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Environ Pollut. 2016 Jun;213:710-716. doi: 10.1016/j.envpol.2016.01.094. Epub 2016 Mar 26.

Fugitive methane emissions from leak-prone natural gas distribution infrastructure in urban environments.

Author information

1
Boston University, Department of Earth and Environment, 685 Commonwealth Avenue, Boston, MA, 02215, USA. Electronic address: hendricm@bu.edu.
2
Gas Safety, Inc., Southborough, MA, 01172, USA. Electronic address: bobackley@gassafetyusa.com.
3
Boston University, Department of Earth and Environment, 685 Commonwealth Avenue, Boston, MA, 02215, USA. Electronic address: baharsm@bu.edu.
4
Boston University, Department of Earth and Environment, 685 Commonwealth Avenue, Boston, MA, 02215, USA. Electronic address: xjtang@bu.edu.
5
Boston University, Department of Earth and Environment, 685 Commonwealth Avenue, Boston, MA, 02215, USA. Electronic address: nathan@bu.edu.

Abstract

Fugitive emissions from natural gas systems are the largest anthropogenic source of the greenhouse gas methane (CH4) in the U.S. and contribute to the risk of explosions in urban environments. Here, we report on a survey of CH4 emissions from 100 natural gas leaks in cast iron distribution mains in Metro Boston, MA. Direct measures of CH4 flux from individual leaks ranged from 4.0 - 2.3 × 10(4) g CH4•day(-1). The distribution of leak size is positively skewed, with 7% of leaks contributing 50% of total CH4 emissions measured. We identify parallels in the skewed distribution of leak size found in downstream systems with midstream and upstream stages of the gas process chain. Fixing 'superemitter' leaks will disproportionately stem greenhouse gas emissions. Fifteen percent of leaks surveyed qualified as potentially explosive (Grade 1), and we found no difference in CH4 flux between Grade 1 leaks and all remaining leaks surveyed (p = 0.24). All leaks must be addressed, as even small leaks cannot be disregarded as 'safely leaking.' Key methodological impediments to quantifying and addressing the impacts of leaking natural gas distribution infrastructure involve inconsistencies in the manner in which gas leaks are defined, detected, and classified. To address this need, we propose a two-part leak classification system that reflects both the safety and climatic impacts of natural gas leaks.

KEYWORDS:

Distribution pipelines; Greenhouse gas; Methane; Natural gas

PMID:
27023280
DOI:
10.1016/j.envpol.2016.01.094
[Indexed for MEDLINE]

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