Study of methane migration in the shallow subsurface from a gas pipe leak

Abstract: With the increased use of natural gas, safety and environmental concerns from underground leaking natural gas pipelines are becoming more widespread. What is not well understood in leakage incidents is how the soil conditions affect gas migration behavior, making it difficult to estimate the gas distribution. To shed light on these concerns, an increased understanding of subsurface methane migration after gas release is required to support efficient leak response and effective use of available technologies. In… Show more

“…This behavior suggests that for the soils tested, the contribution of advection and diffusion results in varying gas behavior. As demonstrated in Gao et al (2021), advective gas transport due to a pressure gradient caused by the gas release dominates the CH 4 transport close to a leak source, driving the migration of high concentration contours. However, in the far field (distances greater than 1.5 m), diffusion caused by the molecular concentration gradients dominates the migration.…”

“…The advection close to the source results in the gas escaping in the high permeability soils (Figure 2A; Gao et al, 2021). In the low permeability soils, diffusion was suspected to be the driving transport mechanism at distances greater than 5 m (Figure 2B).…”

“…Although slow, CH 4 slowly migrated farther away from the leak point, causing spreading of CH 4 gradually in soil over time. Diffusive behavior is also seen in high permeability soils but to a lesser extent due to the competition, per say, with the vertical transport of the gas to the soil surface and escape into the atmosphere (Gao et al, 2021). As the gas leak continues in-between LDAR, the area of influence can slowly become larger over time and reach steady state, influencing the leak classification.…”

“…However, when the moisture content is less than 0.15 g/g, the average concentration was much higher (225,861 ppmv). This behavior can be explained by two aspects as pointed out by Gao et al (2021). Water saturation has reverse effect on the contribution of advection and diffusion to CH 4 distribution.…”

“…NG pipeline systems encompass a wide range of both low-and high-pressure conditions, whereas low pressure conditions (1.5-2,000 kPa) prevail in distribution systems. CH 4 flow is typically dominated by advective flow near the leak point due to pipeline pressure and transitions to diffusion-dominated flow due to concentration differences at further distances away from the leak point (Forde et al, 2018;Gao et al, 2021). Furthermore, preferential flow paths from permeability variations in soil may cause increased gas migration distances, causing gas to emerge at surface locations considerable distances away from the leak location (Hendriks et al, 2010;.…”

A closer look at underground natural gas pipeline leaks across the United States

“…This behavior suggests that for the soils tested, the contribution of advection and diffusion results in varying gas behavior. As demonstrated in Gao et al (2021), advective gas transport due to a pressure gradient caused by the gas release dominates the CH 4 transport close to a leak source, driving the migration of high concentration contours. However, in the far field (distances greater than 1.5 m), diffusion caused by the molecular concentration gradients dominates the migration.…”

“…The advection close to the source results in the gas escaping in the high permeability soils (Figure 2A; Gao et al, 2021). In the low permeability soils, diffusion was suspected to be the driving transport mechanism at distances greater than 5 m (Figure 2B).…”

“…Although slow, CH 4 slowly migrated farther away from the leak point, causing spreading of CH 4 gradually in soil over time. Diffusive behavior is also seen in high permeability soils but to a lesser extent due to the competition, per say, with the vertical transport of the gas to the soil surface and escape into the atmosphere (Gao et al, 2021). As the gas leak continues in-between LDAR, the area of influence can slowly become larger over time and reach steady state, influencing the leak classification.…”

“…However, when the moisture content is less than 0.15 g/g, the average concentration was much higher (225,861 ppmv). This behavior can be explained by two aspects as pointed out by Gao et al (2021). Water saturation has reverse effect on the contribution of advection and diffusion to CH 4 distribution.…”

“…NG pipeline systems encompass a wide range of both low-and high-pressure conditions, whereas low pressure conditions (1.5-2,000 kPa) prevail in distribution systems. CH 4 flow is typically dominated by advective flow near the leak point due to pipeline pressure and transitions to diffusion-dominated flow due to concentration differences at further distances away from the leak point (Forde et al, 2018;Gao et al, 2021). Furthermore, preferential flow paths from permeability variations in soil may cause increased gas migration distances, causing gas to emerge at surface locations considerable distances away from the leak location (Hendriks et al, 2010;.…”

A closer look at underground natural gas pipeline leaks across the United States

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