China’s decision on whether and when to ban cars burning gasoline and diesel could alter our view of how far we are from a peak in global oil demand, writes independent energy analyst Geoffrey Styles. Even though the likely date of such a peak is highly uncertain, the idea of an impending peak could significantly affect investments and other decisions.
A few months ago the British government made headlines when it announced it would ban new gasoline and diesel cars, starting in 2040. That move, which apparently excludes hybrid cars, is further fallout from the 2015 Dieselgate emissions-cheating scandal.
Now it appears that China is preparing to issue a similar ban. With around 30% of global new-vehicle sales, China could upend the plans and economics of the world’s fuel and automobile industries. However, it is less obvious that this would lead directly to the arrival of “peak demand” for oil, an idea that has largely displaced earlier thoughts of Peak Oil related to supply.
Fashionable
Some background is in order, because the two concepts are easy to confuse. Peak Oil, which gained considerable traction with investors and the public in the 2000s, was based on the undoubted fact that the quantity of oil in the earth’s crust is finite, at least on a human time-scale. Its proponents argued that we were nearing a geological limit on oil production, and that quite soon oil companies and OPEC nations wouldn’t be able to sustain their current production, let alone continue adding to it every year.
The presumption that such a peak was imminent has been pretty clearly refuted by the shale revolution, the first stages of which had already begun when Peak Oil was still fashionable. In fact, humanity has only extracted a small percentage of the world’s oil resources. We continue to find both additional resources and new ways to extract more from previously identified resources. Global proved oil reserves–a measure of how much can be produced economically with current technology–have more than doubled since 1980, while production (and consumption) grew by 34%.
For that matter, many of the shale plays that today produce a total of more than 4 million barrels per day had been known for decades. Petroleum engineers just didn’t see how to produce oil from them in commercial volumes and at a cost that could compete with other sources like oil fields in deep water.
Financial crisis
The first mention I heard of “peak demand” was at an IHS investment conference in 2009, when supply-focused Peak Oil was still king. At the time, it was a novel idea, since only a year earlier, oil prices crested just short of $150 per barrel on the back of surging demand and, to some extent the expectation of Peak Oil, and were only tamed by the unfolding global financial crisis.
Peak demand proposes that consumption of petroleum and its products will reach its maximum extent within a few decades, and thereafter plateau or fall. Crucially, it doesn’t depend on a single theory, but on a combination of factors that are easily observable, though still uncertain in their future progression: meaningful improvements in fuel economy, even for large vehicles; policies and regulations to decarbonize the global energy system in response to climate change; an apparent decoupling of GDP and energy consumption; and the rise of partially and fully electrified vehicles.
That brings us back to the implications of a ban on internal combustion engine (ICE) cars in China. Considering that China has accounted for roughly a third of the increase in global oil consumption since 2014, this has to be reckoned as one of the larger uncertainties about future oil demand. Even if we’re only talking about the equivalent of a couple of million barrels per day of lost demand growth by 2030, OPEC’s ongoing struggle to balance a market that has been oversupplied by less than that amount puts the potential impact for oil investment and economics into sharp relief.
China has every incentive to take this step. Its urban air pollution is on a scale that cities like London and L.A. haven’t experienced since the 1950s or 1960s. The country’s 2015 pledge to limit greenhouse gas emissions was a centerpiece, and arguably the sine qua non, of the Paris climate agreement. If that weren’t enough, the country’s dependence on oil imports is exploding in much the same way as the US’s did in the early-to-mid 2000s.
Lifecycle carbon debt
Perhaps I’m cynical to think that the last point weighs most heavily on China’s policy-makers, just as US energy debates hinged on energy security concerns until quite recently. China’s oil demand continues to grow, with over 20 million new cars and trucks reaching its roads each year, and the vast majority of them still needing gasoline or diesel fuel. Meanwhile, its oil production is going sideways, at best, as its mature oil fields decline.
Moreover, despite the country’s large unconventional oil resource potential there does not seem to be a shale light at the end of their tunnel, because most of the conditions that supported the shale revolution here don’t apply within China’s state-dominated system. What it does have is plenty of electricity, and multiple ways to generate a lot more.
Let’s concede that China’s grid electricity, on which most of those EVs would be running, is among the highest in the world in emissions of both CO2 and local air pollutants. Switching China’s new cars from gasoline and diesel to electricity won’t constitute a big environmental win, initially or perhaps ever. Even under the relatively generous assumptions used in a recent analysis on Bloomberg, it will take the average EV in China 7 years to repay its extra lifecycle carbon debt, unless the country’s electricity mix becomes much greener.
That seems realistic but almost beside the point, if China’s main aim is to shore up its worsening energy security. Nor should we ignore the industrial-policy angle in such a move. China set out to dominate the global solar equipment market and can claim success, at least based on sales. If EVs catch on as many expect, the ultimate global market for them would be a sizable multiple of last year’s $116 billion figure for global solar investment, only part of which relates to solar cell and module manufacturing, where China leads.
So let’s assume 100% EVs is a given in China from some point in the next two decades. Does that spell the end of global oil demand growth in roughly the same timeframe? A number of recent forecasts, including those from Shell and Statoil, reached that conclusion even before the news about China’s future car market.
Conventional wisdom
It’s not hard to envision this point of view solidifying into conventional wisdom, with interesting implications. Among other things, it could result in further cuts to investment in oil exploration and production that various experts including the International Energy Agency already worry could lead to another big oil price spike–well before EVs take off in a big way. It could also reduce R&D and investment in improvements to the conventional cars that will account for the large majority of car fleets and new car sales for some time to come, with adverse consequences for emissions.
When I consider these forecasts I’m struck by how early we are in this particular transition. Global EV sales are still only around 1% of global car sales, and petroleum products account for all but a small sliver of the global transportation energy market. As fellow energy blogger Robert Rapier recently noted on Forbes, “China is a long way from reining in its oil consumption growth.”
Meanwhile, the nascent competition between petroleum liquids and electricity in transportation will occur against the backdrop of a much more complex reshuffling of the entire global energy mix. The current stage of that larger transition involves the rejection of coal and its replacement by natural gas and intermittent renewable energy: wind and solar electricity.
An excellent article by John Kemp in Reuters last week placed the shift away from coal in the context of a long sequence of historical energy transitions. As he noted, “Each step in the grand energy transition has seen the dominant fuel replaced by one that is more convenient and useful.” Although there are other, compelling rationales for a move in the direction of electric vehicles backed by wind and solar power, it is extremely difficult to see that combination today in the terms Mr. Kemp used.
Pairing EVs with vehicle autonomy might create a product that is indeed more convenient and useful than current ICE cars with their effectively unlimited range and short refueling times. Perhaps it will require packaging self-driving EVs into mobility-on-demand services to beat that standard. It remains to be seen whether such a package would be technically or commercially viable, since even Tesla’s “Autopilot” feature is still a far cry from such level 4 or 5 autonomy.
And even if EVs win the battle for car consumers with sustained help from governments, electricity is still an energy carrier, not an energy source. Renewables may go a long way toward replacing coal in the next two decades, but dispensing with both coal’s 28% contribution to global primary energy consumption and oil’s 33% in such a short interval looks like a massive stretch. Before the transition to EVs is complete, we may see at least some of them running on electricity generated by gas turbines burning petroleum distillates such as kerosene. (The environmental impacts of such a linkage would be significantly lower than running a fleet of EVs on coal.)
New markets
So while China’s likely ban on internal combustion engine cars certainly looks like a key step on the path to peak oil demand, it could just as easily force oil producers to find new markets. That happened over a century ago, when a much smaller oil industry saw kerosene lose out to electric lighting and was farsighted or lucky enough to shift its focus to fueling Mr. Ford’s new automobiles.
Peak demand for oil definitely lies somewhere in our future, regardless of China’s future vehicle choices. Â However, as a long-time practitioner of scenario planning, my faith in precise forecasts extrapolated from current facts and trends is limited. Whether we are close to peak demand or, as with a global peak in oil supply, continue to push it farther off, will remain subject to uncertainties that won’t be resolved for some time. Our best indication of either peak–demand or supply–will come when we have passed it. However, the idea of an impending peak has shown great potential to affect markets and decisions in the meantime.
Editor’s Note
This article was first published on Geoffrey Styles’ Energy Outlook blog and is republished here with permission.
Bob Wallace says
I think it’s fairly safe to assume we reach peak demand within the next ten years.
We’re close (probably within five years) of manufacturing cost parity between EVs and ICEVs. That means that purchase prices for EVs should be below or only slightly higher than that of ICEVs. A $2,000 to $4,000 EV price premium is quickly repaid via fuel and maintenance cost savings.
Ten years from now we could easily see the majority of new car purchases be EVs. Buses and trucks are likely to switch sooner.
Most oil use for electricity is on islands or remote sites (far northern villages). That results in some expensive electricity and will quickly be replaced by renewables. Even oil use for backup generators will drop as storage is installed.
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I suspect you’re overestimating the time to self-driving cars.
The Tesla ‘autopilot’ crash you link has nothing to do with Tesla’s self-driving system. It was mainly a case of a driver not doing his job. The driver was supposed to backup the autopilot system so that Tesla could detect any holes in their detection system.
Watch this video of a Tesla S doing Level 5 self-driving.
https://www.cnbc.com/2016/10/20/tesla-fully-self-driving-car-watch-video-could-pick-you-up-from-across-the-country.html
The car takes itself through city streets, onto and off a highway, back on surface streets and parks itself. It stops for a pedestrian who suddenly emerges from between two parked vehicles.
This is on a route that Tesla had pre-mapped by driving their EVs is “learning/mapping” mode.
Starting a few months back every Tesla sold has been mapping wherever its driver took it. And that data is being fed back to Tesla to allow them to map the country and eventually the world.
Soon 500,000+ Teslas will be mapping over 7 billion miles of road per year. And adding another 500,000 cars and 7 billion miles of mapping per year.
José DeSouza says
Here’s another interesting take on why China is commited to investing heavily on electric mobility: geopolitics. https://journal-neo.org/2017/10/02/new-energy-vehicles-can-china-break-big-oil-s-global-order/