This article initially appeared on Nov 19, 2014 and was only available
to Peak Prosperity's enrolled users. Many of them thought it important enough
that it should be made available to the general public, which we are now
doing here.
At the essential center of the framework of the Crash Course is the almost
insultingly simple idea that endless growth on a finite planet is an
impossibility.
It is so simple it could be worked out by a clever 4 year-old. And yet it
must not be so simple because the main narrative of every economy in
every corner of the globe rests on the idea of endless, infinite growth.
Various rationalizations and mental dodges are made in people’s minds to
accommodate the principle of endless growth. Some avoid thinking of it
all together. Some think that perhaps we will escape into space, and
continue our growthful ways on some other yet-to-be named planet(s).
Most simply assume that some new wondrous technology will arise that can
allow us to avoid pesky limits.
Whatever the rationalization, none stand up well to simple math and cold
logic.
At the very heart of endless growth lies the matter of energy. To
grow forever requires infinite amounts of energy. Growth and energy are
linked in a causal way.
If you want mountains to grow higher you need tectonic forces to push them
there. If you want a child to grow taller, food energy is absolutely
required. If you want more people building more houses, driving more
cars, and wearing more clothes, you need energy, energy and more energy.
Perhaps because long-term thinking is not one of humanity’s greatest
gifts, very few can appreciate just how we’ve fashioned an entire economy and
related set of belief systems around fossil fuel energy that has only been
with us for a scant few hundred years.
Even more importantly, because we are consuming a few percent more of it
with every passing year, 75% of all fossil fuel energy has been consumed in
just the past 50 years. And we’ve been burning coal and drilling for
oil for well over 150 years…boy, those stadiums fill up quick towards the
end, don’t they?
The mistake is to think that those past 50 years are just the new normal
and the even bigger mistake is to overlook the central and essential role of
fossil fuel energy in creating the world we see around us.
The Dissipating Organism
Forget everything we know about technology and oil and gas and coal and all
the rest. Set that aside and step over into the role of being a
dispassionate observer from another planet.
As you look upon all the life forms on earth and classify each according
to it’s main role – predator, prey, scavenger, parasite, and so on – what
role would you assign to humans?
To perform this classification you would observe, very carefully, the main
activities of each species to see what they spent that majority of their time
doing.
As you watch from a great height you’d notice humans moving about, 24
hours a day, 365 days a year, in a great flurry of activity. From a
strictly biological and scientific perspective they seem to be doing one
thing with the most focused and determined energy; they are taking
concentrated forms of energy and naturally occurring elements and dispersing
them at vastly less concentrated levels.
Humans may have other features and functions, but their primary one is
'dispersal agent.'
Oils and coal and natural gas are dispersed as waste heat. Silver is
mined, refined further, and then lost atom by atom in various innumerable
processes. Rich soils with thousands of years of carefully accumulated
major and minor minerals are mined one crops at a time and then irrecoverably
diluted into the seas.
Taken together, the main purpose of humans seems to be as dispersal agents
as if Gaia and decided enough was enough and it needed a species to come
along and scatter all these concentrated pockets of energy and minerals
widely so that the process of concentration could begin anew.
As I view any of the hundreds of beautiful videos on Vimeo showing
time-lapse traffic patterns from cities around the world, I cannot
avoid seeing them as elegant expressions of a species seemingly intent on
turning fossil fuels into waste heat an carbon dioxide as fast as they
possibly can.
Downtown Las Vegas strip traffic
time-lapse from VJLoops.tv on Vimeo.
24 hours a day, 365 days a year, in every major city around the world,
there are cars and trucks jamming the roads. There is no night-time in
this story when the world rests. One side takes a few hours off while
the other side takes over.
Whether we call this progress or folly is merely an indication of which
internal belief system we happen to have installed. Let’s pretend the
value judgment is an irrelevant distraction to the main point. It
doesn’t matter at all how we judge the situation.
The main point is that 80% of all human economic, political and cultural
organization, specialization, and even collective biomass are simply
expressions of energy consumption. Whether that’s follow or progress
does not blunt the fact that currently 7.2 billion humans exist in the arrangements
they do because of fossil fuels.
Fossil fuels provide 80% of all our current energy. It’s a whopping
big number and the hundreds of quadrillions of BTUs represented by that
number will not be easily or cheaply replaced by any combination of
alternative energies that we currently could deploy. In fact,
there are exactly zero credible plans for completely replacing fossil fuels
to be found anywhere in the world. Everybody has the same plan;
continue obtaining the majority of their energy needs from fossil fuels while
growing their economies.
That’s the plan and if it does not make you uncomfortable on some level,
then I would gently suggest that some more time ought to be spent studying
energy’s role in supporting life, and especially complex arrangements of
life.
The Race
If there’s a dominant belief system installed across the developed world
it is a faith in technology.
Some of that is very well placed faith. Technology has delivered incredible
advances, efficiencies and understandings that just a few short decades ago
would have been indistinguishable from magic.
We are making advances all the time, and for as long as we have a complex
society that can support advanced technology we will continue making
advances.
There are, however, a few keys to understanding how and when we have misplaced
faith in technology.
One key point lost on many people is that technology cannot create
energy. It can only transform it. Perhaps we’ll someday be
surprised by a breakthrough in low energy nuclear reactions (LENR) or
zero-point energy or some other fantastical breakthrough, but until then we
have to go with what we know to be true.
Technology has not yet, ever, in the long history of humans, created
energy. The laws of thermodynamics rule over us like gravity itself,
always there exerting and imposing their all-encompassing embrace on every
energy transaction.
Energy can neither be created nor destroyed, only transformed. Oil
(concentrated) becomes waste heat (diffuse) + work (if harnessed).
So that’s the first limitation of technology….it cannot create the
hundreds of quadrillions of BTUs of energy we currently extract and need from
fossil fuels. It can help us use it more efficiently, find more of it,
get it out more cheaply, and other fun things, but it does not create
the energy.
The second key point is that technology is really only as useful as the
culture is advanced. There are obvious signs that our cleverness with
inventing technology exceeds our cultural maturity to use it wisely.
GPS is one of the greatest inventions ever, and I love it and use it
constantly. I doubt I would visit twisty, uninuitively laid out
Boston nearly as confidently or as often without GPS.
But it also allowed fishing trawlers to steam out 100 miles and drop their
massive and destructive drag nets precisely 6 inches to the side of where
they left off last week leaving no accidental hiding spots and fisheries were
ruined.
That is, the technology allowed us to do things that we lacked the ability
to self-regulate properly. It also has routinely had many more
unanticipated consequences than we seemed to appreciate.
The first humans with concentrated radioactive substances were about as
safe as monkeys with guns. We learned, but that came after the
accidental deaths.
As I see it, nearly all of the difficulties we have with technology are
due to the fact that we push technology into service before we really
appreciate all of its pros and cons.
It has been said that most technology was designed to address the problems
caused by prior technology, and there’s some truth to that.
I am often asked if I would be thrilled if humans did get their hands on
unlimited clean energy, and I have to give an unequivocal ‘no’ at this point
because it seems to me that we’d merely use it to continue on our present
path of growth at any cost.
Maybe in the future once we have the cultural ability to self-regulate our
seemingly insatiable desire for ‘more’ endless clean energy would be a fantastic
thing. But right now we don’t even know how to slow down a fishery
before it completely collapses, which is a trivial thing compared to managing
to live in balance with entire ecosystems.
The race, then is between technological development, cultural advancement,
and declining resources. Can we bring appropriate technologies on line
fast enough to prevent the loss of the societal complexity required to
support that same technology?
That is the question, and I’m not clear on the answer yet.
I do note that we have the capability to build light, high-mileage
vehicles but we cling to the large, heavy and fuel inefficient vehicles in
many parts of the world.
We have the capability to heat nearly all of our water using the sun but
instead we typically use fossil fuels. Not because they are cheaper
over any reasonable frame of time, but simply we don’t yet do it
differently.
That is, we lack the cultural awareness and urgency that would mandate
solar hot water heaters. We do this because we still have a narrative
of technological prowess and the recent (and temporary) shale oil victory to
comfort our core beliefs.
There are literally thousands of better technologies out there that make
economic, energy and ecological sense but we don’t really use them except at
the margins.
Faced with this observation the usual response is to say that ‘the market
will take care of that’ implying both that the market is a rational place and
that the market has enough time to work things out.
To my mind, neither assumption is correct.
The Looming Oil Crunch
The good news is that shale oil has bought us some time in the peak oil
story, but the less good news is that it bought us no time
in the Peak Cheap Oil story.
The best news for the Peak Oil story was an unprecedented decline in oil
demand brought about by the twin conditions of too much debt and
high oil prices. The loss of demand in Europe and the US handily
outpaced the gains in US shale production and therefore was the larger
contributor to balancing the supply/demand equation.
Again, we do not beat the allegedly dead horse of Peak Oil because we
cannot let go of an idea, but because it remains just as vital today as when
it was first described back in the 1990’s. Even more so because we have
more data to work with and we are that many years closer to its eventual
arrival. Adding to the urgency is the fact that no major government
besides Sweden’s has even uttered the phrase ‘peak oil’ let alone begun to
publicly plan for its eventual arrival.
There are a number of combining forces that will cause future oil price
spikes.
The current price of oil at under $80 per barrel for Brent crude is
insufficient to support any of the newest unconventional projects out
there.
Ultra deepwater, tar sands and all but the very best sweet spots in the
very best shale plays are uneconomic at current oil prices. The way we
can detect that this is true is by the slashing of capital budgets in all the
oil majors that are committed to these projects, something that began last
February even when oil was some $30 per barrel higher.
With shale oil helping to contribute to today’s lower oil prices it has
caused the cessation of development within countless other large and
expensive oil projects.
While not immediate, the loss of these projects will certain constrain
future oil supplies 2-3 years down the line.
For every single oil exporting country with the sole exception of
Russia, what is also true is that their domestic demand is rising even
as their production (in many cases) is falling.
Rising demand and falling production provide a double squeeze on exports
which are, after all, the only thing that oil importing nations really care
about. Who cares how much the world is producing? All that
matters to an importer is how much is for sale, and at what price?
On the demand side, oil demand growth continues in the developing world
and Asian countries. So much so that it’s possible to project a time in
the future when China and India alone will import 100% of all available
exported oil.
Obviously that won’t happen without some form of price war or shooting
war, but it tells us something about the trajectory we are on. If it
looks, feels and smells like there’s no serious planning for the future, then
that’s probably the case.
Recently the International Energy Agency put these same sorts of dots
together an issued a warning:
U.S. Shale Boom Masks Threats to World Oil Supply, IEA Says
Nov 1, 2014
The U.S. shale boom masks threats to global oil supply
including Middle East turmoil, conflict in Ukraine and the difficulty of
unconventional oil production beyond North America, the International
Energy Agency said.
“The global energy system is in danger of falling short of the
hopes and expectations placed upon it,” the IEA said today in its
annual World Energy Outlook. “The short-term picture of a
well-supplied oil market should not disguise the challenges that lie ahead as
reliance grows on a relatively small number of producers.”
Global oil consumption will rise to 104 million barrels a day in
2040 from 90 million barrels a day in 2013, driven by demand for
transport fuel and petrochemicals in developing countries, the report
said.
To meet that growth and replace exhausted fields will require
about $900 billion a year in investment by the 2030s as oil
companies develop fields from Canada’s oil sands to the deep waters
off Brazil, the IEA said.
(Source)
There’s a lot to unpack in those statements from the IEA, so let’s begin
with the punchline...the IEA has only projected world demand for oil to grow
from 90 million barrels per day (mbd) to 104 over the next 27 years.
That’s a rate of growth of just 0.5% per year!
Never in modern economic world history has there been a period of low
oil growth of such length. Never. My prediction is that if
we did only achieve that 0.5% rate of oil growth the world economy would be
in a shambles long before 2040.
Economic growth requires energy, oil specifically and high net
energy oil even more specifically.
This brings us to point number two. The IEA has projected that some
$900 billion a year will be required to bring on enough incremental
(expensive) oil to even achieve that paltry rate of 0.5% growth.
Let’s really look at that for a moment, shall we? If it’s going to
take $900 billion to deliver what pencils out to an additional 483,000
barrels per day of oil growth, that means the yearly incremental new flow to
the world will be 176 million barrels (= 365 * 483,000).
Hmmmm…but at $900 billion that means the world will effectively be
investing $900 billion more but getting 176 million new barrels so those
incremental barrels are costing some $5,100 each.
I know this is an odd way to look at it because in reality the $900
billion will be bringing vastly more oil to the table than the 176 M barrels,
but existing oil is declining at the same time so the net
oil to the world is going to cost a huge amount compared to historical
efforts.
The bottom line here is that when the IEA casts about and looks at the
reality of oil projects across the world they see that only a very heavy and
sustained program of investment approaching one trillion dollars a year has
any chance of (barely) offsetting existing declines.
And that new oil, excepting only whatever Iraq and Iran have left to bring
to the party, is vastly more expensive than in times past.
Which brings us to the IEA's conclusion which is that shale oil is
actually doing two things; driving the price of oil down below the
price required for this massive investment program, and masking the supply
issues by temporarily providing extra oil.
Emphasis on ‘temporary’ because the average shale field in the US
peaks about ten years after the drilling begins in earnest an all US shale
fields are currently projected to peak somewhere around 2020.
The risk the IEA sees is that shale oil, coupled to a generally weak
global economy, could conspire to keep oil prices down below the new project
threshold long enough to cause real trouble in the future.
My personal bottom line, though, is that the $900 billion yearly oil spent
to achieve an underwhelming 0.5% yearly supply increase is not going to
provide the necessary economic growth required to justify the mountains of
debt already on the books, let alone expanding that pile robustly as the
financial sector seems to need.
More subtly, but even more importantly, the new oil that $900 billion will
bring is lower net energy oil, the sort that has far less surplus contained
within it that the world can use to maintain its current complexity and
order.
Think of current oil as having 100 arbitrary units of net energy stored
within it that society can use however it wishes. Then imagine that the
new oil only has 50 units of net energy in it. As we blend
ever-increasing amounts of ‘50’ oil with ever-shrinking quantities of ‘100’
oil, the amount of net energy steadily sinks towards the ‘50’ mark.
One day people wake up and notice that they seem to be able to support
less, accomplish less, and that fewer types of jobs that pay less are
available. This is what we’d expect to see in a world of declining net
energy.
Conclusion
If technology requires a complex society to build and maintain it, and our
dreams and hopes are pinned on even more complex and useful technology in the
future, but net energy from new oil plays is shrinking, then it might not be
wise to pin all our hopes on technology. Perhaps there should be some
other plans in the works too.
Given sufficient energy sources I am convinced that technology would
simply continue to advance, and eventually our ability to live with and
manage it would catch up to the technology.
But I imagine that process taking decades, centuries even, because
cultures change slowly.
However, according to the best oil data available, we don’t have decades
and centuries to fiddle about and hope.
The US shale plays are going to peak in 2020, give or take a year or two,
and that’s practically tomorrow in the grand scheme of things. Other
relentless declines in existing fields are continuing even as you read this.
24 hours a day, 365 days a year. And that process is speeding up,
not slowing down, as the developed world joins the fray with stunning
quickness.
A lot of things could go wrong with the IEA forecasts, and they’ll
certainly get some things wrong. It’s the nature of the business.
Demand could be higher than 0.5% per year and so supplies will either fall
short of investments or prices will need to go higher to support even higher
spending. Future finds may be less robust than they imagine and
therefore more expensive. Existing fields may decline faster or slower
than they have modeled which will throw things off quite a bit.
But through all that uncertainty we can note the obvious trend; oil is
getting harder to find and more expensive to produce.
And humans, being the dissipating agents we are, will continue to gobble
up this magical substance with relentless focus every minute of every day
until it is gone.
All of this is why I continue to regret the degree to which the western
media has gone out of its way to portray the energy predicament as nothing
more than a problem which can be easily addressed through a program of
investment and being ever-more clever.
Instead I wish we could simply note that oil has no scalable substitutes,
we support billions of people by growing food with it, and that every
political, financial, portfolio, and institutional entity has the same
underlying assumption; the next twenty years are going to be exactly like the
past twenty years.
Somehow, magically, more oil will be there, it will be affordable, and
nobody will have to make any adjustments to their main habits of spending
more than they have, and consuming more next year than this year. We
can just keep borrowing more than we earn forever, and therefore current
stock and bond markets are reasonably priced.
To a scientist like myself, the energy story is everything.
If you get that, you are armed with the information you need to understand
the general direction of things.
The only thing we don’t know is what our respective cultures will choose
to preserve as we are forced to jettison various unproductive habits and
livelihoods.
As I wrote in a recent comment on the
thread on millennials being broke:
As we slip down the energy cliff, we cannot know exactly what each culture
will decide to jettison as 'unnecessary' activities. Some decided to
cut down trees and erect giant stones right to the end. A different
culture would have chosen some other activity.
The question to ask is, what are our equivalents of giant stones?
What will *not* disappear as the green area shrinks?
My best guess is that we'll cling to technology as the last things to
erect before we succumb to reality. Maybe that's just talking my own
book, as they say on Wall Street, because that would imply the internet will
be salvaged/preserved at any and every cost.
So that’s the question before us, what are our ‘giant stones?’
Answer that and you’ll know which jobs, investments, and products will be
relatively secure and which won’t.
~ Chris Martenson
