If British Columbia wants to pursue economic, environmental and human health then the province must slow its furious pace of unconventional gas production, says a new report released by the Canadian Centre for Policy Alternatives (CCPA) and the Wilderness Committee. The CAPP report, part of their partner Climate Justice Project with the University of British Columbia, concludes that BC’s natural gas sector is putting the industry’s needs before those of British Columbians, and doing so with the government’s help.
Ben Parfitt of the CCPA authored the report and
has written extensively on the energy/water nexus surrounding BC’s shale gas boom. According to Parfitt, “BC’s shale gas production is the natural gas equivalent of Alberta’s oilsands oil.” The comparison is due to the tremendous water required to frack deep shale deposits, an extraction process that also releases dangerous amounts of methane, one of the most powerful global warming gasses.
Given the favorable conditions, says Parfitt, gas production in BC could amount to 22% of North American annual production by 2020.
This steady increase in production will drastically impede BC’s ability to reach its legislated climate targets. If BC production climbs to these accelerated rates the province’s GHG emissions from fracking will double, reaching an astounding 22 million tonnes by 2020. The tremendous atmospheric pollution caused by fracking means that, if BC plans on meeting is climate targets, “every other sector of the provincial economy will have to cut their emissions in half,” according to
CCPA’s press release.
But there’s more to fracking the province’s northeast than water and GHG emissions. If the shale gas industry “expands as projected, shale gas companies will need two to three times the amount of power that
the proposed Site C dam would provide. In other words, large amounts of publicly owned clean water and hydro power will have to be found to produce more and more dirty fossil fuel,” says Parfitt in the
press release.
“I don’t think British Columbians are comfortable with that.”
In order to secure BC from the threats to economic, environmental and human health that the rush to extract fracked gas poses,
Parfitt recommends a cap on annual shale gas production, an end to all government subsidies of the natural gas industry, that the BC government explain its climate strategy, and that the industry pay full prices for the water and electricity necessary to support their projects.
According to Tria Donaldson, the Pacific Coast Campaigner for the
Wilderness Committee, “it’s time to curb this industry before it’s too late for our climate, our water and our hydroelectric resources.” There also need to be limits put on the industry as well. “We want firm no-go zones established where industry activities are restricted and we want a moratorium on fracking in undeveloped watersheds, pending full surface water and groundwater studies.”
Parfitt seems to agree: “We need to manage this industry for wind-down, not wind-up, and ensure that while the industry is operating the public gets a fair return.”
To get a better picture, you can watch this CCPA video of what fracking means in BC's northeast:
Comments
Lots of Energy To Frack?
The Video says that it takes a lot of energy to Frack...
How much? I'm just curious.
I hadn't thought it would be so energy intense. Rigs themselves run on (large) diesel generators.
Energy for Fracking
AnOilMan - the most useful breakdown of fracking energy use and its associated emissions I've come across can be accessed here:
http://www.tyndall.ac.uk/sites/default/files/coop_shale_gas_report_final...
There are likely to be site specific variations in drilling practices depending on drilling lengths and depths - all of which determine the amounts of water and energy (including diesel) required to extract unconventional gas. What is easy to see in the above report is that fracked gas generates a significantly higher amount of emissions than conventional drilling, mostly because of the extended horizontal segment of the well and higher drilling pressures.
Hey AnOilMan. Glad to have an
Hey AnOilMan. Glad to have an expert about this stuff on board. With your knowledge maybe you can answer some questions about some statements in articles that I don’t understand.
For instance just yesterday I was on the phone with an old friend of mine. He was down on Odessa Texas on a location that they were doing a 20-stage frack. Only thing is that this was on a vertical well. Can you explain how a 20-stage frack on a vertical well is less invasive than a 20-stage frack on a horizontal well?
I have seen a number of times in articles that state drilling pressures have increased 10,000, 13,500 psi in horizontal wells. For one thing I don’t know exactly what they are talking about, “drilling pressure”. And why would this be more of an environmental hazard. How is drilling pressure controlled?
Also it has been stated that a horizontal well take several times longer to drill and uses a lot more energy. Why would this be?
I have asked these questions on several of these articles but never got an answer. Can you help explain?
I'm not sure what you're fishing for.
My experience is strictly with conventional wells.
Hence, I'm asking questions about how much energy fracking of this unconventional kind uses. This is purely interest, it didn't strike me that drilling was very energy intense. And it doesn't strike me that Fracking would use much energy either.
This renders the rest of your questions kind of silly.
Why are you asking me for a comparative analysis of Fracking and Horizontal wells? It seems like you can do that yourself. Why don't you post some useful statements? Others here will read them, and maybe agree with you.
(Perhaps you're confusing perfing a cased well with fracking. The terms were often interchanged when I was on rigs.)
Frack it all!
Make it look like Mordor.