Thanks Gail. Heading Out has some comments also:

"...those who wave the NYT story have little clue.." Heading Out response on the Bittooth blog.

The NY Times is now so firmly in the Neville Chamberlain energy camp that is it difficult to see a way for them to back away from their position without looking foolish:

"I believe it is peace there will be no peak for our time. We thank you from the bottom of our hearts. And now I recommend you to go home and sleep quietly in your beds." (Amendment from Mr. Chamberlain's original comments in italics :)

They should be ashamed.

Beliefs tend to linger on well past the point when they are no longer valid, and it takes a catastrophic collapse to really drive the point home. No conspiracy theory; these articles are just the reflection of the Western-industrial consciousness.

I think things will begin to unravel in a major way by 2011-12.

There was a similar article in german at Spiegel Online yesterday, the internet version of the leading german news magazine

http://www.spiegel.de/wirtschaft/unternehmen/0,1518,650953,00.html

pointing out the big current discoveries and spreading an optimistic note.
The agenda seems quite global nowadays having the same story with similar spin at the same time across the atlantic.

I put away my Oct. 2009 issue of Sigh Am-err-i-can for another day when the critical thinking juices can be rejuvenated. There is just too much in the MSM nowadays that needs critical review.

IIRC, the Don't-Worry-Be-Happy Sci_Am article was authored by an "economist" of Italian extract, not by a scientist of American or other extract. It used the BAU, illogical logic. Chief among these was the appeal to the "Lessons of History". Ah yes. We've had claims of peak before. It didn't happen then and therefore for sure it won't happen now. Technology has always come through for us. The markets have provided, yet again. Oh yea of little faith. Yeeha. Logical is as logical does.

A good counter to this illogical logic is the example Nassim Taleb gives in his book, The Black Swan. It's the one about how the 3 year old turkey concludes that this upcoming Thanksgiving Day will be no different than the previous ones. The farmer was good to Tom in the past, stuffing him with food and feast. Surely history will repeat itself.

Huge Kudos, Gail,

I am ALWAYS amazed how fast, and with such quality wordsmithing too, at your ability to bang out fascinating analysis in TOD keyposts.

MSM-Journalists don't seem to understand the key difference between flowrates and reserves--the first is always a time-dependent measurement, the second is a static measurement.

An untapped reserve can sit for years or decades but it neither shrinks or grows. If someone can find a beer bottle, that when placed inside a refrigerator constantly grows from its original 12 ounces into a Big Keg--CALL ME FIRST!

Another example: my parked ICE-vehicle is a potential 'Transportation Reserve', but it is not going anywhere. Then, only when I fire it up and start moving at any speed, say 10 mph==>then I am FLOWING along. Obviously, at 60 mph, I am flowing along much faster than 10 mph, or ZERO mph, duh!

I almost expect some journalist to say a new reserve discovery is 10 billion barrels per hour. Recall my recent weblink with the recent MSM article gaffe about 1 million bats eating 700,000 TONS of mosquitoes over the course of a summer when I am sure they wanted POUNDS. I haven't seen any bats the size of a B-2 Bomber flapping around [if I did--I would be in favor of White Nose Syndrome, LOL!]:

http://future-weapons.org/images/b2.jpg

Bob Shaw in Phx,Az Are Humans Smarter than Yeast?

We need to keep in mind what is going on in the oil market right now and the time of year. Normally at the end of the driving season the price of gas/oil declines and reaches a low sometime in January. Speculators and commercials in the oil market are no fools.

Seasonal market forces are very powerful. I have watched them for years in the grain market where they are again at work preparing for the fall harvest. But in oil this year's fall/winter decline is complicated by a very bullish oil chart:

http://futures.tradingcharts.com/chart/CO/W

Oil has been basing all summer. This normally happens before a breakout. The debate has been whether it would be up or down. The bulls point to "green shoots" and China usage and the chart looks bullish to them. But the bears point to weak American demand due to weak car sales, unemployment and the Great Recession.

Yesterday's market action makes it look like the bears are winning. There are big bucks riding on this since oil is now a major investment vehicle.

I do not put it past some of these sophisticates to arrange the timing of these articles such that they come out at critical market junctures. They know about seasonal declines and charts. They have friends and connections and some of them no doubt are in the publishing business.

The bulls have set themselves up and there are too many of them. Too many people see the good looking base and read of demand from China and the developing world. Also Peak Oil is now main stream. Everyone and his brother has heard about it and probably gotten in on the long side.

Commodities are a zero sum game, for every long contract there is a short contract. For every winner a loser. When the market sophisticates sense that so many have taken the long side and ignored the powerful seasonal factors, they see a set up.

A few key calls to friends and walla, bearish "news" appears from several sources at the same time and and at a key junction on the charts. The name of the game is Scare the Bulls. They are breaking the oil chart down just as they wanted and will make millions if not billions on the short side.

They will cover their short positions in January so taxes are not due until April of 2011. Then the game will be to run oil prices up for the 2010 summer driving season, rinse and repeat.

That's commodities. Seasonality trumps all. But the long term trend in oil prices is still up or we won't see much of the hiped "discoveries". There will be lots of peak and valley action on the way as there always has been in commodities.

I don't think you quite credit the compounding effect on food prices and their share of household expenditure as oil prices go up. It's not just that households always have to have food, but as oil prices go up, so inexorably do food prices (with a short timelag). As they do, they very quickly squeeze the disposable incomes of the less affluent and this has a dramatic effect on their consumption of non-food items.

As this cycle gets underway it leads to a reduction in employment, locking in the decline in the economy for a certain period of time. There are lags in all of this and so ultimately as the oil price repeatedly bumps up to the maximum sustainable level, as long as the intervals between this happening are less than the time it takes for the economy to recover, it seems to me that this must lead to a gradual ratcheting down of the economy.

Of course this should in time lead to the economy rebasing at a level low enough that the oil price has to fall as consumption reduces. However we are living in a globalised world and some economies will be more resilient and so will not hit the buffers in the same way, and this will therefore have the effect of keeping the oil price more buoyant than it would be if it were just dependant on US and western domestic demand. I assume that this will be the mechanism by which the balance of world economies adjusts itself to take account of the degree to which the economy is built on oil - if so, doesn't look too good for the US in particular!

Why do these 'feel good about oil production' articals keep appearing in the MSM now (4 in the last month)? Is this a last attempt to keep things going before we drop off the production plateau?

Thanks Gail,

I posted in another thread that Germany in WWI didn't have famine. I was wrong. Why didn't Germany produce enough food? They were never invaded. Blockade should have been anticipated. Motorized agriculture had barely been invented. There was plenty of land, horses, and coal.

Germany starved during WWI because the German leadership believed articles like these. They thought preparations were not necessary because the war would soon be over. So they did not prepare.

The lesson I take home is not to expect foresight on a national basis. Everyone should expect to be on their own, just like every serf during every period of social chaos for the past 5000 years. Prepare to hunker down and wait it out.

Cold Camel

Hey, I'm not depressed, I'm optimistic. I see a realistic way through the coming crisis. All I have to do is hunker down, feed my neighbors and we'll be relatively ok. I'm a pretty happy guy but it boggles my mind that so many others fail to appreciate and take advantage of the opportunity. Every one of you who refuses to take action with such clear forewarning reinforces the accuracy of my judgment. You old fogeys that are full of wisdom couldn't survive the jump, but it's a shame that you lure youngsters back into the cocktail lounge for one last drink before the ship goes down. You should be chasing them to the rail and handing them your life jacket. Where did the leaders go?

From Peak Oil Not a Problem According to NY Times; Scientific American

But as the economy recovers, demand begins to grow again. With the rise in demand, oil prices are likely to rise again to a level where they have an adverse impact on the economy. The world economic system was damaged pretty badly with the last price spike. Another spike could have much more adverse results. Eventually, the world economy may become so damaged by oil price spikes that recovery of the world economy in the form we now know it may not be possible.

How soon such a scenario would might occur is not certain, but it seems to me that a scenario like this, rather than the amount of reserves in the ground, is likely to determine how much oil is ultimately produced.

This second paragraph is what I contend, that as oil depletes past peak there will be sudden drop offs in production due to recessionary effects from too high an oil price, and much of the remaining oil reserves will go untapped. In essence, collapse occurs before a linear, or something approaching a bell curve extraction can deplete the majority of remaining reserves. Just the opposite of running out of oil, but rather running out of the credit at ever increasing prices to sustain extraction of the remaining trillion barrels.

That's an odd idea too, because many people presume BAU, just at lesser amounts of oil per year. But instead it will probably be a herky jerky recessionary contraction, followed by collapse.

There are some unexplored areas with significant oil & gas potential. The South China Sea, claimed by 7 nations, is one. The Arctic Ocean and bordering lands is another.

But regardless of how much oil will be found there, it will be too little AND too late to preserve business as usual. Our demand for oil is too high, and depletion too certain, to stake our future on prospects that have not yet been drilled.

And even if massive oil fields are found, they will not be enough.

Taking the money for your heart surgery and going to the casino with it seems wise in comparison.

Alan

Price is important in all of this.
Thanks Gail, this is exactly the point of my earlier comments:
The relation of exploitiation costs versus the consumer's purchase power is the paramount issue.

Those are three pretty big "if"s. Without them, it seems like oil production will be very difficult.
Your list of conditions is similar to those postulated by the outlook of the IEA and the German BGR (whose models have the global peak around 2030). Strangely, none of them writes a word about what may happen if these conditions don't come true. Maybe they weren't paid for that.

Hi Gail

I am not sure you are correct in your assertion that the world cannot cope with oil prices above $90 a barrel mark without going into recession. For instance in the UK and Europe we have been paying petrol prices which equate to oil being $130-$150 per barrel. This did not effect the economy during 2004 to 2007.
It appears to me that people cannot imagine a growing economy having fewer cars. I know many people who have sold their cars, but continue to go to work. Indeed they have more money for other things such as Restaurants, electrical goods, clothing etc.
Millions of people in UK do not own cars and live quite well travelling by public transport. Manufacturing trains, buses and trams could easily fill jobs lost in the car industry, also they all need drivers ideally working 3 shifts to providing a reliable service.
Also if people feel they cannot do without cars they can buy one which gets 60mpg and not 30mpg, this move alone allows a person to cope with a doubling of fuel costs.
I also know people who still have their car but only use it at weekends, some cycle to work.
Oil production will peak soon but there are many ways we can use less oil.
There is nothing to stop US cities from building tram system and park and ride systems and a decent rail system. This would cut several million barrels from US consumption and everyone still could get to work.

People need to stop reading The New York Times (and almost all other newspapers) when they want scientific reporting. I work for a science research institution. We regularly have reporters coming in to "report" on our research. We have had TV production companies, radio program producers, newspaper reporters, we've had them all (yes, this includes the New York Times, too). And the one constant is their shared ability to get the story wrong on important details. It really doesn't matter what one tells them, or how one tells it, they just consistently get it wrong.

The most egregious cases happen when there is a preconceived story that these reporters want to tell. In those cases, the data simply doesn't matter. They will shoehorn whatever they are told into the story they want to tell.

Here in our own department, I have noticed a gradual progression in our attitude towards the media; 1) Eagerness to share what we have found. Then, 2) Concern that WE need to work harder to make our message clear. Followed by, 3) Frustration that no matter what we do, we just don't seem to get the story out straight. And then the final stage; 4) We just want the media to GO AWAY and stop bothering us and wasting our time. We're well into stage 4 now after ten years of this nonsense.

Nice work Gail.

Again, the issue is not "how much oil is left?", but rather "how much oil can be acquired at a significant energy profit?"

There are reasons why Saudi Arabia and Texas were found and developed first - i.e. they were easy! Energy return on investment for global oil and gas is decreasing, and has been for some time.

I thought this comment was interesting:

"The dollar per barrel cut off for causing a recession seems to be in the $80 to $90 barrel range."

It also seems that the $70/barrel range required for tar sands to be economically feasible is awfully close to this threshold.

It's like I tell people who aren't as informed in this subject: we'll probably always be able to find some oil, somewhere. But at what cost is really the issue. Fundamentally, while the price of a barrel is quite flexible, one barrel of oil only produces so much value in terms of economic output and that value is far more static, being more a function of the energy efficiency of a society. So what happens when a barrel is worth more than the amount of economic activity it generates?

At the end of the day, there's a finite amount of energy in that barrel and there comes a point where we're really losing out in the EROEI balance. I don't think we're going to suck every last drop of oil out of the ground because there will come a time when, although we will all be paying more for energy, it's more cost-effective to obtain that energy by other means. The market will dictate when that happens, but I think the growth in renewables globally has a lot to do with that. It doesn't take a whole lot of government help to make these renewables projects happen (essentially little more than a friendly tax structure) which implies to me that our fossil energy sources don't have to get much more expensive to make the alternatives economically viable.

Oil's important, but it isn't impossible to replace. If energy prices are going up regardless, as they are in every fossil energy source excepting natural gas, then the alternatives to fossil fuel energy sources become far more attractive. For example, if natural gas prices spike and coal prices continue to rise, then nuclear power will suddenly become quite popular with investors.

In times of price instability or periods of consistently high commodity prices, the tendency of the market is to diversify first and then replace second. Our policy goals should be set to maximize this tendency and focus resources to be most effective.

Thanks Gail,

The problem for those of us who are trying to convince others that PO and it's implications require immediate risk management is that conversations can become bogged down in the minute of geology/technology/oil markets/financial& economic issues, who says what, and who know what. This is a sure fire way to dissipate any sense of urgency. Typically, it is those who know a little about the subject who are most difficult to progress with. With the confidence born of a little knowledge, they might counter "Well CERA (or the guy on the telly) say...,... therefore no problem!". It is highly unlikely they have compared methodologies of Cera, Udall, Campbell, Total, IEA...., they have most likely found an answer that suits their worldview.

To avoid this I use a simple risk management approach. I do not seem to be able to post graphs to this window, but it should be clear to describe.

In its simplest form: Risk=Probability of Occurrence X Consequences

To estimate probability of occurrence (of a peak in oil production in year Y):
Collect all available estimates(E) of peak oil year(E1(Y1),...En(Yn)) from recognised experts (those with the ability to make an independent estimate, with an open methodology). Assign each an equal probability of being right(no favorites). I assume that the total probability of any One of them being right is 95% (because one can never be sure).
So lets say there are 30 estimates, then the probability of any estimate being correct is 0.95/30.
Graph the cumulative probability of expert opinion against the year.
An S-curve fits this data well. From my collection of others estimates, there is a probability of 50% that we will have hit PO by 2014.
This may not be elegant or the most accurate method, however it integrates all expert opinions, and allows the conversation to move on to:
Consequences:
Well, you do not have to expect like me a fast collapse, to realise one way or another, that the consequences are huge!
Finally, being explicit about a methodology allows one to argue that uncertainty demands risk management, and ignoring uncomfortable things can be a failure of risk management.

The map of sedimentary basins and oil exploration is extremely deceptive. First, notice what color they made the sedimentary basins? BLACK! What else does that color remind you of? OIL! The intent is to suggest that underlying ALL of that territory is oil, and we simply haven't gotten to it yet.

Furthermore, while petroleum geology isn't my field, it is my impression that finding a likely site to explore for oil involves more than simply finding a sedimentary basin and starting to drill. There probably are some cases where there are some promising locations that so far have been too difficult to get to. More likely, though, most of those black expanses don't have yellow dots on them because there are good reasons not to bother.

Thirdly, the map gives the impression that only North America has been intensively explored, and implies that if only the rest of the world were explored to equal intensity then there would be huge amounts of oil to be found. What is left out of the picture is the SUCCESS RATE of all that exploration. If, instead, they had shown just those exploratory wells drilled that had resulted in a successful find, the picture would look very different. We've drilled so many more wells here in North America because we are very rich and could afford to gamble to a much greater extent than is the case with most countries.

I know propaganda when I see it, and this is it.

It's interesting that this subject should come up the day after a BP geologist showed me a seismic section across an area which is frequently mentioned as a likely area for large untapped reserves: the Canadian sector of the Arctic Ocean.

It certainly looked promising geologically. There were tilted fault blocks under a major unconformity, very much like a lot of the world's oil and gas accumulations, and they were large enough to hold billions of barrels of oil.

But the economic problems with something like this are probably insuperable, even with the most optimistic assumptions:

• The depth of water is thousands of feet.
• The total depth to the target is probably over 40,000 ft (which probably means it would be gas rather than oil, but there is oil at 35,000 ft in the Tiber discovery in the Gulf of Mexico, so perhaps there could be oil here).
• A well this deep would probably take at least four months to drill (if it could be drilled at all -- it would be a new depth record for a commercial well).
• Even with current global warming, the summer operations window for this area is about two months.
• If an exploration well like the Tiber one costs $100 million dollars in the benign waters of the Gulf of Mexico, what would a deeper well in an area like this cost?
• Even if a discovery is made, how do you produce it? A floating production facility could only be used two months of the year, and there is no existing infrastructure for hundreds of miles (Prudhoe Bay is probably the closest).

I really can't see this kind of prospect ever being feasible economically. Each of the problems I've mentioned does have a conceivable engineering solution, but the economics, and in particular the energy return on investment, will probably never work.

Regarding your Figure 5, showing petroleum expenditures as % of GDP at 8% in early 70s and 6% last year, I would contend that debt as money expanded far beyond its % of GDP than it was in 70s - ergo if you back the debt/credit subsidy out of GDP, it is vastly overstated, meaning oil expenditures of true GDP is probably north of 10%. (Also, the implications are that EROI of global oil is significantly overstated due to phantom GDP, not to mention sunk cost of all the depreciated infrastructure, whose energy and materials inputs were expended long ago)

Look closely at the Scientific American draft cited up top - emphasis added - and all is revealed:

April 1, 2009 | 19 comments

Squeezing More Oil Out of the Ground
Amid warnings of a possible peak for oil production, new technologies offer options to extract every last possible drop...

Great analysis. One more thing to add: I think part of the reason that average people reading these articles see it as such good news is that they are not used to dealing with such large numbers as 10 billion barrels. That seems like tons of oil but people don't realize how many billions of barrels are being used already. The price issue is a big one though and you really explained that well.

As to saying that $150 a barrel in Europe works ok, tax issues aside, I would guess that because the US has had low gas prices hard wired into it's construction of cities since the 1950's we are much different than Europe. We will have to undo all of our sprawl to live in a lower per capita energy use world. That is a HUGE task. Europe was mostly built pre-oil so it is easier for people to live without it.

Jad Mouawad is the Pollyanna of conventional oil.

The real news is BAD--31 Gb per year in consumption.

10 Gb in 200 discoveries for the first six months but no
(super?)giants since 2000 discovery of Kashagan(wiki says 9-16 Gb, 15-25% recovery--current production =0 bpd). The oil is mixed with 19% H2S natural gas making releases as toxic
as a gas attack.

http://www.rigzone.com/news/article.asp?a_id=49533

In the decade 1995-2005 35 giants(>0.5 Gb?) were discovered none of which will produce more than .365 Gb/yr.

http://www.peakoil.net/AIMseminar/UU_AIM_Robelius.pdf

Plus the price of oil dropped to $65 per bbl.
The exploration business is in terrible shape
contrary to Mouawad.

From the latest Goldman Sach's crude report. They still maintain $85 by the end of this year which would hit our 4% of GDP number and they maintain the supply-side of the equation holds "few" surprises down the road as demand increases.

3) Finally, the global economic recovery is coming faster than expected. Since we last published our global oil supply and demand balance table, GS economists have raised their yoy global 2009 and 2010 real GDP forecast by 0.5% and 0.7% to -0.9% and 4.1%,
respectively. This is worth 1.2% in terms of oil demand or about 1.0 mmb/d alone. Further,the expectations that the inventory cycle will significantly boost 4Q09 US GDP growth to 3.0% yoy, is critical to the distillate outlook as it is this end of destocking at the macro level that is driving our positive fourth quarter distillate outlook.

On net, the combination of stronger than expected non-OECD demand growth, higher GDP forecasts, and increased confidence that demand even in the OECD countries is beginning to improve off a higher trough than we initially expected, leads us to raise our 4Q09 and 2010 global oil demand forecasts by 1.2 million b/d and 1.6 million b/d, respectively.

Importantly, the permanent damage from the credit crisis is much less than we had
previously thought, driven by the likelihood that the trough in oil demand was not nearly
as low as we had initially anticipated, which means that we are beginning the recovery
from a higher base. The higher trough combined with an improved economic outlook allows us to anticipate a world demand level in 4Q09 that we originally thought would take until 3Q2010.

While this demand revision would suggest an upward revision in prices and hitting supply constraints sooner than early 2011, we instead are maintaining our price forecasts as the higher demand has been met by stronger supply – particularly out of Russia and the rest of the FSU where supply has surprised by an equally impressive 650,000 b/d. As a result, we are raising our global supply forecasts by a similar amount as our global demand forecast.

Although we are only modestly changing the near-term growth paths for both demand and supply based upon these surprises, it is important to emphasize that the supply surprises are more one-off events than the demand surprises are, which will likely persist and strengthen, bolstering the medium- to longer-term bull case for 2010 and beyond. More specifically, the supply surprise was mainly due to five new greenfield Russian projects coming on sooner and stronger than expected. When you take those projects out, we find that the underlying decline rates in Russia did not change significantly and will likely act as a drag on forward production once the impact of these greenfield projects passes. Further, an analysis of new greenfield projects from the GS energy equity team shows that 2009 is "as good as it gets" from a supply perspective.

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Thanks Gail!

I think it's interesting that Kern River keeps getting trotted out as a "see, you are/were wrong" kind of approach. Yes, the technology has changed for heavy oil and Kern River shows just how much effort you have to put forward to increase the ultimate recovery.

I went back a bit in time and pull this article up that you posted:

http://www.theoildrum.com/node/5023

It seems that Chevron is expending a fair amount of energy (injected into the ground) to recover the oil. Granted that cogeneration is the way to go, a rough back of the envelope calculation of how much energy is being injected into ground (think of it as burning natural gas to heat the ground) and you find that Chevron is injecting approximately 55% of the BTU equivalent recovered from the oil at a 90% water cut.

That energy balance would go negative somewhere between 93-95% water cut. Then it comes down to the $ balance between gas/steam and treatment costs and whether addition oil could/should/would be pulled out of the ground for "negative profits."

Of course, it still might profitable from the standpoint of what they can get from selling MW on the grid, but if and when that goes away, it will no longer matter how much oil is left in the ground if no other technology is able to efficiently/economically recover what's left.

This is not specific to this article, but related to new/potential discoveries and something I'd wanted to throw out there for a while. Has anyone heard anything about interest in the Ankeny Basin as having possible oil? Or even heard of something called the Ankeny Basin? There was some experimental drilling further west in Iowa in the late 80s at the Eischeid Farm (Guthrie Co.) which came to not much, but I have seen some information indicating that a more likely area might be in this basin, named after the Polk Co. town that sits roughly over its middle. Maybe someone who knows a lot more and spends a lot more time on this knows something about it?

I note that the stenographer for the New York Times has included a few numbers among all the letters. Still, I'm left wondering about the constitution of the 10 billion barrels discovered. Is 40 to 60 per cent of this at Tiber? Do discoveries this year amount to 10 billion barrels or 8 billion barrels? Tiber may be in part gas, the stenographer suggests. How much of the 8 to 10 billion is gas?

What is the average size discovery? What is median discovery? Of the "more than 200" discoveries, how many are of interest to the development teams?

I would have appreciated more numbers from the stenographer. I also would like to see more information about the accuracy of the estimated volumes of 'discovered' oil.

Idiot-Logues are blind
the right thinks we can drill our way out of this mess.
and the left believes that diffuse energy from windmills and the sun will save the day.
both sides believe what they want to believe.

scientific american article:
Much of earth's crust is made up of sedimentary rock and only 1/3 of this rock has been explored.

lets see. off the top of my head
most oil is found in anticlines, reverse faults or salt domes.
you must have source rock or forget it
you must have resevoir rock or forget it
this oil most be within the oil window or it's likely to be natural gas or nothing.
the resevoir rock must be porous and permeable.
and there must be an oil trap
not all sediemntary rock can make a good source rock or resevoir rock

have i missed anything?
i'm sure i have
help me out here petroleum geologists

in other words, there's a good reason for not exploring sedimentary rock just because it's sedimentary rock.

what happened to scientific american???

Nicely argued Gail. The only thing I could think to add would be the bar graph of new oil supply costs from CERA that was found in the Horizon Oil presentation. That is pretty lethal to the idea of a painless transition to Tar Sands oil, etc.

SENT TO NY TIMES AUG. 25, 2009:

Michael Lynch makes the same mistake as many peak oilists: that economic collapse from the loss of cheap liquid energy cannot happen near-term because there is plenty of oil still in the ground. The difference between Mr. Lynch and these peak oilists is that the latter see conventional oil reserves diminishing.

The oil market is unforgiving when a crunch hits. When supplies tighten from a 10% or greater shortfall, from whatever event, the result is skyrocketing prices, panic buying and hoarding. This happened in the 1970s when Lundberg Survey predicted the Second Oil Shock from a 9% shortfall of U.S. gasoline for March 1979.

The next shock will see no rescue from more cheap energy in the more globalized economy with greater population size. The effects of petrocollapse, which started last year when high prices overtaxed the financial system, will stop much economic and agricultural activity -- bringing about a "national Katrina" due to society’s lack of preparedness.

Mr. Lynch gives no net-energy data; instead, anecdotal comparisons about Persians laboring a century ago. As to prices for oil dropping post-1970s when he claims people cried wolf over supply, subsidies (direct and hidden) have increasingly hidden the real oil cost.

Denying peak oil and denial of human-induced climate change are closely related. This is the drive to keep consuming as if the Earth were infinite.

Sincerely,
Jan C. Lundberg
Independent Oil-Industry Analyst
CultureChange.org
Portland, Ore.

http://culturechange.org

great article gail

the problem though i see with the great analysis that you see at sites such is this is that, i see little that addresses the people out there who believe that "peak oil" is a myth perpetuated by one world elite types, who are determined to foist another scare on the masses so that their standard of living can be decreased at the expense of the all-powerful. i got this line of reasoning from the article by f. william engdahl, entitled global warming or global freezing: is the ice really melting? until this type of thinking is put down, the few of us in the know, will standing amid the clueless with the consequences hit.

Regarding the map showing sedimentary basins, I wonder if they have considered a cutoff value on ocean depth:

A good fraction of the dark area lies below 3 km of water (the deepest well drilled last year was under 2.45 km (8,000 feet) of water). In addition, the exploration triplet requirement (source, reservoir, seal) has to be met.

The sediment thickness is probably a factor also:

In fact, potential oil and gas provinces are at least 1,000 feet thick:

src

In general the scenario is not a bad one however.

But as the economy recovers, demand begins to grow again. With the rise in demand, oil prices are likely to rise again to a level where they have an adverse impact on the economy. The world economic system was damaged pretty badly with the last price spike. Another spike could have much more adverse results. Eventually, the world economy may become so damaged by oil price spikes that recovery of the world economy in the form we now know it may not be possible.

My only objection is that this is really not required to have oil prices start increasing again. All thats required is implicit demand exceed supply. Assuming that we are probably post peak with oil production and this is probably true simply based on investment as pointed out in the article. Regardless of the future price of oil actual investment in bringing on new oil supplies will be lackluster as demand for expensive oil is fickle at best. Given that we are post easy oil and this seems accepted by most parties then a significant increase in supply probably won't happen. As depletion continues relentlessly the chances of hitting previous peaks diminishes and we are officially post peak.

So on the supply side without really invoking peak oil just peak cheap oil we can see that new production highs are probably in the past as oil gets progressively more expensive.

Now under this scenario there is no real requirement for the economy to grow to result in high oil prices and a recession. The only intrinsic requirement is that potential demand exceed available supply and the weakest bidders suffer demand destruction. Now this bidding war can result in prices reaching a point that the winner does not really win as it causes them to suffer serious losses "overpaying" for oil and demand destruction happens across the board. Depending on the outcome supply may exceed demand and prices drop.

However its a dynamic situation and in the end it all depends on the actual decline rate in oil production.
On the demand side the only base requirement is that the above decline rate result in supply not meeting demand regardless of the actual changes in demand.

Next of course as you point out oil demand has a large intrinsic value based on population and infrastructure its very very hard to push oil demand below this level generally as you point out it results in pullbacks in spending in the rest of the economy. And as I've said many times products which require large debt financing like homes and cars are particularly venerable as the payment on the debt is fixed but excess income declines.

So as long as substantial amounts of debt exist in the system and can be defaulted on further demand declines slow or even stop for a while. All of this becomes a issue after growth stops.

I call this peak BAU or you have a initial transition from growth and sharply increasing oil prices to contraction and if its fast enough falling oil prices. It all depends on the relative rates.
In our particular case the economy contracted rapidly over a period of months rapidly outpacing the decline rate in oil resulting in a short term glut. AKA we crashed.

Thats a unique event and is simply not predictive of the future it says nothing about how real oil decline rates and the economy will interact. I argue that at the moment the future is still completely unknown all scenarios are still probable and its completely unpredictable.

It all depends really on future oil production rates as long as they are high enough then the economy probably can cycle in and out of recession with conservation slowly reducing economic dependence on oil.
At each cycle of boom bust or at least after the first few I'd argue that a structural transition away from oil will begin to take hold as it becomes clear that the only way to grow is to do it with less and less oil.

It might not be a lot of fun bit its survivable and of course it results in significant destruction of debt over a number of years until real growth can resume in a less oil dependent economy. Other resources may become problematic at that point but thats a different issue we will continually hit limits until the economy becomes substantially sustainable. But this does not have to happen rapidly assume oil supply remains adequate and simple recessions are sufficient to balance supply and demand.

So I'll just close point out the obvious that the price and oil is dependent on supply and demand given that supply should be declining demand need not increase at all to result in high prices just decline slower than oil. Given the structural support for oil usage demand becomes increasingly inelastic even as the economy slows and debt default acts to buffer the point at which oil becomes to expensive and demand destruction starts in earnest.

Now with all that what if oil supplies are actually declining rapidly ????

Well if they are then the initial end of BAU and transition from growth to decline will only result in a relatively short period of low prices. I define rapid collapse as a change in oil supply by 10% or more over the course of a year. If we are anywhere close to this then demand rapidly hits its structural limits and a transition off oil has to happen in a very high oil price environment even as the current economy comes to a screeching halt as debt default explodes. The problem is that the inelastic portion of demand is hit so fast that you simply don't have time to transition. And of course transitioning requires taking away from other areas of the economy yet natural contraction is so rapid that you don't have any financial support for transition.

Sure most governments will at this point step in and support a last minute change off of oil but in doing so they are certain to destroy their fiat currencies and debt balloons. So maybe we make it maybe not regardless your certain to get a complete default in the monetary system as and outcome. If your lucky you get a economy rapidly transitioned off of oil and are able to create a new monetary system based on storage of wealth as growth rates are so low that fractional banking offers no value. This does not mean gold based but probably means gold will again become a important part of the monetary system. Given the problem is energy I suspect a energy tied currency is probably more likely.

Or you don't pull it off and you crash.

Regardless the most critical point to understand is that economic growth is no longer required to cause high oil prices we are past that point and now into the unknown. The combination of economic growth and high oil prices followed by decline and low prices was a one shot deal marking the end of BAU. It need never happen again that does not mean it can't simply that its not required all the scenarios I've outlined are possible which one is the future is simply not know yet. We are still in the last echoes of the end of BAU.

With all this said the only future that can safely be discounted soon is the rapid crash scenario as by its nature you might get one year and at best say six months before you hit the wall again after the end of BAU.
This is assuming a sharp 10% or so contraction in oil demand over a period of six months followed by say and additional 2-3% or say 12-13% or so. Also of course even in the shark fin model or fast collapse scenario you have period where you turn the corner and production declines accelerate up to fast collapse levels.
Lets say they accelerate over a period of 2-3 years from say 4% to 10%. Just depending on how things are really changing you don't even need a rapid 10% decline in demand 8% can do it. Way to many relative rates are involved initially to even begin to figure out whats causing what.

But this does not matter as the system soon enters its final phase with rapidly falling supplies hitting the wall of structural demand.

Whats will be really interesting if we are actually on this path is how oil prices varied before we hit the wall. In my opinion only a very small number of people actually think such a collapse is possible much less actually happening. Unless they are very highly placed in the world economy their concerns have little or no influence on the market. Therefore until you hit the wall the market itself is effectively mislead into assuming variants of whats assumed in the article and of course including peak oil is actually in the future.

Thus unfortunately give that there is little chance of a fast collapse being priced into the markets by any substantial amount you have the result that the market signal of such a situation will remain weak until the last minute. This means of course I'll look like a fool since the market probably will discount such a scenario right up to the point its forced to except it which is variable.

Bottom line is if we really are hitting the wall then the market response itself will probably be delayed and sudden as the truth unfolds. The only real constraint is if I've done a good job of windowing the period of fast collapse to predict when it becomes impossible to be true. I'm pretty comfortable in my prediction so lets see what the future holds and see what the true track is. We don't know much except that the worst case is fairly easy to discount soon. Lets see what happens over the next six months. I am to some extent waiting myself to see as I'm not about to make any long term decisions outside of the one to I made to leave LA for Oregon until after I know more about our future. How we respond to peak oil all depends on what happens next and what the real supply, demand and economic situation is like now that growth is no longer effecting the system.

I'm actually somewhat hopeful I could be wrong I am seeing a underlying signal of rapid collapse in the market but given that the entire market probably does not know the future any better than I do who's to say.
To a large extent the markets have been predicting a rapid recovery and thats the one situation thats obviously not going to happen. Maybe this mis-prediction is based on misinterpreting rapid decline as a rapid increase in demand. So far thats my working hypothesis that the markets are seeing what they think is robust gains in demand but in reality its rapidly falling supply and thus are mislead.
And by markets here I mean all markets and of course this has to include a healthy dose of government support.

One possible scenario for the near future is that the markets finally realize that rapid growth is not on the horizon contract with both stock and oil prices falling significantly and any supply signal is simply completely ignored the market thus cries wolf. However in doing so it misses the real situation even worse as of course oil supply continues to collapse. If so then you really hit the wall maybe oil falls to 40 or 50 a barrel then wham. Regardless until the markets at least return to their senses and at the minimum price in a very long recovery period with little or no growth its difficult to divine the real underlying fundamental situation. Obviously my current opinion is that the stock market is misinterpreting rising oil prices as a return to growth and this is coupling rising prices with the stock market as both misinterpret each other. The tight coupling is obvious until this coupling is broken what ever it takes to break it we don't know for sure whats going on. In the case of a fast collapse of course the stock market and oil prices should decouple and begin to move in opposite directions and further the bond markets should see rising interest rates as the risk of default overwhelms the printing presses. This in not inflationary but rising interest rates because the currency itself and its backing government are on the road to collapse.

Its way to early to even being to discuss this situation and you could well get stock market rallies along the way but once we get locked into the situation of rising oil prices and rising interest rates driven by the real default risk the party is over and its a matter of choosing how the system collapses. Historically its a hyperinflationary death spiral but with the coupling to oil its not clear that even hyperinflation will work as the economy collapses before monetary stimulus takes hold.

All of us will have to wait and see even super doomer me. We are in a sort of twilight zone where nothing is certain but I don't see it lasting that much longer and things should be much clearer in six months.

And then there is the issue of green houses. If oil is there should we really be bringing it into the light of day?

And how about leaving some for our descendants? Aren't they what it is all about?

This is further evidence that humans are a work in progress.

Lets see.... what shall we call ourselves?

QUESTION to any TOD willing to take it.

Would a nuclear weapon detonated on an oil field render all the oil useless due to irradiation.
I know depth probably has something to do with it.

Any how. thanks in advance.

In the draft version of the Scientific American article Leonardo Maugeri states the "oil" production rate as "85 million barrels per day" which is actually the value for global liquid fuels production, not crude oil and natural gas condensates. He predicts "... by 2030 we will have consumed another 650 billion to 700 billion barrels of our reserves...." Over 21 years this amounts to an average production of 85 Mb/d to 91 Mb/d suggesting he is estimating a production plateau that lasts at least 25 years or rises, peaks and then declines before 2030. He estimates the URR to be between "... 4,500 billion to 5,000 billion barrels of oil" which includes "unconventional oils." Given his use of the liquid fuels production rate he may be including liquefied natural gas, ethanol and biodiesel as well as tar sands and oil shale.

"There are a lot of issues with difficult to extract oil beneath the ocean floor. While it is theoretically possible for the oil price to be high enough to extract this oil, there is a real issue with too high an oil price (resulting in wholesale oil costs of over 4% of GDP) causing a major recession. Currently, such an oil price is about $80 per barrel. So it is not clear that prices can go enough higher, and stay enough higher, for extraction."

Assuming that the various governments involved understand this 80$ threshold will send us back into recession and also that oil price must remain high enough to allow investment for future production, Is the 70$ price range we have been leveled off at for the past few months an indicator of oil market manipulation? It just seems a bit too convienient to me.

Neal

Re the "oil over 4% of GDP -> recession" meme:

I'd be wary of thinking in terms of absolute levels. The thing that matters is the rate of change exceeding the ability of oil-producing nations to recirculate the money.

Thought experiment: The price of oil goes from $40 to $80. Oil producing nations expect a price of $40, and have budgeted accordingly. If the rise happens over the course of ten years, there is no problem - producer/exporter budgets expand, and the money is recirculated. There is a change in relative living standards between oil importing nations and oil exporting nations, but that's about it.

If the rise happens in a few months or less, and the price stays high while everyone expects it to collapse at any time -- does that ring a bell? -- the money just piles up in exporters' bank accounts. It's not recirculated as loans or asset purchases or increased spending. So the effect is that a significant amount of money is taken out of circulation. It's (temporarily) unavailable to be lent out. In an overheated debt-dependent economy, this constriction in lending triggers a recession. Once started, the recession can be self-feeding.

So the problem is not the price per se, it's a sudden, large, unexpected increase in returns to producers (a "shock") in an economy structured to run on debt.

On this viewpoint, the US economy could operate quite well with oil at $200 (constant 2009 dollars), if the price rose steadily over fifteen or twenty years. Fewer than five years, and there will be trouble.

One general response to any argument referring to how vast the unknowns are, to prove why you needn't worry about all the things you know running out,... of course... is

"are you kidding me??"

Here's my review of the Scientific American article:

The Scientific American (October 2009) article, "Squeezing More Oil from the Ground," claims that, "Amid warnings of a possible 'peak oil,' advanced technologies offer ways to extract every last possible drop."

The author is Leonardo Maugeri. He is, according to the bio accompanying the article, "... an economist and senior executive vice president of the Italian oil company Eni." The article is supposed to be about advanced technologies for extracting oil. It wanders off into discussions of other possible sources for liquid fuels without clearly distinguishing these from oil, creating more confusion than clarity on the subject of peak oil. The confusion is deliberate.

A key concept of the article - according to a table of "key concepts" leading off the article - is that "Forecasts that global oil production will soon start to decline and that most oil will be gone within a few decades may be overly pessimistic." He mentions in particular predictions made using the methods of M. King Hubbert, first published in 1956. These are the predictions Maugeri wants to refute.

Specifically, the article has a graph on p. 62 which is supposed to compare different predictions of peak oil. The main comparison is between the 1998 model of Campbell and Laherrere and Peter Odell's 2004 projection showing the possibilities of "full use of non-conventional oil."

According to Maugeri, Campbell and Laherrere predicted a peak in 2002, and have been proven to be wrong. The graph drawn up for this article certainly seems to show that. Too bad the comparison is illegitimate.

Ordinary crude oil, the substance referred to as 'conventional oil,' is at ordinary temperatures and pressures, a liquid. As a liquid, it flows from reservoirs into oil wells, and thence into pipelines to refineries, or to ships and then to refineries.

Even though it is possible to process coal to make a liquid fuel, it's obvious that coal is not a liquid and it is not oil. It is extracted by mining, not by drilling. It is possible to ship it by pipeline, if it is first ground into fine particles and mixed with water to form a slurry, but this is not how it is ordinarily shipped. Trucks, trains ships and barges are the normal shipping methods.

Coal is not oil. Clearly, the possibility of making fuels from coal has very little to do with peak oil.

Bitumen (the substance extracted from 'oil sands') is not a liquid and is not oil. After a processing step called 'upgrading,' it is made into a synthetic equivalent of crude oil, and this synthetic crude can be shipped by pipeline. Bitumen is extracted either by mining or by heating the reservoir.

Kerogen (the substance extracted from 'oil shales') is not a liquid and is not oil. After a processing step called 'pyrolysis,' it becomes a synthetic equivalent of crude oil, and this synthetic crude can be shipped by pipeline. Kerogen, like bitumen, is extracted either by mining or by heating the reservoir.

So-called 'heavy oil' is similarly not a liquid. It is the tar left behind in some oil fields after the crude oil is exhausted. If it is sufficiently concentrated and the reservoir is sufficiently porous, it may be extracted by some combination of heat and solvents. It is like oil, but it is certainly not conventional oil.

Conventional oil and only conventional oil is cheap oil in the sense that once extracted, it requires only refining to become the useful liquid fuels of gasoline, diesel and so on. Now, if it is being extracted from several miles beneath the surface of the ocean in an area prone to violent storms, the extraction is not cheap. However, the shipping and refining for liquid oil is just as cheap as if it were extracted from shallow reservoirs below land.

Campbell and Laherrere in their 1998 Scientific American article were predicting the peak only for conventional oil. They were very clear about this. The title of their article is "The End of Cheap oil." The subtitle of their article says, "Global production of conventional oil will begin to decline sooner than most people think, probably within 10 years." In the text of the article, the actual prediction was for an increase in the price of oil sufficient to curb demand for roughly 10 years. Then, "... by 2010 or so, many Middle Eastern nations will themselves be past the midpoint. World production will then have to fall."

The graph which Maugeri produces to illustrate how Campbell and Laherrere have been proved wrong is therefore illegitimate. Campbell and Laherrere's graph should no more be compared to Odell's than a graph of peanut butter sandwiches eaten in school should be compared to a graph of all children's lunches. All fuels for children are not the same, nor are all sources of liquid fuel for vehicles.

Meanwhile, the Campbell and Laherrere prediction of 1998 has not been proved wrong. In fact, it may not be wrong. The question is why the editors of Scientific American allowed such an illegitimate comparison to be published in their magazine. It won't do anything good for their reputation in the scientific community.

Maugeri makes much of the unreliability of predictions for the Kern River oil field. He shows a chart comparing predictions of recoverable oil about this field made in 1899, in 1942 and in 2007. Of course, the first phase of recovery was of liquid conventional oil, and the second phase is recovery of meltable tars. But in any case, predictions made in 1899 or in 1942 were not made using Hubbert's methodology.

In fact, the only predictions about the Kern River field that could have been made using Hubbert's methods are the 2007 ones. Hubbert's method did not exist before 1956, and was not generally accepted until decades later, after his 1956 prediction of America's 1970 peak oil production was demonstrated to be accurate by America's history of conventional oil production.

It's interesting that Maugeri spends so much time talking about Kern River to refute Hubbert, Campbell and Laherrere. The production history of the field shows that, with steam flooding, production of meltable tars peaked in 1985; maintained a rough plateau of production between 120,000 to 140,000 barrels per day form 1985 through 1999; and since 1999, has been steadily declining at a rate of 6% per year. In early 2009, it was producing about 80,000 barrels per day from 8000 wells - about ten barrels per day per well. The predicted remaining recoverable reserves shown in Maugeri's p. 58 illustration were predicted - by Jean Laherrere in a study he published in 2006. Laherrere used Hubbert linearization to make the prediction.

Maugeri is as selective about the facts he presents as a lawyer constructing a brief for his client. This is not how science is supposed to operate, and such an article should not be published in Scientific American.

The thrust of Maugeri's article is to soothe anxieties that the supply of fuel for our cars and trucks might be unreliable. To do this, he mixes up oil with bitumen produced from tar sands, diesel fuel made from coal, ethanol made from corn, diesel made form soybeans, and so on. He also concludes that the price range between $60 and $70 is ideal, and that he thinks much can and should be done to stabilize prices.

According to him, it's OK to continue burning these fuels for the rest of the century. He ends his article with a wave of the hand in the general direction of not "endangering the environment and climate of our planet." This is literally the final phrase of the final sentence of his article, so he does not address how burning these fuels is compatible with this goal.

Overall, Maugeri's article is intended to create confusion, not understanding. It is not science. It is speculation and propaganda aimed at propping up the idea we need not worry about our supply of transportation fuel. In short, it's bullshit.

Too many negative vibs here about the New York Times. While it's not really worth reading, it has no equal for wrapping freshly caught fish. Before you go fishing this weekend just pluck a nice fat Sunday addition out of the trash (where it belongs)and enjoy a fine day of fishing knowing that you'll get your haul home in fine shape. The glass is half full folks.

I think we all agree that we have now passed Peak Oil production. (Certainly Peak conventional oil production). What we disagree about are the implications.

I strongly believe that increases in power production, coupled with energy savings, will outstrip the annual fall in oil production. ie. I don't really believe that we have a huge problem: Although in the short term we most certainly have huge challenges!

As one small example: In the Nordic countries at the moment electricity generating capacity is growing far too fast and demand is nowhere near keeping up. Norway, Denmark, Sweden and Finland will all have huge surpluses within a very few years as wind-farms are built, hydro-electric generation capacity is extended and as nuclear power plants are built. Power cables are also being built to continental Europe to export the power. At the same time Germany and the UK are continuing to make giant investments in renewable energy which is gradually coming on-line.

Added to all this there is also the fact that the world is swimming in natural gas: And finally there are signs of a spot-market for LNG developing. This will greatly affect the European gas markets - and the disconnect between oil and gas pricing will soon become obvious.

To sum up: Peak Oil is behind us - but in the future we will struggle to find ways to use all the energy that we are going to be able to produce. The whole business of a lack of energy is complete and utter rubbish.

.......................

Example of Norway:
Current annual electrical generation: 122 TWh
Planned increase in capacity until 2020: 52 TWh

An increase of over 40% in 10 years!!! Certainly enough to power quite a few electric vehicles....

http://www.aftenposten.no/pengenedine/article3278906.ece