There are still
huge reserves to feed into the market and everybody has come to their senses to
exploit those reserves. Thus things are
not dire and shale oil has produced a welcome patch and employment boost for the
USA in particular. Shale oil is the short
term fix when production declines outrun major field development as is now
happening. It is not pretty but we are
in for one hundred dollar oil for a long time.
And yes ladies,
this is as good as it gets. Major
expensive reserves are coming on stream as fast as possible. Mexico can get back up to five million
barrels per day by aggressively drilling and developing and will do so. Canada will add a couple million more barrels
of oil and huge natural gas resources as well exploiting their share of the
Bakken. That all requires a pipeline or
two.
As well real
exploration of the Mackenzie basin is long overdue however unpleasant it may
be. I anticipate another Saudi Arabia
there.
Former BP
geologist: peak oil is here and it will 'break economies'
Industry expert warns of grim future of 'recession'
driven 'resource wars' at University College London lecture
A former British Petroleum (BP) geologist has warned that the age of cheap oil is long gone, bringing with it the danger of
"continuous recession" and increased risk of conflict and hunger.
At a lecture on 'Geohazards' earlier this month as
part of the postgraduate Natural Hazards for Insurers course at University College London (UCL), Dr.
Richard G. Miller, who worked for BP from 1985 before retiring in 2008, said
that official data from the InternationalEnergy Agency (IEA), US Energy Information
Administration (EIA), International Monetary Fund (IMF), among other sources, showed
that conventional oil had most likely peaked around 2008.
Dr. Miller critiqued the official industry line that
global reserves will last 53 years at current rates of consumption, pointing
out that "peaking is the result of declining production rates, not
declining reserves." Despite new discoveries and increasing reliance on
unconventional oil and gas, 37 countries are already post-peak, and global oil
production is declining at about 4.1% per year, or 3.5 million barrels a day
(b/d) per year:
[ that means
children that we must add 3.5 million barrels per year in new production –
arclein ]
"We need new production equal to a new Saudi
Arabia every 3 to 4 years to maintain and grow supply... New discoveries have not matched consumption since 1986. We are
drawing down on our reserves, even though reserves are apparently climbing
every year. Reserves are growing due to better technology in old fields,
raising the amount we can recover – but production is still falling at 4.1%
p.a. [per annum]."
Dr. Miller, who prepared annual in-house projections
of future oil supply for BP from 2000 to 2007, refers to this as the "ATM
problem" – "more money, but still limited daily withdrawals." As
a consequence: "Production of conventional liquid oil has been flat
since 2008. Growth in liquid supply since then has been largely of natural gas
liquids [NGL]- ethane, propane, butane, pentane - and oil-sand bitumen."
Dr. Miller is co-editor of a special edition of the prestigious journal,Philosophical Transactions of the Royal Society A, published this month on the future of oil supply. In an introductory paper co-authored with Dr. Steve R. Sorrel, co-director of the Sussex Energy Group at the University of Sussex in Brighton, they argue that among oil industry experts "there is a growing consensus that the era of cheap oil has passed and that we are entering a new and very different phase." They endorse the conservative conclusions of an extensive earlier study by the government-funded UK Energy Research Centre (UKERC):
"... a sustained decline in global conventional
production appears probable before 2030 and there is significant risk of this
beginning before 2020... on current evidence the inclusion of tight oil [shale oil] resources appears unlikely to significantly affect
this conclusion, partly because the resource base appears relatively
modest."
In fact, increasing dependence on shale could worsen
decline rates in the long run:
"Greater reliance upon tight oil resources
produced using hydraulic fracturing will exacerbate any rising trend in global
average decline rates, since these wells have no plateau and decline extremely
fast - for example, by 90% or more in the first 5 years."
[ What is poorly understood is that shale oil
creates flush production that generally collapses. Worse, the industry has been tight lipped
about real performance even as immediate output blossoms wonderfully. This may well be one of the great wealth
destruction exercises in history and I have no way to be sure without wadding
though reams of misleading accounting. – arclein ]
Tar sands will fare similarly, they conclude, noting
that "the Canadian oil sands will deliver only 5 mb per day by 2030, which
represents less than 6% of the IEA projection of all-liquids production by that
date."
[ it is simply
impossible to speed this process up but the reserves are great ]
"Crude oil production grew at approximately
1.5% per year between 1995 and 2005, but then plateaued with more recent
increases in liquids supply largely deriving from NGLs, oil sands and tight
oil. These trends are expected to continue... Crude oil production is heavily
concentrated in a small number of countries and a small number of giant fields,
with approximately 100 fields producing one half of global supply, 25 producing
one quarter and a single field (Ghawar in Saudi Arabia) producing approximately
7%. Most of these giant fields are relatively old, many are well past their
peak of production, most of the rest seem likely to enter decline within the
next decade or so and few new giant fields are expected to be found."
"The final peak is going to be decided by the
price - how much can we afford to pay?", Dr. Miller told me in an
interview about his work. "If we can afford to pay $150 per barrel, we
could certainly produce more given a few years of lead time for new
developments, but it would break economies again."
Miller argues that for all intents and purposes,
peak oil has arrived as conditions are such that despite volatility, prices can
never return to pre-2004 levels:
"The oil price has risen almost continuously
since 2004 to date, starting at $30. There was a great spike to $150 and then a
collapse in 2008/2009, but it has since climbed to $110 and held there. The
price rise brought a lot of new exploration and development, but these new
fields have not actually increased production by very much, due to the decline
of older fields. This is compatible with the idea that we are pretty much at
peak today. This recession is what peak feels like."
Although he is dismissive of shale oil and gas'
capacity to prevent a peak and subsequent long decline in global oil
production, Miller recognises that there is still some leeway that could bring
significant, if temporary dividends for US economic growth - though only as
"a relatively short-lived phenomenon":
"We're like a cage of lab rats that have eaten
all the cornflakes and discovered that you can eat the cardboard packets too.
Yes, we can, but... Tight oil may reach 5 or even 6 million b/d in the US,
which will hugely help the US economy, along with shale gas. Shale resources,
though, are inappropriate for more densely populated countries like the UK, because
the industrialisation of the countryside affects far more people (with far less
access to alternative natural space), and the economic benefits are spread more
thinly across more people. Tight oil production in the US is likely to peak
before 2020. There absolutely will not be enough tight oil production to
replace the US' current 9 million b/d of imports."
In turn, by prolonging global economic recession,
high oil prices may reduce demand. Peak demand in turn may maintain a longer
undulating oil production plateau:
"We are probably in peak oil today, or at least
in the foot-hills. Production could rise a little for a few years yet, but not
sufficiently to bring the price down; alternatively, continuous recession in
much of the world may keep demand essentially flat for years at the $110/bbl
price we have today. But we can't grow the supply at average past rates of
about 1.5% per year at today's prices."
The fundamental dependence of global economic growth
on cheap oil supplies suggests that as we continue into the age of expensive
oil and gas, without appropriate efforts to mitigate the impacts and transition
to a new energy system, the world faces a future of economic and geopolitical
turbulence:
"In the US, high oil prices correlate with
recessions, although not all recessions correlate with high oil prices. It does
not prove causation, but it is highly likely that when the US pays more than 4%
of its GDP for oil, or more than 10% of GDP for primary energy, the economy
declines as money is sucked into buying fuel instead of other goods and
services... A shortage of oil will affect everything in the economy. I expect
more famine, more drought, more resource wars and a steady inflation in the
energy cost of all commodities."
According to another study in
the Royal
Society journal
special edition by professor David J. Murphy of Northern Illinois University,
an expert in the role of energy in economic growth, the energy return on
investment (EROI) for global oil and gas production - the amount of energy
produced compared to the amount of energy invested to get, deliver and use that
energy - is roughly 15 and declining. For the US, EROI of oil and gas
production is 11 and declining; and for unconventional oil and biofuels is
largely less than 10. The problem is that as EROI decreases, energy prices
increase. Thus, Murphy concludes:
"... the minimum oil price needed to increase
the oil supply in the near term is at levels consistent with levels that have
induced past economic recessions. From these points, I conclude that, as the
EROI of the average barrel of oil declines, long-term economic growth will
become harder to achieve and come at an increasingly higher financial,
energetic and environmental cost."
Current EROI in the US, Miller said, is simply
"not enough to support the US infrastructure, even if America was
self-sufficient, without raising production even further than current
consumption."
In their introduction to their collection of papers
in the Royal Society journal, Miller and Sorrell point out that "most
authors" in the special edition "accept that conventional oil
resources are at an advanced stage of depletion and that liquid fuels will
become more expensive and increasingly scarce." The shale revolution can
provide only "short-term relief", but is otherwise "unlikely to
make a significant difference in the longer term."
They call for a "coordinated response" to
this challenge to mitigate the impact, including "far-reaching changes in
global transport systems." While "climate-friendly solutions to 'peak
oil' are available" they caution, these will be neither "easy"
nor "quick", and imply a model of economic development that accepts
lower levels of consumption and mobility.
In his interview with me, Richard Miller was
particularly critical of the UK government's policies, including abandoning
large-scale wind farm projects, the reduction of feed-in tariffs for renewable
energy, and support for shale gas. "The government will do anything for
the short-term economic bounce," he said, "but the consequence will
be that the UK is tied more tightly to an oil-based future, and we will pay
dearly for it."
Dr Nafeez Ahmed is executive director of the Institute for
Policy Research & Development and
author of A User's Guide to the Crisis of Civilisation: And
How to Save It among
other books. Follow him on Twitter@nafeezahmed
It is not a real problem, as Wiki lists the USA's energy usage/capita as 300GJ, like Canada's, and twice that of the EU-27.
ReplyDeleteSurely a drop to 200 wouldn't hurt, like New Zealand or South Korea.
You have to learn that climatic seasons don't mean you live at a constant temperature. You open the windows in summer and put on pullovers in winter.
Dropping America's usage back would take the pressure off all the world.