This is a sober reminder that the
Bakken is a classic resource boom and it will peak and slide into decline. It and other US
The fluids need to be pumped back
out and the flow itself surely takes a lot of time to fully establish. Yet it appears to be working however many
misgivings a knowledgeable outsider may have.
One drills only a few uneconomic wells before operators back off and
play wait and see. The present drilling
fury actually confirms the existence of positive economics at this time.
What makes it all work is that so
much rock is broken that a pooling horizon will be slowly established in the
fracture field and this will be saturated.
From that point on continuing accumulation then produces a hydraulic
head that feeds the well bore. Thus
actual optimal production may take quite some time to stabilize, but once done,
actual production may run for years as the overlying shale slowly deoils.
At this point, I am sure that
there is a study out there making these points.
The Bakken Oil Boom Will End Like Every Other 'Gold Rush'
[This post by Derik
Andreoli, Senior Analyst at Mercator International LLC, is republished with
permission from The Oil Drum.]
The shale oil production of the Bakken formation, which straddles the
Montana-North Dakota border and stretches into Canada
The Bakken boom has inspired a number of prominent
commentators to resurrect the energy independence meme. Daniel Yergin was first
at bat, asserting in an essay published
by The Wall Street Journal that rising prices and emerging
technologies (especially hydraulic fracturing) will significantly drive up
world liquid fuels production
over the coming decade(s). Ultimately, Mr. Yergin argues that tight supplies
lead to high fuel prices, and high fuel prices will bring previously
inaccessible oil to the market. The trouble with this line of thinking is that
high prices aren’t merely a symptom of the supply problem; high
prices are the problem.
After Mr. Yergin stole first base through this apparently convincing
display of contortionist logic, the next up to bat was Ed Crooks who recently
penned an analysis piece for
the Financial Times. In this piece, Mr. Crooks declares
that “the growth in U.S. and
Canadian production from new sources, coupled with curbs on demand as a result
of more efficient use of fuel, is creating a realistic possibility that North America will be able to declare oil independence.”
Mr. Crooks thus ‘balances’ rising production from shale oil and
Canadian tar sands against declining consumption, which he mistakenly chalks up
to efficiency gains rather than the deleterious effects of the greatest
recession since the Great Depression. Beyond this obvious blunder, Mr. Crooks
manages an even greater and far more common gaffe by neglecting to integrate
decline rates of mature fields into his analysis.
But in a game where the media is the referee and the public doesn’t
know the rules, Mr. Crooks manages to get on base by knocking a foul ball into
the bleachers. With Yergin on second and Crooks on first, Edward Luce steps up
to plate and takes a swat at the energy independence meme, directing the
‘greens’ to look away as “America is
entering a new age of plenty”. And while the greens looked away, Mr.
Luce took a cheap shot at clean energy through an attack on the federal government’s
support for the now bankrupt solar panel manufacturer, Solyndra.
Luce thus willingly employs the logical fallacy of hasty generalization to sway
his audience. Of course the Solyndra bankruptcy is no more generalizable to the
solar energy industry than BP’s Macondo oil spill is to all offshore oil
production, but in a game of marketing one-upmanship one should not expect a
balanced and rigorous evaluation of the possibilities.
With the bases loaded and oil prices remaining stubbornly high as
tensions in the Middle East and North Africa
persist, the crowd is getting anxious. And the crowd should be anxious. After
all, tight supplies and rising oil prices strain personal finances and threaten
to send our fragile economy back into recession. It is, therefore, unsurprising
that the public is as eager to consume the myth of everlasting abundance, as
they are eager to consume these scarce resources.
While the Bakken boom offers a hopeful story in which
American ingenuity and nature’s endless bounty emancipate us from energy
oppression and dependence on evil and oppressive foreign dictators, musings of
energy independence are premature, misguided, and misleading. The problem with
the Bakken story as told by Crooks and others is that it lacks historical
context. Referring to recent developments as an energy revolution implies that
there are no lessons to be learned from history. But as Mark Twain put it,
“history doesn’t repeat itself, but it does rhyme.”
###1
Figure 1: Map of the U.S. Bakken-Lodgepole Total Petroleum System
(blue), five continuous assessment units (AU) (green), and one conventional
assessment unit (yellow) (Source: USGS)
###2
Figure 2: U.S. Oil
Production showing significant uptick in production and the contribution of Alaska ’s North Slope
(source: EIA)
Lessons from the California
In 1848, John Marshall discovered gold while constructing John Sutter’s
sawmill in Coloma , California Marshall ’s discovery spread, the California
Forty-niners rushed to The Golden State in search of riches,
and California’s population exploded from 8,000 in 1848 to 93,000 in 1850, a
quarter of a million in 1852, and 350,000 by 1860. With the majority of the
influx of humanity employed in prospecting, precious few engaged in support
activities. But with the rapid accumulation of mineral wealth, imports were
easily acquired. Timber, for instance, was sourced from the Pacific Northwest,
and the small town of Seattle
Despite the low productivity of the labor-intensive process of gold
panning, annual production grew from just over 1,400 ounces in 1848 to more
than 3.9 million ounces by 1852. To put this into perspective, prior to 1848,
cumulative U.S.
###3
Figure 3: Forty-niners panning for gold during the early years of the California
The rapid growth in output was driven not by the backbreaking
extraction of gold dust so much as by the discovery of colossal gold nuggets
like the twin 25-pounders found in Downieville (1850) and on the banks of the Mokelumne River
Of course nuggets are easier to find than flakes, and the great
majority were discovered in the first few years. By 1852, only four years after
gold was first discovered, California
###4
Figure 4: California
The decline was only barely checked by the adoption of ‘hydraulic
mining’ – a process by which massive amounts of water under intense pressure is
used to disintegrate entire hillsides. At the North
Bloomfield mine, for example, 60 million gallons of water per day
eroded more than 41 million cubic yards of debris between 1866 and 1884. (http://www.sierranevadavirtualmuseum.com/docs/galleries/history/mining/hydraulic.htm)
The runoff from ‘hydraulicking’, as it was called, was directed to
sluice boxes where dense gold dust was separated from the other detritus. The
displaced earth eventually came to rest in California Panama Canal , which, by the way, employed the same
process.
###5
Figure 5: Miners employing the process of hydraulic mining – a process
which is prohibited in many gold-rich areas (Source: no copyright, but for more
images go here – http://www.sierracollege.edu/ejournals/jsnhb/v2n1/monitors.html)
The redirection of such massive amounts of water generated conflict.
“Legal ledgers dating back to the early years of the California Gold Rush
record complaints that existing water rights were being impinged by the
diversion ditches for, and the resultant pollution from, mining operations,
especially hydraulic mines.”
These challenges were consistently defeated on the basis of the 1857
California Supreme Court decision that gold production provided a greater good
for the leading interest of the State and its citizens than would have been
achieved had water not been diverted.
This all changed in January 1884 when Judge Lorenzo Sawyer issued the
nation’s first environmental injunction after presiding over the case
of Woodruff v. North Bloomfield. Judge Sawyer was swayed by Woodruff’s
claim that not only was gold production from the North Bloomfield
mine not the leading interest of the State, but that the 1857
decision did not supersede laws that protected agriculture and property owners.
And with the scratch of a pen, hydraulic mining operations around Marysville
were ordered to halt the discharge of tailings into the Yuba River
During California
Lessons from the Klondike Gold Rush
A half-century later, a similar story unfolded in the Yukon
###6
Figure 6: These two cartoons illustrate a debate that lingers to this
day. On the left, greenbacks are produced to pay debts. On the right, a worker
and a farmer struggle for existence as the reversion to the gold standard
elevates their debts and devalues their services. (Sources: Left: no copyright;
Right: Klondike Gold Rush National Historic
Park Gold Rush Museum , Seattle ,
WA
As a result of the Long Depression, people were desperate for work, but
even more desperate for a reason to maintain hope in the face of despair. Much
as the Bakken has provided hope for contemporary society, the SS
Portland provided hope when it arrived in Seattle
in the summer of 1897 with a half a ton of Yukon
###7
Figure 7: The newspaper that heralded the Klondike Gold Rush (Source: University of Washington
The next day the Klondike gold rush commenced as the
steamship Al-Ki departed with a full deck of stampeders and 350 tons
of supplies, including foodstuffs, pack animals, prospecting equipment, and
clothing, like C.C. Filson oiled canvas jackets and pants. These garments,
which were impregnated with a mixture of paraffin wax and other oils, proved to
be as waterproof as they were stiff – the stiffness resulting from the fact
that the paraffins, which are solid at ‘normal’ temperatures, are nearly
impenetrable under arctic conditions.
###8
Figure 8: Supplies lining the sidewalk outside Seattle-based Klondike
outfitter, Cooper & Levy (Source: The Gold Rush Museum
The Klondike Stampede caused demand for steamships to mushroom and Seattle Puget Sound ’s most dominant industries. To
this day, Alaska depends almost exclusively on
the Puget Sound for the delivery of groceries,
consumer goods, manufactures, and other commodities.
###9
Figure 9: Steamships under construction in Seattle ’s
Moran Bros. shipyard (Source: University
of Washington digital collections and
MOHAI – Museum of
History
As was the case in California , Klondike gold discoveries fell just as quickly as they
had climbed. Between 1896 and 1900, annual discoveries rose from $300,000 to
more than $22 million, but by 1904 production had fallen to less than half the
peak value, and by 1907 production had declined more than 80%. And just as the
new and ecologically disruptive technology of hydraulic mining failed to arrest
or reverse declining production in California, the introduction of hydraulic
mining and large scale dredging failed to maintain the pace of discovery made
by the first few waves of stampeders who employed far less technologically
advanced and capital intensive processes.
###10
Figure 10: Klondike gold production
(Source: Data from J.P. Hutchins, January 4, 1908, “Klondike
District”, The Engineering and Mining Journal)
After studying dredging operations in the Klondike, mining engineer
J.P. Hutchins concluded, “The most satisfactory returns were from a dredge
working an unfrozen area in the flood-plain of the Klondike
River ; this was installed before the
large corporation, now so prominent in the Klondike ,
became interested. The dredges installed since that time have been very
disappointing in returns. Three powerful dredges began operation on the lower Bonanza Creek , but the experience there has been most
discouraging.” (J.P. Hutchins, January 4, 1908, “Klondike District”,
Engineering and Mining Journal on January 4, 1908)
While dredging was not able to arrest declining production, the process
certainly made an impression on the landscape. Tailings moraines provide a
lasting visual testament to the efforts made by dredge operators, who quite
literally left no stone unturned.
###11
Figure 11: In order to dredge in the Yukon
The similarity in California and Klondike gold production curves was
not lost on Mr. Hutchins who further wrote, “[Klondike] figures reveal a marked
similarity between this and other placer districts not only in respect to the
rapid increase of the annual output to a maximum a few years after the
discovery of the placers, but also in the rapid decrease in the output after
the maximum figure had been reached. It is of passing interest to note that in
both California and Klondike ,
the annual production reached a maximum the fourth year after discovery. These
figures were more than $80,000,000 for California
and more than $22,000,000 for Klondike .”
As historian Pierre Burton put it, “The statistics regarding the Klondike stampede are diminishing ones. One hundred
thousand persons, it is estimated, actually set out on the trail; some thirty
or forty thousand reached Dawson
While gold production continues to this day, the Klondike gold rush
ended in the summer of 1899, when over the course of a single week, more than
20,000 ‘sourdoughs’ left the Yukon on news that gold had been discovered on the
beaches of Nome, Alaska. The Nome
The Rush for Black Gold on Alaska’s North Slope
In 1902, Alaska produced its first
barrel of oil, and in 1953, the discovery of oil in a small town West of Fairbanks Pennsylvania ,
British Petroleum (BP) began prospecting for
oil along Alaska ’s expansive North
Slope .
BP was soon joined by Atlantic Richfield Company (ARCO), who in 1968
discovered Prudhoe Bay, the oilfield equivalent of a 25-pound gold nugget. The
Prudhoe Bay field is estimated to have had 25 billion barrels of crude before
extraction commenced in 1977, making it the largest field in North
America . Another major US
field, Kuparuk with reserves of 6 billion barrels is also on the North Slope and was discovered in 1969 by Sinclair Oil.
In order to transport oil from the remote North Slope, the Trans Alaska Washington
###12
Figure 12: Milepost 562 along the 800-mile TransAlaska Pipeline System
(Source: Wikipedia)
Production from the Prudhoe Bay field
peaked in 1988, and production from the Kuparuk field peaked in 1992. With
these two fields dominating North Slope
production, the black gold flowing through the TAPS then fell into decline
after only 11 years of operation.
Eleven years after the peak, North Slope
production had declined to less than half the peak volume. To use Mr.
Hutchins’s words, it is of passing interest to note that in California ,
the Klondike, and Alaska
Through June this year
production was 35,000 barrels per day less than the average production rate in
2010.
###13
Figure 13: Source: Oil and Gas Production Forecasting: Presentation to
the Senate Finance Committee, February 16, 2010, Alaska Department of Revenue.
Without some type of North Slope
game-changer, production will by decade’s end decline to the minimum TAPS
operating capacity of 350,000 bpd.Currently, it is believed that a flurry of
new projects including projects that are already under development and those
that are under evaluation will significantly slow the rate of decline.
One such project is BP’s Liberty Liberty project
comes online, North Slope production will be
goosed by an estimated 40,000 bpd, which will essentially add one year to the
operating life of the TAPS. There is a danger associated with making hasty
generalizations from the performance of just one field, but if the
technologically challenging Liberty
The problem of declining rates of North Slope
production is compounded by the engineering specifications of the pipeline
system. At lower flow rates, the length of time required for a barrel of oil to
make the trip from Prudhoe Bay to Valdez
Longer transit times also allow emulsified water to separate from the
crude. As the water separates it collects in low spots where it greatly
accelerates pipeline corrosion. Under the right/wrong circumstances the water
can freeze, thereby constricting flow, or worse yet, breaking free and damaging
pumps.
Additionally, the Low Flow Study Project Team hired by Alyeska Pipeline
Service Company explains that, “Lower crude oil temperatures will permit soils
surrounding the buried portions of the pipeline to freeze, which will create
ice lenses in certain soil conditions. Ice lenses could cause differential
movement of the pipe via frost heave mechanisms. Assuming no heating of the
crude oil, ice lens formation is predicted to occur at a throughput of 350,000
BPD. Unacceptable pipe displacement limits and possible overstress conditions
in the pipe would be reached at a flow volume of 300,000 BPD.”
If the long-term rate of decline remains fixed at 35,000
bpd, and it makes financial sense to re-engineer the TAPS to handle
lower volumes, only 239,000 bpd will be produced in 2020. If it does not make
financial sense, and the decline is not significantly slowed by production from
new fields, North Slope output will fall to
zero. Under this worst case scenario, the annualized rate of decline would be
roughly 70,000 barrels per day.
Consequently, in order for U.S. oil production to remain flat in the
face of North Slope declines, which have persisted for 22 years despite the
fact that no fewer than nine significant fields have been brought online over
this period, production elsewhere in the U.S. needs to increase by 35,000 or
70,000 bpd. This will be a challenge because the oilfield equivalents of
colossal gold nuggets have, by and large, already been discovered.
There are exceptions, of course. It was estimated that the 1 billion
barrel Thunder Horse field in the Gulf of Mexico
would produce at a maximum rate of 250,000 bpd. Unfortunately, production
peaked within 10 months and then fell into rapid decline.
The Rush for Shale Oil
The Bakken formation is estimated by the USGS to have an impressive 4
billion barrels of technically recoverable oil in place. (3 to 4.3 Billion Barrels of
Technically Recoverable Oil Assessed in North Dakota and Montana’s Bakken
Formation—25 Times More Than 1995 Estimate—) While this is a significant
amount, it should be pointed out that the Prudhoe Bay
field was more than 6 times the Bakken’s size, and Kuparuk was 1.5 times
larger. It also bears mentioning that the Bakken oil is trapped in two layers
of impermeable shale and a layer of ‘tight’ sandstone. In order to extract oil
from the middle sandstone layer, producers utilize the process of hydraulic
fracturing pioneered by natural gas producers. The process of hydraulic
fracturing should not be confused with hydraulic mining, though similarities
abound.
Hydraulic fracturing, or fracing, involves pumping millions of gallons
of fracing fluid (a mixture of water, propants, and chemicals) per well into
the earth under pressures great enough to fracture rock and release the oil. As
a consequence of the process, flow rates from shale oil wells are low compared
to the high flow rates of wells tapped into large conventional fields.
Whereas conventional wells like those in the Thunder Horse reservoir
produce at a rate of 40,000 bpd, only 14 of the nearly 9,000 wells in the
Bakken produce more than 800 barrels per day, and the average well produces
only 52 bpd. Even at 800 barrels per day, 50 Bakken wells would need to be
drilled for each Liberty/Thunder Horse size well, and nearly 800 of the average
size Bakken wells would be required.
In order to arrest North Slope
declines, 700 average size Bakken wells will need to be completed each and
every year.
Due to the massive quantity of water required by the hydraulic
fracturing process, the chemical cocktail that is added to the water to create
fracing fluid, and the massive amount of dangerous wastewater generated by the
process, environmental activists, or ‘fractivists’ as I like to call them,
oppose hydraulic fracturing. Thus far, fractivists have turned a blind eye to
Bakken production, choosing instead to focus on natural gas fracing in the far
more populated areas along the Marcellus Shale formation that runs along the
East Coast.
Fractivists have attained some level of success in New York, Pennsylvania,
and France. The fractivists’ success has engaged the oil and gas industry’s
fight or flight response, and elicited a relentless pro-fracing propaganda
campaign. It appears as if this campaign has successfully enlisted prominent
boosters who hold court in the Wall Street
Journal and The Financial Times.
Regardless of whether or not fractivists target the Bakken, there is no
escaping the fact that the Bakken wells are merely flakes of gold dust, and Prudhoe Bay and Kuparuk are the oilfield equivalents of
colossal nuggets. And history teaches us that replacing nuggets with dust is at
best a stopgap measure. While gold production in California continues to this
day, production will never climb to anywhere near the peak reached in 1852
despite the fact that gold now trades at $1,800 per ounce and extraction
technologies have improved by leaps and bounds.
Within this historical context we can sift the Bakken hope from the
hype. The good news is that Bakken output rose from 130,000 bpd in June 2003 to
over half a million barrels per day today, and is well on its way to producing
a 750,000 barrels per day of high quality shale oil. Of course an analogous
statement could have been said of California gold production in 1853, Klondike
gold production in 1899, and North Slope oil production in 1987, so the danger
of extrapolating past trends into the future is clear. That said, the growth
rate is impressive.
###14
Figure 14: North Dakota oil production
showing the effect of unconventional oil production from the Bakken formation
(Sources: EIA and the North Dakota Department of Mineral Resources)
Every silver lining has a cloud, and the bad news is that Montana Montana
###15
Figure 15: North Dakota and Montana
The Bakken narrative being constructed by the likes of Yergin, Crooks,
and Luce is hopeful, yet incomplete. Production from North
Dakota is climbing rapidly, but production in Montana
and, more importantly, Alaska ’s North Slope is declining. When taken together, a picture
resembling the shadow of truth emerges. The Bakken boom has simply hidden a
much more troubling trend; it has nearly perfectly balanced out the decline in North Slope output.
###16
Figure 16: Aggregate oil production from Alaska ’s
North Slope and the Bakken (Source: EIA and
the North Dakota Department of Mineral Resources)
Parting Thoughts
George Orwell wrote that, ”He who controls the present, controls the
past, and he who controls the past, controls the future.” There is more than a
nugget of truth in this statement. The future is guided by the stories which
shape our imagination and our perception of what is possible, and therefore
what is pursued.
Just like Samuel Brannan marketed the California gold rush and
the Seattle Post-Intelligencer marketed the Klondike gold rush, the
Bakken boom is being boosted by those that stand to benefit from production,
namely the oil and gas producers, oil field services companies, and the
producers of inputs consumed during the process. These entities recognize their
vulnerability to fractivism, and I suspect that they are behind the recent
surge in boosteristic promotion of the energy independence meme.
The Bakken narrative being constructed by its proponents thrusts forth
two main points. First, recent technological advances have opened the door to
bountiful energy supply, so much so, that talk of energy independence has
re-emerged. Second, alternative/renewable/clean energy requires subsidies that
we (i.e. the U.S. ) can’t
afford, that the public doesn’t want, and that go against the free market
ideology that Milton Fiedman chipped into the impenetrable stone walls that
fortify the Chicago
School
This narrative is enticing to many politicians and much of the public
because it fits into a greater national narrative that holds at its core the
primacy of market-led American ingenuity. When faced with a challenge, American
entrepreneurs always emerge victorious, resource limits be damned! Or so the
thinking goes.
A sober reading of history, however, suggests that the Bakken success
story fits a well-established pattern in which every natural resource boom is
followed by an inevitable decline.
Sometimes history provides us with lessons that we don’t want to learn.
Gold dust can’t replace colossal nuggets, shale oil can’t replace giant
conventional oil fields, and wishful thinking and ideological fortitude is no
substitute for dispassionate analytical rigor
This is a guest post by Derik Andreoli, Senior Analyst at Mercator
International LLC (dandreoli@mercatorintl.com)
No comments:
Post a Comment