Adam R. Coderre scite author profile

A significant obstacle in evaluating mitigation strategies for flaring and venting in the upstream oil and gas industry is the lack of publicly available data on the chemical composition of the gas. This information is required to determine the economic value of the gas, infrastructure and processing requirements, and potential emissions or emissions credits, all of which have significant impact on the economics of such strategies. This paper describes a method for estimating the composition of solution gas being flared and vented at individual facilities, and presents results derived for Alberta, Canada, which sits at the heart of the Western Canadian Sedimentary Basin. Using large amounts of raw data obtained through the Alberta Energy Resources Conservation Board, a relational database was created and specialized queries were developed to link production stream data, raw gas samples, and geography to create production-linked gas composition profiles for approximately half of the currently active facilities. These were used to create composition maps for the entire region, to which the remaining facilities with unknown compositions were geographically linked. The derived data were used to compute a range of solution gas composition profiles and greenhouse gas emission factors, providing new insight into flaring and venting in the region and enabling informed analysis of future management and mitigation strategies.

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Opportunities for CO2 equivalent emissions reductions via flare and vent mitigation: A case study for Alberta, Canada

Johnson

Coderre

2012

International Journal of Greenhouse Gas Control

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a b s t r a c tGlobal flaring and venting of gas associated with petroleum production is a significant source of greenhouse gas emissions and airborne pollutants that has proven difficult to mitigate. This work examines the technical and economic potential for flaring and venting mitigation in a mature oil and gas producing region of the world. Using detailed monthly production data spanning the years 2002-2008 for 18,203 active production facilities, combined with geographic information system pipeline data, reservoir gas composition data, and cost data derived from industry sources, a case study was constructed to explore the technical and economic viability of further mitigation of flaring and venting associated with upstream oil and gas production in Alberta, Canada. Calculations were performed to evaluate the feasibility of mitigation via collection and compression of gas into pipelines to connect into existing pipeline networks. Four main calculation scenarios were considered, and for each, a series of Monte-Carlo analyses were performed to evaluate uncertainties and sensitivities to key calculation parameters. In all scenarios, the results reveal potentially significant opportunities for economically viable flare and vent mitigation that would yield substantial reductions in CO 2 equivalent emissions. Because of the highly skewed distribution of gas volumes flared and vented at individual facilities, the results also show that solutions for comparatively small numbers of the largest facilities can offer large reductions in overall emissions from the sector. These results suggest that in a concerted effort to minimize carbon emissions in the upstream oil and gas industry, there is potential for significant near-term reductions using existing technology while research and development continues on more advanced methods such as carbon capture and storage.

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Adam R. Coderre

Spectrally resolved light absorption properties of cooled soot from a methane flame

An Analysis of Flaring and Venting Activity in the Alberta Upstream Oil and Gas Industry

Compositions and greenhouse gas emission factors of flared and vented gas in the Western Canadian Sedimentary Basin

Opportunities for CO2 equivalent emissions reductions via flare and vent mitigation: A case study for Alberta, Canada

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