Turns out prices matter in oil production

[Surlethe]

Who knew?


I became increasingly skeptical of peak oil alarmism some time ago as I was thinking through the factors that impact oil exploration and production decisions. Hubbard's simple model assumes constant exploration and production, constant prices, and constant technology, while in reality, exploration and production decisions are based on expected future prices, interest rates, and technological feasibility of extraction. This suggests that some degree of consumption smoothing will occur as the trajectory of expected prices rises and oil producers, in response, invest in further exploration and production.

So this suggests that production will not simply peak and fall, but will plateau and only gradually decline as prices continue to rise, prompting further exploration, extraction of now-viable oil, and substitution away from geological petroleum into artificial petrochemicals, more energy-efficient geographic configurations of the economy, nuclear and green power, and other substitutes.

Basically, prices matter. This graph, of changes in US crude oil production, demonstrates why: when the price of oil increased, previously unprofitable exploration and technologies became feasible, so US production is rising again. To be sure, there are still geological constraints that will force the direction of the economy, but they are not as significant to the intermediate future as I had originally thought when first reading about peak oil.

* I say geological petroleum because at some stage we will produce petrochemicals from atmospheric CO2, e.g., Fischer-Tropsch.

[Guardsman Bass]

I assume Aerius will hit this thread sooner or later, so I might as well add that I've become skeptical about dire claims as well. Residential patterns can change a lot in as little as 2-3 decades, as with what happened in the post-World War 2 suburbanization. I'm fairly confident that we'll adjust as necessary to a different fuel mix and even different housing patterns if they prove necessary (not that they necessarily will - raise fuel prices enough, and it becomes much more profitable to install charging stations for mass-produced electric cars).

* I say geological petroleum because at some stage we will produce petrochemicals from atmospheric CO2, e.g., Fischer-Tropsch.

Don't you need a supply of hydrogen for that as well? I'm more inclined to think that we'll just get a much denser network of electric charging stations for shorter-ranged, mass-produced electric cars. More expensive petroleum makes that more attractive, and once you have the network in place most of the disadvantages of electric cars disappear (even the shorter-range, since you can just have more charging stations closer together for longer trips).

[K. A. Pital]

Energetically inefficient oil extraction, however, would be a sheer waste of humanity's scarce resources, though, and only to maintain a weird, deeply peculiar lifestyle. Though I may be wrong, and fundamentally oil byproducts will serve as an expansion of plastics production to unheard of volumes, ushering an age of unseen prosperity... Wait. That's not happening, people will just burn it in their tin cans called 'cars'.

Too bad.

Of course, it also remains to be seen whether the extraction of unconventional oil really works in the long run - the sampled years are not enough to judge.

[energiewende]

...

I think this is correct analysis. It's not like a bell curve, it's more like progressively much bigger bell curves as price increases.

However remember that higher price and greater shortage are in a market economy two ways of saying the same thing, with infinite price corresponding to zero supply. So you will always be able to buy oil, eventually at some point it can simply be converted from nuclear or solar generated electricity which is effectively infinite potential supply, but you won't actually want it for all the things you once did. Cars in the US will get smaller, more household and industrial processes will be electrified, the world will continue to turn and the sky will remain in place.

Energetically inefficient oil extraction, however, would be a sheer waste of humanity's scarce resources

No it wouldn't, because oil's primary utility is as a convenient store of energy, not a source of it. Oil is much easier to use with vehicles than coal, and while electricity would in principle be even more convenient, oil is more than an order of magnitude more energy dense than the best batteries.

Oil should and will be extracted well beyond the point that EROEI is less than 1.

[aerius]

There's several key points:

1) You're looking at the US alone.

2) The production increase comes from fracking the shit out of oil in shale formations to increase the flow rate. The actual quantity of reserves are the same, we're just sucking it out faster with a bigger straw.

3) Extraction continues to outpace new discoveries and reserve growth.

In other words this is a temporary blip, much like what happened when they started pumping oil from Alaska in the late 1970's.

[K. A. Pital]

No it wouldn't, because oil's primary utility is as a convenient store of energy, not a source of it.

No, it would, because of the car gas-guzzling culture of clinically stupid morons - that's what I said. I did not say that oil would not be extracted past EROEI of 1 - of course it would. And this fills me with great sadness.

oil is more than an order of magnitude more energy dense than the best batteries

Which is an incentive to improve batteries and leave oil byproducts for more useful things, like manufacturing plastics. But hey, whatever floats your boat - if you want to burn a non-renewable resource in your wheeled tin can just for the fun of it, since you're too dumb to actually work on solving the issue instead of just running wells dry until you can no longer extract shit and keep a culture of coal-oil Johnnies intact because that's a cultural heritage - sure, sure.

I'm not saying oil will not be extracted.

[energiewende]

oil is more than an order of magnitude more energy dense than the best batteries

Which is an incentive to improve batteries

Great, like my failure to win the lottery is incentive for me to buy more lottery tickets!

Battery technology is already advancing at fastest possible rate.

and leave oil byproducts for more useful things, like manufacturing plastics

Operating vehicles is sometimes more useful than making plastics; often much more. What do you think can be made out of plastics that's more useful than being able to drive to work, or even just across the country for shear fun of it? It's not like landfills aren't already cluttered with enough megatonnes of plastic crap as it is.

[K. A. Pital]

Battery technology is already advancing at fastest possible rate.

Of course it is. Which is good.

Operating vehicles is sometimes more useful than making plastics; often much more. What do you think can be made out of plastics that's more useful than being able to drive to work, or even just across the country for shear fun of it?

"Operating vehicles blah blah blah" combined with "than being able to drive to work, or even just across the country for shear fun of it" demonstrates your approach aptly.

It's not like landfills aren't already cluttered with enough megatonnes of plastic crap as it is.

They are, but living without cars is a lot easier than without plastics given the right infrastructure. The existence of the car serves to the rise of ugly suburbanization, where the rich are separated in well-off enclaves around the city that are only accessible using the automobile, which lessens any incentive to make cities themselves a more friendly environment for life, keeps people burning fuel even for stupidly simple things like a trip to the supermarket, etc. And all of those cars aren't just causing this; they are also dirty pieces of shit spoiling the air at every corner.

Of course, electricity would solve these issues since even current batteries are more than enough for a daily trip around the town or a visit to the superstore.

But no - let's rejoice cause we can extract more oil and forestall the downfall of oil fuel as the critical component of the dirty automobile! Hooray for more years of dirty automobiles, suck that up electrocar, we still have oil to get us going, that's so bloody fantastic.

[energiewende]

You clearly have some ideological objection to this mode of life, but it's difficult to see why it isn't superior considering only the objective criteria. Houses are larger, so are gardens, it's cheaper to build amenities and therefore there are more of them, one doesn't need to live near business districts which are generally considered undesireable, etc. I chose those examples not because they're the most trivial but because they have the largest positive impact on most peoples' actual experience of life. The ultimate purpose of the economy is to maximise quality of life, not the tonnage production of the most easily quantifiable heavy industrial goods. It is indeed a shame that some people still have to live in cramped apartments in inner cities and walk to work, but your solution is to dramatically increase the proportion of people needing to do so.

[K. A. Pital]

Yes, my solution is to dramatically worsen conditions, since then people would actually stop making life miserable for those who live in the towns by swamping the towns with cars and literally poisoning city dwellers with car fumes, slowly pushing the life out of them drop by drop. My solution is to punish the unknowning, unwitting folks who cause suffering to others then casually dismiss this as acceptable, if they are not willing to reconsider their ways.

An electric mini-car is a humane solution, but it seems that you're ideologically opposed to it. Why?

[energiewende]

Re-read the post: I am using objective criteria like sqft/person and observed preference in location. I am not appealing to any ideological agenda.

If you believe there is some externality (and CO2 is a big one, although you seem to have ignored that) it should be priced in too, but cars are not in fact turning downtown London or even LA into the shower block at Auschwitz.

[K. A. Pital]

No, of course not. One could argue that more lives have been saved by the ambulance than those lost to fumes (I haven't done the calculation myself), but ambulances are, after all, a tad different from a Hummer in purpose and use.

[madd0ct0r]

At what price point for oil will people start driving less?
I'm guessing it's inflexible in the short term, but long term...

[Singular Intellect]

As real as the Peak Oil (production) problem is, it no longer concerns me in the slightest. I used to think it was a doom and gloom scenario, then a scenario of very bumpy history until we transition fully to renewables. But for awhile now it seems it won't even register as a significant bump on the road of progress. Not that I'm complaining by any means.

[Guardsman Bass]

I do tend to think that rises in oil prices tend to get over-stated in terms of economic impact. As I've pointed out before, the inflation-adjusted price of oil went up by a factor of five in the past 15 years, and while the recession was pretty bad, it's questionable as to how much role the price of oil played in it.

[Sky Captain]

Extracting oil from less and less favorable deposits will make oil more and more energetically inefficent. Once EROEI falls below 1 oil no longer will be an energy source. Unless there are cheap nuclear and renewable power available in massive quantities extracting such oil will be impractical. If cheap power is available I bet oil will be exracted well below EROEI 1 because it will be required for plastics and long range aircraft and ships. Although synthetic or algae produced fuels could take that role if they are cheap enough. Coal to liquid fuel also is possible.
One thing is clear oil and other fossil fuels will become more expensive long term because easy to mine deposits are being depleted. However sharp sudden drop causing economic carnage is unlikely because unconventional oil deposits and various alternatives will partially make up for lost production from easy oil fields.

[Surlethe]

There's several key points:

1) You're looking at the US alone.

2) The production increase comes from fracking the shit out of oil in shale formations to increase the flow rate. The actual quantity of reserves are the same, we're just sucking it out faster with a bigger straw.

3) Extraction continues to outpace new discoveries and reserve growth.

In other words this is a temporary blip, much like what happened when they started pumping oil from Alaska in the late 1970's.

1) Of course.
2) Discoveries continue. You also need to be careful with reserves: total reserves haven't changed very much, but recoverable reserves and profitable reserves have both risen.
3) The bulk of reserve growth occurred during the '60s. Given this, it would be surprising if extraction didn't outpace total reserve growth.

My point is not that prices will conjure new geological petroleum into existence (although I expect they will eventually, literally, conjure oil out of thin air). Rather, when you add prices to the model, the production function becomes more complex than a simple logistic curve. Price signals (especially in a vibrant futures market filled with speculators) smooth peak consumption out over a long period of time and make the landing softer than Hubbard's model suggests.

As I've pointed out before, the inflation-adjusted price of oil went up by a factor of five in the past 15 years, and while the recession was pretty bad, it's questionable as to how much role the price of oil played in it.

One could argue that the high price of oil caused a backward-looking Fed to tighten in response to headline inflation concerns, which caused the financial panic. Of course, that's an institutional failing of the central bank, but the modern central banks' obsession with inflation could well make an oil plateau much rougher than it needs to be since inflation-targeting banks tighten in response to supply shocks.

[Surlethe]

Energetically inefficient oil extraction, however, would be a sheer waste of humanity's scarce resources, though, and only to maintain a weird, deeply peculiar lifestyle. Though I may be wrong, and fundamentally oil byproducts will serve as an expansion of plastics production to unheard of volumes, ushering an age of unseen prosperity... Wait. That's not happening, people will just burn it in their tin cans called 'cars'.

Too bad.

Energetically inefficient oil extraction --- negative log(ROEI), I assume you mean --- is, almost by definition, unprofitable (unless some state is using taxpayers' money to subsidize it ...). If people want to burn it in their tin cans, well, the different uses of oil are a different matter than whether oil supply responds to prices.

Of course, it also remains to be seen whether the extraction of unconventional oil really works in the long run - the sampled years are not enough to judge.

Depends on what you mean by "long run." On the scale of a century, almost certainly not; there's really only so much. On the scale of decades ... well, look to futures markets and oil company stock prices as they announce unconventional oil extraction to get a best estimate of feasibility.

However remember that higher price and greater shortage are in a market economy two ways of saying the same thing, with infinite price corresponding to zero supply. So you will always be able to buy oil, eventually at some point it can simply be converted from nuclear or solar generated electricity which is effectively infinite potential supply, but you won't actually want it for all the things you once did. Cars in the US will get smaller, more household and industrial processes will be electrified, the world will continue to turn and the sky will remain in place.

As I said, the transition process will be a combination of substituting away from oil and substituting to artificially produced petrochemicals. Lord knows there will be plenty of carbon in the atmosphere by then, ripe for atom-splitting to combine it back into long hydrocarbon chains.

[K. A. Pital]

Nah, EROEI-negative extraction can be profitable if people continue to pay for oil as a fuel.

On the scale of a century, almost certainly not; there's really only so much.

I am intending to live for a greater share of the century unless our stellar science gives me a few more years - centuries? - who knows, so it is an important question too.

[His Divine Shadow]

At what price point for oil will people start driving less?

I really drive as little as I can already and I have got as tiny & fuel efficient car as I can afford, I can't really make any more changes except quit my job and try and find one nearer to me, which is not a risk free maneuver.

I am just waiting for a practical electrical alternative to come around to reduce my costs and make living rurally in our own house more practical as well, it already is doable and we're actually moving soon. But an electric car sure would help to offset those fuel costs. The houses they build nowadays are nice examples of green building. Super efficient insulation, double or triple paned hermetically sealed windows filled with Argon, ground heat exchange pumps can provide more than half the energy a house needs for free, and that's in Finnish conditions. Add some simple solar collectors on the roof to help heat the water and we're looking at some really effective housing that practically only needs external power for lighting. For those cold days when the temps go down to like -20C or even -30C we'll have a wood burning masonry heater to take the edge off. In the summer it should work as a heatsink as well, cooling the house down without needing AC.

That's part of my personal vision of the future of finland, not giant megacities, but super efficient, mostly self-reliant hi-tech small towns and villages.

[energiewende]

No, of course not. One could argue that more lives have been saved by the ambulance than those lost to fumes (I haven't done the calculation myself), but ambulances are, after all, a tad different from a Hummer in purpose and use.

How many lives do you think are lost to car fumes (or rather, by what fraction is average life expectancy reduced)? It's kind of a bizarre objection, since this issue, to extent it may be real at all, is certainly far less severe than the CO2 problem.

Energetically inefficient oil extraction --- negative log(ROEI), I assume you mean --- is, almost by definition, unprofitable

It's not, because oil is an energy storage mechanism primarily.

http://en.wikipedia.org/wiki/Energy_den ... _materials

Yes it's wiki and yes it's not a comprehensive list, but of the things they have, what's more energy dense than gasoline? Other than nuclear bombs (but not conventional bombs!), only hydrogen, and only then by mass, not volume.

I think you know this since you predicted (in my opinion correctly) future rise of synfuel, which is guaranteed to be EROEI < 1.0 by the thermodynamic laws.

[Surlethe]

Yes, yes, yes, fair, fair, both of you: negative log(EROEI) happens when an energy source is used for storage.

[K. A. Pital]

How many lives do you think are lost to car fumes (or rather, by what fraction is average life expectancy reduced)? It's kind of a bizarre objection, since this issue, to extent it may be real at all, is certainly far less severe than the CO2 problem.

CO2 problem has claimed how many lives now? I mean, sure, that's a serious problem due to the magnitude of risk. But let's not say fumes are innocent either:
http://www.independent.co.uk/news/uk/ca ... 68798.html

[Simon_Jester]

However remember that higher price and greater shortage are in a market economy two ways of saying the same thing, with infinite price corresponding to zero supply. So you will always be able to buy oil, eventually at some point it can simply be converted from nuclear or solar generated electricity which is effectively infinite potential supply, but you won't actually want it for all the things you once did. Cars in the US will get smaller, more household and industrial processes will be electrified, the world will continue to turn and the sky will remain in place.

Personally I agree up to some point. The real problem is not the changing oil supply itself. Changing oil supply merely causes smooth changes in price.

The problem is: what is the impact on the economy when the derivative of the oil price, with respect to time, becomes very large? I submit that it would be arrogant and overconfident to assume that we can continue to model this in isolation.

Isolated supply/demand models work fine for products whose availability or nonavailability has no major second-order consequences. Say, pocket calculators- if pocket calculators suddenly got fifty times more expensive overnight, we'd find a way to get by readily enough. But for something like food or water, there may be unforeseen, nonlinear and chaotic consequences of the price getting too high, which cannot be modeled by basic economic methods.

For instance, when food prices rise to the point where many people can't earn enough to eat, something's going to change. Either people start demanding more money (the economy may or may not be able to provide it), the state intervenes (medieval rulers kept granaries for just such an emergency), or something else. Sometimes the peasants riot and storm the Bastille and the whole system gets turned inside out. Because unlike abstract blips in a simulation, they're not going to die to preserve the order of things that your supply/demand model was modeling in the first place.

And this can change very suddenly- because people must eat, they will not take a rain check on their daily food supply. It gets even worse when for whatever reason there is an actual state of famine, one where past production of food is literally not enough to ensure present supply, and there are literally not enough calories available to keep everyone alive.

This doesn't invalidate the basic price model, but it does represent a limit on that model. By analogy, there is a simple linear model for the force exerted by a spring that has been stretched some distance x:

F = k*x

Under normal conditions engineers use this all the time. But what if your spring is a Slinky, and you try to stretch it a distance of one mile? Will the spring continue to obey F=k*x? No. Other processes kick in, the force exerted by the spring becomes NON-linear, the metal begins to permanently deform, and finally breaks... after which the spring exerts no force at all.

Rapid changes in the price of food definitely have the potential to do things like this to an economy. Rapid increases in the price of oil might; it is not easy to say with certainty.

That is not a criticism of linear models, or Newtonian physics- it's just that reality is sometimes complex, and intelligent people make allowances for the places where their model breaks down.

Oil should and will be extracted well beyond the point that EROEI is less than 1.

Oil should not be extracted if the EROEI is less than 1 unless that oil is being used for some purpose other than "get energy out of it." This is just common sense. If I have a way to burn a one-pound note to get a five-pound note I'll do it in a heartbeat; the reverse is not true unless I'm a complete idiot.

Expending 1 MJ of coal/nuclear/whatever energy to extract oil that, when burned, yields 100 kJ of energy is that kind of disastrous idiocy. If it can ever be profitable, it's because a very fucking perverse incentive structure is in place. For example, because someone forgot to develop ammonia-burning car engines.

As real as the Peak Oil (production) problem is, it no longer concerns me in the slightest. I used to think it was a doom and gloom scenario, then a scenario of very bumpy history until we transition fully to renewables. But for awhile now it seems it won't even register as a significant bump on the road of progress. Not that I'm complaining by any means.

[/quote]You also think Moore's Law or something like it applies to solar power output, as I recall.

Not that I'm even arguing about that right now; I just think a man should state his assumptions.

[Steel]

You have not thought through your objection to EROEI < 1.

If the oil is going to be used in a car for example it only needs to beat the EROEI of whatever alternative fuel is available. For a concrete example consider that a current electric car has an EROEI of 0.3 at best, as batteries are that inefficient, yet they are not automatically worthless.

Even then, if the EROEI is still worse, if you need it to be used for some niche application where there is just one characteristic that it wins on (eg energy density) that makes it vastly preferable in certain applications (flight) then there is still a good reason to continue production/extraction.