论文信息 - Hydrocarbon emissions characterization in the Colorado Front Range: A pilot study - 字舞流文

Hydrocarbon emissions characterization in the Colorado Front Range: A pilot study

[1] The multispecies analysis of daily air samples collected at the NOAA Boulder Atmospheric Observatory (BAO) in Weld County in northeastern Colorado since 2007 shows highly correlated alkane enhancements caused by a regionally distributed mix of sources in the Denver-Julesburg Basin. To further characterize the emissions of methane and non-methane hydrocarbons (propane, n-butane, i-pentane, n-pentane and benzene) around BAO, a pilot study involving automobile-based surveys was carried out during the summer of 2008. A mix of venting emissions (leaks) of raw natural gas and flashing emissions from condensate storage tanks can explain the alkane ratios we observe in air masses impacted by oil and gas operations in northeastern Colorado. Using the WRAP Phase III inventory of total volatile organic compound (VOC) emissions from oil and gas exploration, production and processing, together with flashing and venting emission speciation profiles provided by State agencies or the oil and gas industry, we derive a range of bottom-up speciated emissions for Weld County in 2008. We use the observed ambient molar ratios and flashing and venting emissions data to calculate top-down scenarios for the amount of natural gas leaked to the atmosphere and the associated methane and non-methane emissions. Our analysis suggests that the emissions of the species we measured are most likely underestimated in current inventories and that the uncertainties attached to these estimates can be as high as a factor of two.

Gabrielle Pétron | Colm Sweeney | Gregory J. Frost | Pieter P. Tans | William Kolodzey | Anna Karion | Edward J. Dlugokencky | P. M. Lang | Thomas J. Conway | Arlyn E. Andrews | Paul C. Novelli | A. Karion | C. Sweeney | E. Dlugokencky | S. Montzka | John B. Miller | P. Novelli | A. Bar-ilan | G. Pétron | P. Tans | T. Ryerson | A. Andrews | J. Kofler | P. Lang | K. Masarie | W. Neff | B. Hall | B. Miller | D. Wolfe | T. Conway | G. Frost | M. Trainer | A. Hirsch | D. Kitzis | D. Guenther | C. Siso | Stephen A. Montzka | Daniel E. Wolfe | Patricia M. Lang | L. Miller | D. Wolfe | Michael Trainer | William Kolodzey | D. C. Welsh | J. Kofler | William Neff | Adam Hirsch | C. T. Moore | Bradley D. Hall | Benjamin R. Miller | D. Guenther | Thomas B. Ryerson | L. Miller | L. Patrick | Amnon Bar‐Ilan | Laura Patrick | Charles T. Moore | C. Siso | Kenneth Masarie | Duane Kitzis | A. Bar-Ilan | John B. Miller | D. Welsh | Lloyd Miller

[1] E. Atlas,et al. Signatures of terminal alkene oxidation in airborne formaldehyde measurements during TexAQS 2000 , 2003 .

[2] B. Finlayson‐Pitts,et al. Chemistry of the Upper and Lower Atmosphere , 2000 .

[3] S. Montzka,et al. Global tropospheric distribution and calibration scale of HCFC‐22 , 1993 .

[4] Isobel J. Simpson,et al. Extensive regional atmospheric hydrocarbon pollution in the southwestern United States , 2003, Proceedings of the National Academy of Sciences of the United States of America.

[5] F. Fehsenfeld,et al. Measurements of hydrocarbons, oxygenated hydrocarbons, carbon monoxide, and nitrogen oxides in an urban basin in Colorado: Implications for emission inventories , 1995 .

[6] J. D. de Gouw,et al. Airborne measurements of ethene from industrial sources using laser photo-acoustic spectroscopy. , 2009, Environmental science & technology.

[7] Edward J. Dlugokencky,et al. The growth rate and distribution of atmospheric methane , 1994 .

[8] J. A. de Gouw,et al. Determination of urban volatile organic compound emission ratios and comparison with an emissions database , 2007 .

[9] E. Atlas,et al. Effect of petrochemical industrial emissions of reactive alkenes and NOx on tropospheric ozone formation in Houston, Texas , 2003 .

[10] A. Fltzgerald. United States Cities , 1932 .

[11] Martijn Gough. Climate change , 2009, Canadian Medical Association Journal.

[12] W. H. Thrasher,et al. Variability of natural gas composition in select major metropolitan areas of the United States. Interim report, August 1990-March 1991 , 1991 .

[13] Natural Gas Processing : The Crucial Link between Natural Gas Production and Its Transportation to Market , 2006 .

[14] Norman Sartorius,et al. Calgary, Alberta, Canada , 2005 .

[15] C. J. Hahn,et al. Measurements of aromatic hydrocarbon ratios and NOx concentrations in the rural troposphere: Observation of air mass photochemical aging and NOx removal , 1984 .

[16] M. Rodgers,et al. Internal consistency tests for evaluation of measurements of anthropogenic hydrocarbons in the troposphere , 1998 .

[17] V. W. J. H. Kirchhoff,et al. An internally consistent set of globally distributed atmospheric carbon monoxide mixing ratios developed using results from an intercomparison of measurements , 1998 .

[18] Andreas Volz-Thomas,et al. An improved fast-response vacuum-UV resonance fluorescence CO instrument , 1999 .

[19] E. Dlugokencky,et al. Reply to comment on “Hydrocarbon emissions characterization in the Colorado Front Range—A pilot study” by Michael A. Levi , 2013 .

[20] Washington State,et al. Colorado Greenhouse Gas Inventory and Reference Case Projections 1990-2020 Center for Climate Strategies Spring 2007 , 2007 .

[21] K. Davis,et al. Regional‐scale measurements of CH4 exchange from a tall tower over a mixed temperate/boreal lowland and wetland forest , 2003 .

[22] O. Edenhofer,et al. Mitigation from a cross-sectoral perspective , 2007 .

[23] R. Klusman,et al. Natural microseepage of methane to the atmosphere from the Denver‐Julesburg basin, Colorado , 1998 .

[24] J. Kaimal,et al. The Boulder Atmospheric Observatory , 1983 .

[25] J. Speight. The Chemistry and Technology of Petroleum , 1980 .

[26] Evaluation of Impacts to Underground Sources of Drinking Water by Hydraulic Fracturing of Coalbed Methane Reservoirs: Chapter 4: Hydraulic Fracturing Fluids , 2008 .

[27] A. Seth,et al. Global climate change: An introduction and results from the Intergovernmental Panel on Climate Change (IPCC) Fourth Assessment Report (AR4) , 2007 .

[28] Allen B. White,et al. Rapid photochemical production of ozone at high concentrations in a rural site during winter , 2009 .

[29] Michael P. Hannigan,et al. Respeciation of organic gas emissions and the detection of excess unburned gasoline in the atmosphere , 1992 .

[30] J. Mellqvist,et al. Measurements of industrial emissions of alkenes in Texas using the solar occultation flux method , 2010 .

[31] D. Blake,et al. Characterization of trace gases measured over Alberta oil sands mining operations: 76 speciated C 2 –C 10 volatile organic compounds (VOCs), CO 2 , CH 4 , CO, NO, NO 2 , NO y , O 3 and SO 2 , 2010 .

[32] Michael B. McElroy,et al. Three-dimensional climatological distribution of tropospheric OH: Update and evaluation , 2000 .

[33] C. I N D Y W E R N E R *, K E N N E T H D Av I S W, P,et al. Regional-scale measurements of CH 4 exchange from a tall tower over a mixed temperate / boreal lowland and wetland forest , 2003 .

[34] R. Harley,et al. Effects of reformulated gasoline and motor vehicle fleet turnover on emissions and ambient concentrations of benzene. , 2006, Environmental science & technology.

[35] Michael A. Levi. Comment on “Hydrocarbon emissions characterization in the Colorado Front Range: A pilot study” by Gabrielle Pétron et al. , 2012 .

[36] Ellen J. Crivella. Environmental Protection Agency (EPA) , 1986, The Bulletin of the Ecological Society of America.

[37] T J Wallington,et al. Methane emissions from vehicles. , 2004, Environmental science & technology.

[38] R. Harley,et al. Temporal changes in U.S. benzene emissions inferred from atmospheric measurements. , 2005, Environmental science & technology.

[39] Isobel J. Simpson,et al. Measurements of nonmethane hydrocarbons in 28 United States cities , 2008 .