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Thursday, July 22, 2010

Abandoning the Capped Oil Well: What Could Possibly Go Wrong?

Thursday, July 22, 2010
FROM: http://georgewashington2.blogspot.com/2010/07/abandoning-capped-oil-well-what-could.html

BP will leave the cap on the oil well while it vacates the area for a number of days to avoid the coming tropical storm.
What could possibly go wrong?

One expert warns that increasing pressure might have an unintended danger:

Bill Gale, a California engineer and industrial explosion expert who is a member of the Deepwater Horizon Study Group, said… that gas hydrate crystals could be plugging any holes in the underground portion of the well, and they could get dislodged as pressure builds.
(Gale was formerly Chief Loss Prevention Engineer for Bechtel in San Francisco, obtained his undergraduate degree in Chemical Engineering, Masters in Civil Engineering and PhD in Fire Safety Engineering Science from the University of California, Berkeley. Gale is a registered professional engineer in both mechanical engineering and fire protection engineering, and has more than forty years of industrial loss prevention, process safety management, and fire protection/fire safety engineering experience.)

In other words, there may have been a destruction of a portion of the steel well casing which was temporarily plugged by methane hydrate crystals. Leaving the well cap may slowly raise the pressure in the well to the point where the hydrate crystals are dislodged, in which case the well might really start leaking.

Indeed, the relationship between methane hydrate, pressure and temperature is well-known:


Sound farfetched? Maybe.

But remember that the "top hat" containment dome failed because it got plugged up with methane hydrate crystals.

And remember that there's a lot of methane down there. Indeed, while most crude oil contains 5% methane, the crude oil gushing out of the blown out well is 40% methane.

Although even less likely, scientists say that the methane could disturb the seafloor itself. As the St. Peterburg Times points out:

Disturbing those [methane hydrate] deposits — say, by drilling an oil well through them — can turn that solid methane into a liquid, leaving the ocean floor unstable, explained [Carol Lutken of the University of Mississippi, which is part of a consortium with SRI which has been conducting methane research in the Gulf of Mexico for years].
***

Generally the oil industry tries to avoid methane areas during drilling for safety reasons. But the U.S. Energy Department wants to find a way to harvest fuel from those methane deposits, Lutken said. [I've previously discussed that issue in detail.]

So what's the bottom line?
I am not predicting that anything bad will happen. Hopefully, when the storm is over and the underwater ROV submersibles return to the spill site, everything will be peaceful and stable.

But there are many variables such as methane hydrates which - in a worst-case scenario - could complicate matters.


W said...
Suppose for a moment that the well is actually leaking.

The oil and gas is finding its way into pathways that it cut through the compromised well bore, and over time, it slowly hollows out a space as the fluid flows.

The flow into the other geological structures get larger and larger, and those, may (who knows) in turn, seep.

From this logic, seeps can happen miles (many) away that are really from pressure in this reservoir.

The longer the pressure is on, the more likely that if there are other pathways it will punch its way through it.

It can end up creating a much bigger problem.

July 22, 2010 4:17 PM

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