posted on 2022-06-27, 20:46authored byDrew R. Michanowicz, Archana Dayalu, Curtis L. Nordgaard, Jonathan J. Buonocore, Molly W. Fairchild, Robert Ackley, Jessica E. Schiff, Abbie Liu, Nathan G. Phillips, Audrey Schulman, Zeyneb Magavi, John D. Spengler
The
presence of volatile
organic compounds (VOCs) in unprocessed
natural gas (NG) is well documented; however, the degree to which
VOCs are present in NG at the point of end use is largely uncharacterized.
We collected 234 whole NG samples across 69 unique residential locations
across the Greater Boston metropolitan area, Massachusetts. NG samples
were measured for methane (CH4), ethane (C2H6), and nonmethane VOC (NMVOC) content (including tentatively
identified compounds) using commercially available USEPA analytical
methods. Results revealed 296 unique NMVOC constituents in end use
NG, of which 21 (or approximately 7%) were designated as hazardous
air pollutants. Benzene (bootstrapped mean = 164 ppbv; SD = 16; 95%
CI: 134–196) was detected in 95% of samples along with hexane
(98% detection), toluene (94%), heptane (94%), and cyclohexane (89%),
contributing to a mean total concentration of NMVOCs in distribution-grade
NG of 6.0 ppmv (95% CI: 5.5–6.6). While total VOCs exhibited
significant spatial variability, over twice as much temporal variability
was observed, with a wintertime NG benzene concentration nearly eight-fold
greater than summertime. By using previous NG leakage data, we estimated
that 120–356 kg/yr of annual NG benzene emissions throughout
Greater Boston are not currently accounted for in emissions inventories,
along with an unaccounted-for indoor portion. NG-odorant content (tert-butyl mercaptan and isopropyl mercaptan) was used to
estimate that a mean NG-CH4 concentration of 21.3 ppmv
(95% CI: 16.7–25.9) could persist undetected in ambient air
given known odor detection thresholds. This implies that indoor NG
leakage may be an underappreciated source of both CH4 and
associated VOCs.