The High Cost of Gas Exports - Australia

The impact of LNG exports, particularly of coal seam gas, on Australian industry continues to be the topic of debate, with one recent report warning that there it will further destroy the local manufacturing industry (already reeling from Dutch disease) - High gas prices threaten thousands of jobs, billions of dollars: industry.

A new report warns the riches promised by exporting Australian gas may have a devastating impact on local industries, particularly manufacturing. A coalition of half-a-dozen industry groups commissioned the report by Deloitte Access Economics.

The report says domestic gas prices are rapidly rising as the market links in with international prices. It warns that, if the rise goes unchecked, the manufacturing sector alone will contract by as much as $118 billion by 2021, with nearly 15,000 jobs lost. The report also finds that mining might contract by $34 billion and agriculture by $4.5 billion.

Peak Energy: The high price of gas exports

 

© 2014

US Navy Lab Turns Seawater Into Fuel

 

 

Published on May 21, 2014 • For centuries, alchemists have tried to turn lead into gold. That transmutation has long

been proven impossible, but another similar dream - turning water into fuel - seems to be achievable. Scientists at a

U.S. Naval Laboratory proved it by flying a model airplane burning re-engineered seawater. VGA'S George Putic has the story.

© 2014

Exxon Mobil's response to climate change is consummate arrogance

Monday saw the release of the latest climate report from the planet’s scientists.Predictions of famine, flood, and so on – mostly what we already knew, in even more striking language.

But Monday also saw the release of another document somewhat less expected, and probably at least as important in the ongoing battle over the future of the atmosphere and hence all of us who live in its narrow envelope.

Exxon Mobil said: 'we are confident that none of our hydrocarbon reserves are now or will become ‘stranded''

Here’s the backstory. For 18 months now some of us have been campaigning for colleges, churches, cities and the like to sell their shares in fossil fuel companies, on the grounds that their business plans call for burning far more carbon than scientists believe the planet can safely handle. It’s become the fastest growing divestment movement in history — but some have tried to reach out to the industry and reach a middle ground instead, hoping to reform them instead of simply trying to break their power.

Profound thanks are due, then, to those shareholder activists who urged “constructive engagement” with the oil, gas and coal barons.

Because those organisations, groups like As You Sow, CERES, and the Interfaith Center on Corporate Responsibility, managed in very short order to get Exxon Mobil, the leader of the fossil fuel industry, to show its cards. In fact, in a truly historic moment, Exxon Mobil turned over the whole deck — and to its credit it showed it has nothing up its sleeve, no tricky rhetoric or sleight of hand. Just endless amounts of oil and gas.

On Monday the company issued two reports, in formal response to a shareholder resolution that demanded they disclose their carbon risk and talk about how they planned to deal with the fact that they and other oil giants have many times more carbon in their collective reserves than scientists say we can safely burn.

The company said that government restrictions that would force it to keep its reserves in the ground were “highly unlikely,” and that they would not only dig them all up and burn them, but would continue to search for more gas and oil — a search that currently consumes about $100 million of its investors’ money every single day. “Based on this analysis, we are confident that none of our hydrocarbon reserves are now or will become ‘stranded,’” they said.

This is an honest reply. It is as honest as the report that emerged the same day from the world’s climate scientists, which demonstrated that if Exxon Mobil and its ilk keep their promise to dig up their reserves and burn them, then the planet will no longer function effectively.

Some of us, cynically, thought all along that this would be Exxon’s posture. The company, after all, poured millions into denying climate science when that was still possible. That’s why we’ve been calling for divestment.

We’ve never thought that there was a small flaw in their business plan that could be altered by negotiation; we’ve always thought their business plan was to keep pouring carbon into the atmosphere. And indeed Exxon’s statements are easy to translate: “We plan on overheating the planet, we think we have the political muscle to keep doing it, and we dare you to stop it.” And they’re right — unless we build a big and powerful movement, they’ll continue to dominate our political life and keep change from ever taking place.

So now, with that information clearly on the table, it’s time for college boards and foundation heads, church denominations and city mayors to act and act firmly. By divesting — by announcing that they are breaking ties with these companies — they will begin the process of politically bankrupting them. Of taking away the social license that allows them to act with such consummate arrogance, on the very day that the planet’s scientists laid bare the impact of climate change on everything from crop yields to civil wars.

It’s never fun to see one’s cynicism confirmed. But Monday was a day for reality, on the scientific front but also the political, economic, and corporate.

The only open question left is what we’re going to do about it. More

 

© 2014

The energy transition tipping point is here

In late February, Bloomberg finally addressed the most problematic issue in shale gas and tight oil wells: their incredible decline rates and diminishing prospects for drilling in the most-profitable "sweet spots" of the shale plays. I have documented that issue at length (for example, "Oil and gas price forecast for 2014," "Energy independence, or impending oil shocks?," "The murky future of U.S. shale gas," and my Financial Times critique of Leonardo Maugeri's widely heralded 2012 report).

The sources for the Bloomberg article are shockingly candid about the difficulties facing the shale sector, considering that their firms have been at the forefront of shale hype.

The vice president of integration at oil services giant Schlumberger notes that four out of every 10 frack clusters are duds. Geologist Pete Stark, a vice president of industry relations at IHS—yes, that IHS, where famous peak oil pooh-pooher Daniel Yergin is the spokesman for its CERA unit—actually said what we in the peak oil camp have been saying for years: "The decline rate is a potential show stopper after a while…You just can’t keep up with it."

The CEO of Superior Energy Services was particularly pithy: "We've drilled all the good stuff…These are very poor quality formations that I don't believe God intended for us to produce from the source rock." Source rocks, as I wrote last month, are an oil and gas "retirement party," not a revolution.

The toxic combination of rising production costs, the rapid decline rates of the wells, diminishing prospects for drilling new wells, and a drilling program so out of control that it caused a glut and destroyed profitability, have finally taken their toll.

Numerous operators are taking major write-downs against reserves. WPX Energy, an operator in the Marcellus shale gas play, and Pioneer Natural Resources, an operator in the Barnett shale gas play, each have announced balance sheet “impairments” of more than $1 billion due to low gas prices. Chesapeake Energy, Encana, Apache, Anadarko Petroleum, BP, and BHP Billiton have disclosed similar substantial reserves reductions. Occidental Petroleum, which has made the most significant attempts to frack California’s Monterey Shale, announced that it will spin off that unit to focus on its core operations—something it would not do if the Monterey prospects were good. EOG Resources, one of the top tight oil operators in the United States, recently said that it no longer expects U.S. production to rise by 1 million barrels per day (mb/d) each year, in accordance with my 2014 oil and gas price forecast.

Coal and nuclear

When I wrote “Why baseload power is doomed” and "Regulation and the decline of coal power" in 2012, the suggestion that renewables might displace baseload power sources like coal and nuclear plants was generally received with ridicule. How could "intermittent" power sources with just a few percentage points of market share possibly hurt the deeply entrenched, reliable, fully amortized infrastructure of power generation?

But look where we are today. Coal plants are being retired much faster than most observers expected. The latest projection from the U.S. Energy Information Administration (EIA) is for 60 gigawatts (GW) of coal-fired power capacity to be taken offline by 2016, more than double the retirements the agency predicted in 2012. The vast majority of the coal plants that were planned for the United States in 2007 have since been cancelled, abandoned, or put on hold, according to SourceWatch.

Nuclear power plants were also given the kibosh at an unprecedented rate last year. More nuclear plant retirements appear to be on the way. Earlier this month, utility giant Exelon, the nation’s largest owner of nuclear plants, warned that it will shut down nuclear plants if the prospects for their profitable operation don’t improve this year.

Japan has just announced a draft plan that would restart its nuclear reactors, but the plan is "vague" and, to my expert nose, stinks of political machinations. What we do know is that the country has abandoned its plans to build a next-generation "fast breeder" reactor due to mounting technical challenges and skyrocketing costs.

Grid competition

Nuclear and coal plant retirements are being driven primarily by competition from lower-cost wind, solar, and natural gas generators, and by rising operational and maintenance costs. As more renewable power is added to the grid, the economics continue to worsen for utilities clinging to old fossil-fuel generating assets (a topic I have covered at length; for example, "Designing the grid for renewables," "The next big utility transformation," "Can the utility industry survive the energy transition?" "Adapt or die - private utilities and the distributed energy juggernaut" and "The unstoppable renewable grid").

Nowhere is this more evident than in Germany, which now obtains about 25 percent of its grid power from renewables and which has the most solar power per capita in the world. I have long viewed Germany’s transition to renewables (see "Myth-busting Germany's energy transition") as a harbinger of what is to come for the rest of the developed world as we progress down the path of energy transition.

And what's to come for the utilities isn't good. Earlier this month, Reuters reported that Germany’s three largest utilities, E.ON, RWE, and EnBW are struggling with what the CEO of RWE called “the worst structural crisis in the history of energy supply.” Falling consumption and growing renewable power have cut the wholesale price of electricity by 60 percent since 2008, making it unprofitable to continue operating coal, gas and oil-fired plants. E.ON and RWE have announced intentions to close or mothball 15 GW of gas and coal-fired plants. Additionally, the three major utilities still have a combined 12 GW of nuclear plants scheduled to retire by 2020 under Germany’s nuclear phase-out program.

RWE said it will write down nearly $4 billion on those assets, but the pain doesn’t end there. Returns on invested capital at the three utilities are expected to fall from an average of 7.7 percent in 2013 to 6.5 percent in 2015, which will only increase the likelihood that pension funds and other fixed-income investors will look to exchange traditional utility company holdings for “green bonds” invested in renewable energy. The green bond sector is growing rapidly, and there's no reason to think it will slow down. Bond issuance jumped from $2 billion in 2012 to $11 billion in 2013, and the now-$15 billion market is expected to nearly double again this year.

A new report from the Rocky Mountain Institute and CohnReznick about consumers "defecting" from the grid using solar and storage systems concludes that the combination is a "real, near and present" threat to utilities. By 2025, according to the authors, millions of residential users could find it economically advantageous to give up the grid. In his excellent article on the report, Stephen Lacey notes that lithium-ion battery costs have fallen by half since 2008. With technology wunderkind Elon Musk's new announcement that his car company Tesla will raise up to $5 billion to build the world's biggest "Gigafactory" for the batteries, their costs fall even farther. At the same time, the average price of an installed solar system has fallen by 61 percent since the first quarter of 2010.

At least some people in the utility sector agree that the threat is real. Speaking in late February at the ARPA-E Energy Summit, CEO David Crane of NRG Energy suggested that the grid will be obsolete and used only for backup within a generation, calling the current system "shockingly stupid."

Non-hydro renewables are outpacing nuclear and fossil fuel capacity additions in much of the world, wreaking havoc with the incumbent utilities' business models. The value of Europe's top 20 utilities has been halved since 2008, and their credit ratings have been downgraded. According to The Economist, utilities have been the worst-performing sector in the Morgan Stanley index of global share prices. Only utilities nimble enough to adopt new revenue models providing a range of services and service levels, including efficiency and self-generation, will survive.

In addition to distributed solar systems, utility-scale renewable power plants are popping up around the world like spring daisies. Ivanpah, the world's largest solar "power tower" at 392 megawatts (MW), just went online in Nevada. Aura Solar I, the largest solar farm in Latin America at 30 MW, is under construction in Mexico and will replace an old oil-fired power plant. India just opened its largest solar power plant to date, the 130 MW Welspun Solar MP project. Solar is increasingly seen as the best way to provide electricity to power-impoverished parts of the world, and growth is expected to be stunning in Latin America, India and Africa.

Renewable energy now supplies 23 percent of global electricity generation, according to the National Renewable Energy Laboratory, with capacity having doubled from 2000 to 2012. If that growth rate continues, it could become the dominant source of electricity by the next decade.

Environmental disasters

Faltering productivity, falling profits, poor economics and increasing competition from power plants running on free fuel aren't the only problems facing the fossil-fuels complex. It has also been the locus of increasingly frequent environmental disasters.

On Feb. 22, a barge hauling oil collided with a towboat and spilled an estimated31,500 gallons of light crude into the Mississippi River, closing 65 miles of the waterway for two days.

More waterborne spills are to be expected along with more exploding trains as crude oil from sources like the Bakken shale seeks alternative routes to market while the Keystone XL pipeline continues to fight an uphill political battle. According to the Association of American Railroads, the number of tank cars shipping oil jumped from about 10,000 in 2009 to more than 230,000 in 2012, and more oil spilled from trains in 2013 than in the previous four decades combined.

Federal regulators issued emergency rules on Feb. 25 requiring Bakken crude to undergo testing to see if it is too flammable to be moved safely by rail, but I am not confident this measure will eliminate the risk. Light, tight oil from U.S. shales tends to contain more light molecules such as natural gas liquids than conventional U.S. crude grades, and is more volatile.

Feb. 11 will go down in history as a marquee bad day for fossil fuels, on which 100,000 gallons of coal slurry spilled into a creek in West Virginia; a natural gas well in Dilliner, Pa., exploded (and burned for two weeks before it was put out); and a natural gas pipeline ruptured and exploded in Tioga, ND. Two days later, another natural gas line exploded in the town of Knifely, Ky., igniting multiple fires and destroying several homes, barns, and cars. The same day, another train carrying crude oil derailed near Pittsburgh, spilling between 3,000 and 7,500 gallons of crude oil.

And don't forget the spill of 10,000 gallons of toxic chemicals used in coal processing from a leaking tank in West Virginia in early January, which sickened residents of Charleston and rendered its water supply unusable.

No return

At this point you may think, "Well, this is all very interesting, Chris, but why should we believe we've reached some sort of tipping point in energy transition?"

To which I would say, ask yourself: Is any of this reversible?

Is there any reason to think the world will turn its back on plummeting costs for solar systems, batteries, and wind turbines, and revert back to nuclear and coal?

Is there any reason to think we won't see more ruptures and spills from oil and gas pipelines?

What about the more than 1,300 coal-ash waste sites scattered across the United States, of which about half are no longer used and some are lacking adequate liners? How confident are we that authorities will suddenly find the will, after decades of neglect, to ensure that they'll not cause further contamination after damaging drinking water supplies in at least 67 instances so far, such that we feel confident about continuing to rely on coal power?

Like the disastrous natural gas pipeline that exploded in 2010 and turned an entire neighborhood in San Bruno, Calif., into a raging inferno, coal-ash waste sites are but one part of a deep and growing problem shot through the entire fabric of America: aging infrastructure and deferred maintenance. President Obama just outlined his vision for a $302 billion, four-year program of investment in transportation, but that's just a drop in the bucket, and it's only for transportation.

Is there any reason to think citizens will brush off the death, destruction, environmental contamination of these disasters—many of them happening in the backyards of rural, red-state voters—and not take a second look at clean power?

Is there any reason to believe utilities will swallow several trillion dollars worth of stranded assets and embrace new business models en masse? Or is it more likely that those that can will simply adopt solar, storage systems, and other measures that ultimately give them cheaper and more reliable power, particularly in the face of increasingly frequent climate-related disasters that take out their grid power for days or weeks?

Is there any reason to think the billions of people in the world who still lack reliable electric power will continue to rely on filthy diesel generators and kerosene lanterns as the price of oil continues to rise? Or are they more likely to adopt alternatives like the SolarAid solar lanterns, of which half a million have been sold across Africa in the past six months alone? (Here's a hint: Nobody who has one wants to go back to their kerosene lantern.) Founder Jeremy Leggett of SunnyMoney, who created the SolarAid lanterns, intends to sell 50 million of them across Africa by 2020.

Is there any reason to believe solar and wind will not continue to be the preferred way to bring power to the developing world, when their fuel is free and conventional alternatives are getting scarcer and more expensive?

Is there any reason a homeowner might not think about putting a solar system on his or her roof, without taking a single dollar out of his or her pocket, and using it to charge up an electric vehicle instead of buying gasoline?

Is there any reason to think that drilling for shale gas and tight oil in the United States will suddenly resume its former rapid growth rates, when new well locations are getting harder to find, investment by the oil and gas companies is being slashed, share prices are falling, reserves are getting taken off balance sheets and investors are getting nervous?

I don't think so. All of these trends have been developing for decades, and new data surfacing daily only reinforces them. More

 

© 2014

Solar Report Stunner: Unsubsidized ‘Grid Parity Has Been Reached In India’, Italy–With More Countries Coming in 2014

Deutsche Bank just released new analyses concluding that global solar market will become sustainable on its own terms by the end of 2014, no longer needing subsidies to continue performing

The German-based bank said that rooftop solar is looking especially robust, and sees strong demand in solar markets in India, China, Britain, Germany, India, and the United States. As a result, Deutsche Bank actually increased its forecast for solar demand in 2013 to 30 gigawatts — a 20 percent increase over 2012.

Here’s Renew Economy with a summary of Deutsche Banks’s logic:

The key for Deutsche is the emergence of unsubsidised markets in many key countries. It points, for instance, to India, where despite delays in the national solar program, huge demand for state based schemes has produced very competitive tenders, in the [12 cents per kilowatt hour] range. Given the country’s high solar radiation profile and high electricity prices paid by industrial customers, it says several conglomerates are considering large scale implementation of solar for self consumption.

“Grid parity has been reached in India even despite the high cost of capital of around 10-12 percent,” Deutsche Bank notes, and also despite a slight rise in module prices of [3 to 5 cents per kilowatt] in recent months (good for manufacturers).

Italy is another country that appears to be at grid parity, where several developers are under advanced discussions to develop unsubsidized projects in Southern Italy. Deutsche Bank says that for small commercial enterprises that can achieve 50 percent or more self consumption, solar is competitive with grid electricity in most parts of Italy, and commercial businesses in Germany that have the load profile to achieve up to 90 percent self consumption are also finding solar as an attractive source of power generation.

Deutsche bank says demand expected in subsidised markets such as Japan and the UK, including Northern Ireland, is expected to be strong, the US is likely to introduce favourable legislation, including giving solar installations the same status as real estate investment trusts, strong pipelines in Africa and the Middle east, and unexpectedly strong demand in countries such as Mexico and Caribbean nations means that its forecasts for the year are likely to rise.

As Renew Economy also points out, this is the third report in the past month anticipating a bright future for the global solar market: UBS released a report that concluded an “unsubsidized solar revolution” was in the works, “Thanks to significant cost reductions and rising retail tariffs, households and commercial users are set to install solar systems to reduce electricity bills – without any subsidies.” And Macquarie Group argued that costs for rooftop solar in Germany have fallen so far that even with subsidy cuts “solar installations could continue at a torrid pace.”

Here in America, solar power installations boomed over the course of 2011 and 2012, even as the price of solar power systems continued to plunge. To a large extent, the American solar boom has been driven by third party leasing agreements — which are heavily involved in rooftop installation.

Meanwhile, on the international scene, the cost of manufacturing solar panels in China is expected to drop to an all-new low of 42 cents per watt in 2015, and power generated from solar is predicted to undercut that produced by both coal and most forms of natural gas within a decade. More

 

© 2014

Peak Oil becomes an Issue Again after the IEA Revised its Predictions

Among the big energy stories of 2013, “peak oil” -- the once-popular notion that worldwide oil production would soon reach a maximum level and begin an irreversible decline -- was thoroughly discredited. The explosive development of shale oil and other unconventional fuels in the United States helped put it in its grave.

As the year went on, the eulogies came in fast and furious. “Today, it is probably safe to say we have slayed ‘peak oil’ once and for all, thanks to the combination of new shale oil and gas production techniques,” declared Rob Wile, an energy and economics reporter for Business Insider. Similar comments from energy experts were commonplace, prompting an R.I.P. headline at Time.com announcing, “Peak Oil is Dead.”

Not so fast, though. The present round of eulogies brings to mind the Mark Twain’s famous line: “The reports of my death have been greatly exaggerated.” Before obits for peak oil theory pile up too high, let's take a careful look at these assertions. Fortunately, the International Energy Agency (IEA), the Paris-based research arm of the major industrialized powers, recently did just that -- and the results were unexpected. While not exactly reinstalling peak oil on its throne, it did make clear that much of the talk of a perpetual gusher of American shale oil is greatly exaggerated. The exploitation of those shale reserves may delay the onset of peak oil for a year or so, the agency’s experts noted, but the long-term picture “has not changed much with the arrival of [shale oil].”

The IEA’s take on this subject is especially noteworthy because its assertion only a year earlier that the U.S. would overtake Saudi Arabia as the world’s number one oil producer sparked the “peak oil is dead” deluge in the first place. Writing in the2012 edition of its World Energy Outlook, the agency claimed not only that “the United States is projected to become the largest global oil producer” by around 2020, but also that with U.S. shale production and Canadian tar sands coming online, “North America becomes a net oil exporter around 2030.”

That November 2012 report highlighted the use of advanced production technologies -- notably horizontal drilling and hydraulic fracturing (“fracking”) -- to extract oil and natural gas from once inaccessible rock, especially shale. It also covered the accelerating exploitation of Canada’s bitumen (tar sands or oil sands), another resource previously considered too forbidding to be economical to develop. With the output of these and other “unconventional” fuels set to explode in the years ahead, the report then suggested, the long awaited peak of world oil production could be pushed far into the future.

The release of the 2012 edition of World Energy Outlook triggered a global frenzy of speculative reporting, much of it announcing a new era of American energy abundance. “Saudi America” was the headline over one such hosanna in the Wall Street Journal. Citing the new IEA study, that paper heralded a coming “U.S. energy boom” driven by “technological innovation and risk-taking funded by private capital.” From then on, American energy analysts spoke rapturously of the capabilities of a set of new extractive technologies, especially fracking, to unlock oil and natural gas from hitherto inaccessible shale formations. “This is a real energy revolution,” the Journal crowed.

But that was then. The most recent edition of World Energy Outlook, published this past November, was a lot more circumspect. Yes, shale oil, tar sands, and other unconventional fuels will add to global supplies in the years ahead, and, yes, technology will help prolong the life of petroleum. Nonetheless, it’s easy to forget that we are also witnessing the wholesale depletion of the world’s existing oil fields and so all these increases in shale output must be balanced against declines in conventional production. Under ideal circumstances -- high levels of investment, continuing technological progress, adequate demand and prices -- it might be possible to avert an imminent peak in worldwide production, but as the latest IEA report makes clear, there is no guarantee whatsoever that this will occur.

Inching Toward the Peak

Before plunging deeper into the IEA’s assessment, let’s take a quick look at peak oil theory itself.

As developed in the 1950s by petroleum geologist M. King Hubbert, peak oil theory holds that any individual oil field (or oil-producing country) will experience a high rate of production growth during initial development, when drills are first inserted into a oil-bearing reservoir. Later, growth will slow, as the most readily accessible resources have been drained and a greater reliance has to be placed on less productive deposits. At this point -- usually when about half the resources in the reservoir (or country) have been extracted -- daily output reaches a maximum, or “peak,” level and then begins to subside. Of course, the field or fields will continue to produce even after peaking, but ever more effort and expense will be required to extract what remains. Eventually, the cost of production will exceed the proceeds from sales, and extraction will be terminated.

Related article: Kashagan, Down but not Out

For Hubbert and his followers, the rise and decline of oil fields is an inevitable consequence of natural forces: oil exists in pressurized underground reservoirs and so will be forced up to the surface when a drill is inserted into the ground. However, once a significant share of the resources in that reservoir has been extracted, the field’s pressure will drop and artificial means -- water, gas, or chemical insertion -- will be needed to restore pressure and sustain production. Sooner or later, such means become prohibitively expensive.

Peak oil theory also holds that what is true of an individual field or set of fields is true of the world as a whole. Until about 2005, it did indeed appear that the globe was edging ever closer to a peak in daily oil output, as Hubbert’s followers had long predicted. (He died in 1989.) Several recent developments have, however,raised questions about the accuracy of the theory. In particular, major private oil companies have taken to employing advanced technologies to increase the output of the reservoirs under their control, extending the lifetime of existing fields through the use of what’s called “enhanced oil recovery,” or EOR. They’ve also used new methods to exploit fields once considered inaccessible in places like the Arctic and deep oceanic waters, thereby opening up the possibility of a most un-Hubbertian future.

In developing these new technologies, the privately owned “international oil companies” (IOCs) were seeking to overcome their principal handicap: most of the world’s “easy oil” -- the stuff Hubbert focused on that comes gushing out of the ground whenever a drill is inserted -- has already been consumed or is controlled by state-owned “national oil companies” (NOCs), including Saudi Aramco, the National Iranian Oil Company, and the Kuwait National Petroleum Company, among others. According to the IEA, such state companies control about 80% of the world’s known petroleum reserves, leaving relatively little for the IOCs to exploit.

To increase output from the limited reserves still under their control -- mostly located in North America, the Arctic, and adjacent waters -- the private firms have been working hard to develop techniques to exploit “tough oil.” In this, they have largely succeeded: they are now bringing new petroleum streams into the marketplace and, in doing so, have shaken the foundations of peak oil theory.

Those who say that “peak oil is dead” cite just this combination of factors. By extending the lifetime of existing fields through EOR and adding entire new sources of oil, the global supply can be expanded indefinitely. As a result, they claim, the world possesses a “relatively boundless supply” of oil (and natural gas). This, for instance, was the way Barry Smitherman of the Texas Railroad Commission (which regulates that state’s oil industry) described the global situation at a recent meeting of the Society of Exploration Geophysicists.

Peak Technology

In place of peak oil, then, we have a new theory that as yet has no name but might be called techno-dynamism. There is, this theory holds, no physical limit to the global supply of oil so long as the energy industry is prepared to, and allowed to, apply its technological wizardry to the task of finding and producing more of it. Daniel Yergin, author of the industry classics, The Prize and The Quest, is a key proponent of this theory. He recently summed up the situation this way: “Advances in technology take resources that were not physically accessible and turn them into recoverable reserves.” As a result, he added, “estimates of the total global stock of oil keep growing.”

From this perspective, the world supply of petroleum is essentially boundless. In addition to “conventional” oil -- the sort that comes gushing out of the ground -- the IEA identifies six other potential streams of petroleum liquids: natural gas liquids; tar sands and extra-heavy oil; kerogen oil (petroleum solids derived from shale that must be melted to become usable); shale oil; coal-to-liquids (CTL); andgas-to-liquids (GTL). Together, these “unconventional” streams could theoretically add several trillion barrels of potentially recoverable petroleum to the global supply, conceivably extending the Oil Age hundreds of years into the future (and in the process, via climate change, turning the planet into an uninhabitable desert).

But just as peak oil had serious limitations, so, too, does techno-dynamism. At its core is a belief that rising world oil demand will continue to drive the increasingly costly investments in new technologies required to exploit the remaining hard-to-get petroleum resources. As suggested in the 2013 edition of the IEA’s World Energy Outlook, however, this belief should be treated with considerable skepticism.

Among the principal challenges to the theory are these:

1. Increasing Technology Costs: While the costs of developing a resource normally decline over time as industry gains experience with the technologies involved, Hubbert's law of depletion doesn’t go away. In other words, oil firms invariably develop the easiest “tough oil” resources first, leaving the toughest (and most costly) for later. For example, the exploitation of Canada’s tar sands began with the strip-mining of deposits close to the surface. Because those are becoming exhausted, however, energy firms are now going after deep-underground reserves using far costlier technologies. Likewise, many of the most abundant shale oil deposits in North Dakota have now been depleted, requiring an increasing pace of drilling to maintain production levels. As a result, the IEA reports, the cost of developing new petroleum resources will continually increase: up to $80 per barrel for oil obtained using advanced EOR techniques, $90 per barrel for tar sands and extra-heavy oil, $100 or more for kerogen and Arctic oil, and $110 for CTL and GTL. The market may not, however, be able to sustain levels this high, putting such investments in doubt.

2. Growing Political and Environmental Risk: By definition, tough oil reserves are located in problematic areas. For example, an estimated 13% of the world’s undiscovered oil lies in the Arctic, along with 30% of its untapped natural gas. The environmental risks associated with their exploitation under the worst of weather conditions imaginable will quickly become more evident -- and so, faced with the rising potential for catastrophic spills in a melting Arctic, expect a commensurate increase in political opposition to such drilling. In fact, a recent increase has sparked protests in both Alaska and Russia, including the much-publicized September 2013 attempt by activists from Greenpeace to scale a Russian offshore oil platform -- an action that led to their seizure and arrest by Russian commandos. Similarly, expanded fracking operations have provoked a steady increase in anti-fracking activism. In response to such protests and other factors, oil firms are being forced to adopt increasingly stringent environmental protections, pumping up the cost of production further.

Related article: Buffett Looks at Pipelines after North Dakota Train Wreck

3. Climate-Related Demand Reduction: The techno-optimist outlook assumes that oil demand will keep rising, prompting investors to provide the added funds needed to develop the technologies required. However, as the effects of rampant climate change accelerate, more and more polities are likely to try to impose curbs of one sort or another on oil consumption, suppressing demand -- and so discouraging investment. This is already happening in the United States, where mandated increases in vehicle fuel-efficiency standards are expected to significantly reduce oil consumption. Future “demand destruction” of this sort is bound to impose a downward pressure on oil prices, diminishing the inclination of investors to finance costly new development projects.

Combine these three factors, and it is possible to conceive of a “technology peak” not unlike the peak in oil output originally envisioned by M. King Hubbert. Such a techno-peak is likely to occur when the “easy” sources of “tough” oil have been depleted, opponents of fracking and other objectionable forms of production have imposed strict (and costly) environmental regulations on drilling operations, and global demand has dropped below a level sufficient to justify investment in costly extractive operations. At that point, global oil production will decline even if supplies are “boundless” and technology is still capable of unlocking more oil every year.

Peak Oil Reconsidered

Peak oil theory, as originally conceived by Hubbert and his followers, was largely governed by natural forces. As we have seen, however, these can be overpowered by the application of increasingly sophisticated technology. Reservoirs of energy once considered inaccessible can be brought into production, and others once deemed exhausted can be returned to production; rather than being finite, the world’s petroleum base now appears virtually inexhaustible.

Does this mean that global oil output will continue rising, year after year, without ever reaching a peak? That appears unlikely. What seems far more probable is that we will see a slow tapering of output over the next decade or two as costs of production rise and climate change -- along with opposition to the path chosen by the energy giants -- gains momentum. Eventually, the forces tending to reduce supply will overpower those favoring higher output, and a peak in production will indeed result, even if not due to natural forces alone.

Such an outcome is, in fact, envisioned in one of three possible energy scenariosthe IEA’s mainstream experts lay out in the latest edition of World Energy Outlook. The first assumes no change in government policies over the next 25 years and sees world oil supply rising from 87 to 110 million barrels per day by 2035; the second assumes some effort to curb carbon emissions and so projects output reaching “only” 101 million barrels per day by the end of the survey period.

It’s the third trajectory, the “450 Scenario,” that should raise eyebrows. It assumes that momentum develops for a global drive to keep greenhouse gas emissions below 450 parts per million -- the maximum level at which it might be possible to prevent global average temperatures from rising above 2 degrees Celsius (and so cause catastrophic climate effects). As a result, it foresees a peak in global oil output occurring around 2020 at about 91 million barrels per day, with a decline to 78 million barrels by 2035.

It would be premature to suggest that the “450 Scenario” will be the immediate roadmap for humanity, since it’s clear enough that, for the moment, we are on a highway to hell that combines the IEA’s first two scenarios. Bear in mind, moreover, that many scientists believe a global temperature increase of even 2 degrees Celsius would be enough to produce catastrophic climate effects. But as the effects of climate change become more pronounced in our lives, count on one thing: the clamor for government action will grow more intense, and so eventually we’re likely to see some variation of the 450 Scenario take shape. In the process, the world’s demand for oil will be sharply constricted, eliminating the incentive to invest in costly new production schemes.

The bottom line: global peak oil remains in our future, even if not purely for the reasons given by Hubbert and his followers. With the gradual disappearance of “easy” oil, the major private firms are being forced to exploit increasingly tough, hard-to-reach reserves, thereby driving up the cost of production and potentially discouraging new investment at a time when climate change and environmental activism are on the rise. More

Where would you rather live? In a clean sunny environment?

Or here in the midst of an unhealthy shale oil environment.