Super-emitters in natural gas infrastructure are caused by abnormal process conditions

Citations Over TimeTop 10% of 2017 papers

Abstract

Effectively mitigating methane emissions from the natural gas supply chain requires addressing the disproportionate influence of high-emitting sources. Here we use a Monte Carlo simulation to aggregate methane emissions from all components on natural gas production sites in the Barnett Shale production region (Texas). Our total emission estimates are two-thirds of those derived from independent site-based measurements. Although some high-emitting operations occur by design (condensate flashing and liquid unloadings), they occur more than an order of magnitude less frequently than required to explain the reported frequency at which high site-based emissions are observed. We conclude that the occurrence of abnormal process conditions (for example, malfunctions upstream of the point of emissions; equipment issues) cause additional emissions that explain the gap between component-based and site-based emissions. Such abnormal conditions can cause a substantial proportion of a site's gas production to be emitted to the atmosphere and are the defining attribute of super-emitting sites.

Related Papers

• → Taking the Lead on Lead: Tejon Ranch’s Experience Switching to Non-Lead Ammunition(2009)3 cited
• → Non-orebody sources are significant contributors to blood lead of some children with low to moderate lead exposure in a major lead mining community [Sci. Tot. Environ. 181 (1996) 223–230](1996)1 cited
• → Estimating the Contribution of Lead-Based Paint to Soil Lead, Dust Lead, and Childhood Blood Lead(1995)6 cited
• → 430. Lip Lead as an Alternative Measure to Explore the Lead Exposure of Assembling Workers of a Lead Battery Plant(1999)
• Hit-to-Lead. Enhancing lead generation to accelerate quality compounds into lead optimization. 18-19 July 2005, London, UK.(2005)