginia University, Mechanical & Aerospace Engineering, PO Box 6106, Morgantown, WV 26506, United States. Aerodyne, 45 Manning Road, Billerica, MA 01821, United States"
Journal Title:Atmos Environ X
Year:2023
Volume:17
Issue:
Page Number:1 - 10
DOI: 10.1016/j.aeaoa.2022.100199
ISSN/ISBN:2590-1621 (Electronic) 2590-1621 (Linking)
Abstract:"In April of 2018, an optical gas imaging (OGI) and full flow sampler (FFS) emissions measurement study of pneumatic controllers (PCs) was conducted at 15 oil and natural gas production sites in West Virginia. The objective of the study was to identify and characterize PC systems with excessive emissions caused by maintenance issues or nonoptimized process conditions. A total of 391 PC systems were found on the sites and all were classified by the operator as snap-acting (on/off) intermittent venting PCs (IPCs) that should exhibit little gas release while the PC is closed between actuation events. The population was comprised of two groups, 259 infrequently actuating, lower emitting (LE) IPCs and 132 gas processing unit (GPU) liquid level IPCs and associated dump valve actuators that vent more frequently and have larger emission volumes. Using a PC-specific OGI inspection protocol with an assumed whole gas OGI detection threshold of 2.0 scfh, only 2 out of 259 LE-IPCs exhibited OGI detectable emissions indicating good inspection and maintenance practices for this category. Due to combined (ganged) GPU exhaust vents, the OGI inspection of the GPU liquid level IPCs was comparatively less informative and determination of single component IPC emissions by the FFS was more difficult. The time resolved FFS measurements of GPU IPCs defined three categories of operation: one that indicated proper function and two associated with higher emissions that may result from an IPC maintenance or process issues. The overall GPU IPC emission distribution was heavy tailed, with a median value of 12.8 scfh, similar to the 13.5 scfh whole gas IPC emission factor (EF). Total emissions were dominated by non-optimal temporal profile high-emitter IPC cases with the top 20% of IPC systems accounting for between 51.3% and 70.7% of GPU liquid level IPC emissions by volume. The uncertainty in the estimate was due to the ganged nature of the GPU exhaust vents. The highest GPU IPC emission came from a single malfunctioning unit with a measured whole gas value of 157 scfh. Up to six IPCs exceeded 100 scfh. An analysis of FFS emission measurements compared to liquids production per IPC unit employed indicated that production sites operating at a high level of liquids production test the limits of the site engineering, likely resulting in higher IPC emissions. Overall, this study found that the LE-IPCs with OGI-verified low closed bleed rates may emit well below the IPC EF while GPU liquid level IPC systems are likely well represented by the current IPC EF. IPCs that are experiencing a maintenance or process issue or that are operating at sites with a very high product throughput per IPC employed can emit at rates exceeding ten times IPC EF"
Keywords:Greenhouse Gases Methane Emissions Oil and Natural Gas Production Pneumatic Controller Emissions Volatile Organic Compounds;
Notes:"PubMed-not-MEDLINEFooter, Tracey L Thoma, Eben D Clark, Nigel Johnson, Derek Nash, Jennifer Herndon, Scott C eng EPA999999/ImEPA/Intramural EPA/ England 2023/01/17 Atmos Environ X. 2023 Jan 1; 17:1-10. doi: 10.1016/j.aeaoa.2022.100199"

 
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