Wastewater Disposal Well May Have Caused Texas Earthquakes
http://online.wsj.com/article/SB125020088034530363.html
By BEN CASSELMAN
A series of minor earthquakes in North Texas may have been caused by a wastewater disposal well connected to natural-gas production in the area, Chesapeake Energy Corp. told state regulators Thursday.
Chesapeake said it had shut down two disposal wells "as a precautionary measure."
The Dallas-Fort Worth area has experienced more than a dozen small quakes since last October, though there have been no reports of significant damage or injury. The area lies at the heart of the Barnett Shale, a huge natural-gas field where thousands of wells have been drilled in recent years. Many locals suspect a connection, especially because gas production in the area involves injecting water into the ground at high pressure to crack open the gas-bearing rock, a process known as "hydraulic fracturing."
Researchers from Southern Methodist University in Dallas have deployed seismic sensors in the area to study the phenomenon. On Thursday, the researchers said preliminary results suggest the quakes do not appear to be connected to drilling or fracturing itself.
But they said their research does show a "possible correlation" between the quakes and a salt water disposal well operated by Chesapeake on the southern end of Dallas-Fort Worth International Airport. The airport sits atop a fault line.
Along with hydrocarbons, oil and gas wells almost always produce salt water, which is often disposed of in depleted oil fields or other underground formations. Studies have linked disposal wells to seismic activity in the past.
In an email to the Texas Railroad Commission, which regulates the state oil and gas industry, Chesapeake said it had shut down the airport disposal facility and another well in the town of Cleburne, which has also experienced quakes.
Company spokeswoman Julie Wilson called the move "a precautionary, proactive step."
"The events in that area have been very minor and most have not even been felt or were barely felt," Ms. Wilson said.
Write to Ben Casselman at ben.casselman@wsj.com
By BEN CASSELMAN
A series of minor earthquakes in North Texas may have been caused by a wastewater disposal well connected to natural-gas production in the area, Chesapeake Energy Corp. told state regulators Thursday.
Chesapeake said it had shut down two disposal wells "as a precautionary measure."
The Dallas-Fort Worth area has experienced more than a dozen small quakes since last October, though there have been no reports of significant damage or injury. The area lies at the heart of the Barnett Shale, a huge natural-gas field where thousands of wells have been drilled in recent years. Many locals suspect a connection, especially because gas production in the area involves injecting water into the ground at high pressure to crack open the gas-bearing rock, a process known as "hydraulic fracturing."
Researchers from Southern Methodist University in Dallas have deployed seismic sensors in the area to study the phenomenon. On Thursday, the researchers said preliminary results suggest the quakes do not appear to be connected to drilling or fracturing itself.
But they said their research does show a "possible correlation" between the quakes and a salt water disposal well operated by Chesapeake on the southern end of Dallas-Fort Worth International Airport. The airport sits atop a fault line.
Along with hydrocarbons, oil and gas wells almost always produce salt water, which is often disposed of in depleted oil fields or other underground formations. Studies have linked disposal wells to seismic activity in the past.
In an email to the Texas Railroad Commission, which regulates the state oil and gas industry, Chesapeake said it had shut down the airport disposal facility and another well in the town of Cleburne, which has also experienced quakes.
Company spokeswoman Julie Wilson called the move "a precautionary, proactive step."
"The events in that area have been very minor and most have not even been felt or were barely felt," Ms. Wilson said.
Write to Ben Casselman at ben.casselman@wsj.com
Views: 27
Replies to This Discussion
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Permalink Reply by Dion Warr, CPL on -
E & E:
This explanation seems plausible. As I understand it, SWD injection into a fault changes the pressure and friction characteristics along the fault line (ie., injection volume and pressure can hold fault blocks slightly further apart, and fluid flow allows for more slip along the fault line(s).)
I'd be interested as to what Les B thinks about this story.
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Permalink Reply by Mac Davis on
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Wouldn't saltwater disposal wells involve a larger volume of water spread over a larger area of land than fracking? Would you try to dispose of salt water into a low permeability formation like the Haynesville Shale?
It seems that fracking would be a small, intense stimulus, and saltwater disposal would be less intense, but spread over a much larger area.
My other thought is that small quakes may be a good thing. Release the stress slowly instead of all at once. 1000 magnitude 3 earthquakes will probably do a lot less damage than one magnitude 5, but it's the same amount of energy. It seems that the energy involved in even a tiny quake would come from the geological stresses already in the rock being prematurely released by the water, rather than from the energy used to pump the water underground. Releasing this stress a bit at a time may be beneficial.
Does anyone know how much pressure and volume of water is used in salt water disposal well vs. fracking a well?
More info:
http://www.bloomberg.com/apps/news?pid=20601103&sid=a1CqcpRp2jW8
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Permalink Reply by Dion Warr, CPL on
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Mac:
Therein lies the problem. Injecting into the SWD also fills depleted and/or porous formations with added mass, and if wedged against more impervious barriers, the mass shift and lessened friction tends to cause quick slips rather than slow plodding movements.
I'll notate below, but the Star-Telegram actually corrected the SWD total to 2.8 million barrels of injected material, instead of billion (which would be some kind of record or something). Still, loading a billion pounds of material into one side of a fault block over less than one years time, one would expect some sort of 'adjustment'.
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Permalink Reply by The_Baron on
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It should be noted that in fracking the water is injected rapidly over short time. In a SWD, disposal takes place at a rather consitant rate over long periods of time. While I do not have the appropriate geologic background to comment on Dions statements about fault loading, they seem plausible to me.
Also, while I can not speak for the Barnett, the SWDs I have been involved with typically inject into very porous sands. The injection pressures are typically very low.
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Permalink Reply by jffree1 on
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Here's an excerpt from the Star-Telegram story about the two disposal wells:
http://www.star-telegram.com/state_news/story/1537502.html
The airport well was drilled to 13,780 feet, twice the depth of some gas wells, and completed in August, Frohlich said. It also was drilled about 2,400 feet from a major fault running through the airport, said Julie Wilson, a spokeswoman for Oklahoma City-based Chesapeake.
Cautionary Move
"Preliminary results have indicated there is no correlation between natural-gas drilling and fracturing activities and the minor earthquakes that have occurred over the last several months in North Texas," Wilson said.
Chesapeake stopped using the airport saltwater disposal well and another at Cleburne, where numerous tremors have been reported, as a precaution, she said. The action did not affect gas production.
Chesapeake pumped 2.8 billion barrels of water into the airport well from Sept. 12, 2008, until it was shut after the company met with geologists June 29, Steven Turk, vice president of the company’s southern operations, said in an interview.
"We really had no reason to believe we would ever have a problem such as it appears we've ended up with, where injecting into the Ellenberger near one of these big faults would in any way trigger these small earthquakes," said Larry Lunardi, Chesapeake vice president for geoscience. The Ellenberger is a porous layer of rock 2 miles deep.
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Permalink Reply by Dion Warr, CPL on
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Jffree1:
Noted above, but the Star-Telegram corrected the injection total to 2.8 million barrels of injected material, instead of billion.
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Thanks, Dion. I had not seen the update but will look for it now.
It occurs to me that maybe the operators would prefer to have attention directed toward a couple of disposal wells rather than "fracking" as the culprit behind the seismic activity in North Texas... and it does appear to be a reasonable explanation. But then IANAG.
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