Picarro CRDS detects "alarming" level of methane emissions from fossil fuel sites

Per an article in Environmental Science & Technology, atmospheric methane (CH₄) was measured using a mobile laboratory with cavity ring-down spectroscopy (CRDS) equipment from Picarro (Santa Clara, CA) to quantify fugitive methane (CH₄) emissions from Oil and Natural Gas (ONG) operations in the Barnett Shale area in Texas.

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Two Picarro CRDS instruments (G2201-i and G2132-i) were used to measure CO₂ and CH₄ with 1.0 to 1.5 s time resolution. The CH₄ signal from the fast-response Picarro instrument served as a good indicator of ONG plumes. The team drove slowly for plume scanning directly downwind of ONG facilities and in total, drove about 3,700 km while taking CH₄ measurements. The number of facilities sampled was 152, comprised of 125 well pads, 13 compressor stations, 2 gas processing plants, and 12 landfills. Emission rates from several ONG facilities and landfills were estimated using an Inverse Gaussian Dispersion Model and the Environmental Protection Agency (EPA) Model AERMOD.

Model results show that well pads emissions rates had a fat-tailed distribution, with the emissions linearly correlated with gas production. Using this correlation, the studies estimated a total well pad emission rate of 1.5 x 10⁵ kg/h in the Barnett Shale area. It was found that methane emissions from compressor stations and gas processing plants were substantially higher, with some "super emitters" having emission rates up to 3447 kg/h, more then 36,000-fold higher than reported by the Environmental Protection Agency (EPA) Greenhouse Gas Reporting Program (GHGRP).

The CRDS study concluded that landfills are also a significant source of CH₄ in the Barnett Shale area, and they should be accounted for in the regional budget of CH₄.

SOURCE: Environmental Science & Technology; http://pubs.acs.org/doi/full/10.1021/es5063055