The “energy transition” from hydrocarbons to renewables and electrification is at the forefront of policy debates nowadays. But the last 18 months have shown this undertaking to be more challenging and complex than one would think just from studying the graphs that appear in many scenarios. Even in the United States and Europe, which have adopted massive initiatives (such as the Inflation Reduction Act and RePowerEU) to move things along, the development, deployment, and scaling up of the new technologies on which the transition ultimately depends will be determined only over time.
The term “energy transition” suggests that we are simply taking one more step in the journey that began centuries ago with the Industrial Revolution. But in examining previous energy transitions for my book The New Map, I was struck by how different this one is. Whereas technology and economic advantage drove earlier transitions, public policy is now the most important factor.
Moreover, previous energy transitions unfolded over the course of a century or more, and they did not wholly displace the incumbent technologies. Oil overtook coal as the world’s top energy source in the 1960s, yet we now use three times more coal than we did back then, with global consumption hitting a record high in 2022.
By contrast, today’s transition is intended to unfold in little more than a quarter-century and not be additive. Given the scale of what is envisioned, some worry that macroeconomic analysis has been given insufficient attention in the policy-planning process. In a 2021 paper for the Peterson Institute for International Economics, the French economist Jean Pisani-Ferry notes that moving too rapidly to net-zero emissions could precipitate “an adverse supply shock – very much like the shocks of the 1970s.” He warns that a precipitous transition “is unlikely to be benign and policymakers should get ready for tough choices.”
Developments since energy markets began to tighten in the late summer of 2021 point to four big challenges to watch out for. First, owing largely to the disruptions caused by Russia’s war in Ukraine, energy security has become a top priority again. For the most part, keeping the lights on and factories operating still requires hydrocarbons, so energy security means ensuring adequate and reasonably priced supplies and insulation from geopolitical risk and economic hardship.
Even with climate change remaining a central focus, US President Joe Biden administration’s has urged domestic companies to increase their oil production and released supplies from the Strategic Petroleum Reserve at a far greater scale than any previous administration. In Germany, the Greens in the governing coalition have spearheaded the development of the country’s capacity to import liquefied natural gas, with the first deliveries of LNG from the US arriving this month through infrastructure built in less than 200 days. Energy security is not something that is going to be assumed away in the years ahead.
The second challenge concerns scale. Today’s $100 trillion world economy depends on hydrocarbons for over 80% of its energy, and nothing as massive and complex as the global energy system can be transformed easily. In an important new book, How The World Really Works, noted energy scholar Vaclav Smil argues that the four essential “pillars of modern civilization” are cement, steel, plastics, and ammonia (for fertilizer), each of which is heavily dependent on the existing energy system.
Given these starting conditions, will solutions like veganism help? Smil points out that five tablespoons of petroleum are embodied in the system that gets a single tomato from cultivation in Spain (including the required fertilizer) to a dinner table in London. Yes, energy efficiency could be improved. But the main effects will show up in developed countries, rather than in the developing world, where 80% of all people live, and where rising incomes will drive up energy demand.
That points to the third challenge: the new North-South divide. In the Global North – primarily Western Europe and North America – climate change is at the top of the policy agenda. But in the Global South, that priority coexists with other critical priorities, such as boosting economic growth, reducing poverty, and improving health by targeting indoor air pollution from burning wood and waste. Hence, for many in the developing world, “energy transition” means moving from wood and waste to liquefied petroleum gas.
This divide was vividly illustrated last year when the European Parliament passed a resolution denouncing a proposed oil pipeline running from Uganda through Tanzania to the Indian Ocean. MEPs objected that the project would adversely affect the climate, the environment, and “human rights.” Yet they cast their votes from a body located in France and Belgium, where per capita income (in current dollars) is, respectively, 50 times and 60 times greater than in Uganda, where the pipeline is seen as a foundation for economic development. The resolution provoked a furious reaction. The deputy speaker of Uganda’s parliament denounced the Europeans for exhibiting “the highest level of neocolonialism and imperialism against the sovereignty of Uganda and Tanzania.”
The fourth challenge concerns the material requirements of the energy transition. I see this as the shift from “Big Oil” to “Big Shovels” – that is, from drilling for oil and gas to mining the minerals for which demand will increase enormously in a world that becomes more electrified.
In a new S&P study, The Future of Copper, we calculate that the supply of “the metal of electrification” will have to double to support the world’s 2050 climate objectives. Recently, a host of authorities – including the US and Japanese governments, the European Union, the World Bank, the International Monetary Fund, and the International Energy Agency – have all published alarming reports about the expected exponential growth in demand for minerals such as lithium and cobalt.
But alarm itself will not open major new mines, a process estimated to take 16-25 years and which faces ever-more complex permitting requirements around the world. In some key resource countries, governments are openly hostile to mining.
So, while the direction of the energy transition is clear, policymakers and the public must recognize the challenges that it entails. A deeper and more realistic understanding of the complex issues that need to be addressed is essential as the effort to achieve the transition’s goals proceeds.
Daniel Yergin, Vice Chairman of S&P Global, is the author of The New Map: Energy, Climate, and the Clash of Nations (Penguin, 2021). Copyright: Project Syndicate, 2023, published here with permission.
23 Comments
Given these starting conditions, will solutions like veganism help? Smil points out that five tablespoons of petroleum are embodied in the system that gets a single tomato from cultivation in Spain (including the required fertilizer) to a dinner table in London.
Thats an amazing stat.... great video of why this is a hard problem to solve down on a personal level
https://twitter.com/i/status/1614260315453292544
there are two ways of viewing this.... there are not enough resources to support current 1st world lifestyles, or there are too many people now competing for too few resources....
Great article. Chris Trotter could do a good article to carry through the world wide problem as somewhat young not overly experienced and dare I say exuberant politicians foist some pretty unrealistic time frames and policy on us mere mortals who have lived thru oil shocks, inflation and constantly changing (more often than not upward) interest rates. It would seem that "Sleepy Joe" is not included in this right now.
The simple reality is that living standards of developed countries are going to fall, the only question is when this starts and how unpleasant the trajectory down ends up being - don't forget the political angle with Strong Men like Trump promising to magically make everything better and getting elected on the back of these promises, nor the prospect of resource wars.
In all of human history to date, 700 million tons of copper have been mined.
To complete the envisioned switch to renewable sources of electricity (wind turbines, solar panels, electric cars) equivalent to today's current electricity generation by 2050 is estimated to require another 700 million tons of copper.
It will not happen, not least because we simply don't have the fuel or the capital or labour required to do that amount of mining, nor is it clear that there is that much copper left in the ground.
Had the world not gone stupid about nuclear power in the 60s and 70s, we could be living in a world that had 10,000 nuclear reactors providing low-emission electricity that was "too cheap to meter". Instead environmentalists (and others) placed ridiculous safety standards on top of nuclear plants - which no other industry has to contend with - and so the world's electricity is primarily generated by coal. Which is warming the planet and which we recognise we have to move away from.
My thoughts on your first paragraph, which I feel you instinctively know, is that it is not a question of when living standards start to fall - as they already have! The unpleasantness of the trajectory will naturally be based on the speed of the descent and on a personal level, how comfortable you are living with less tomorrow than you have today. A lot of people don't seem to be very accommodating of having less.
Thanks for your post, this topic and its tendrils has grabbed my attention in the last few years.
It's a pity PDK doesn't post on interest dot co anymore...
Yes. Almost everyone is underestimating the challenge ahead. Many now understand that we need to stop our reliance on fossil fuels not only due to climate change and the pollution issues, but also due to the fact that fossil fuel supply is limited. Already new supply is becoming more challenging to find and extract and the EROEI equation will mean energy costs will start increasing substantially over the next decade. This will be accelerated by supply struggling to meet global demand. Alternative renewable energy (e.g. wind and solar) relies on fossil fuels to mine the minerals, manufacture the components, build and maintain. Plus most renewables focus on the generation of electricity (so no easy solution for other energy needs). In addition, there are finite limits of the essential minerals renewable energy needs, many of which will be hit as the world tries to transition. The Great Simplification website (PDK use to post links) has numerous experts speaking on the above topics that provide a great overview of these various challenges. https://www.thegreatsimplification.com/episodes
Traditional economics often appears detached from the physical world. Economists have grossly underestimated the impacts and costs of the near future warming world in terms of storm damage to infrastructure, the impact of floods/droughts/fires/loss of glaciers, etc, on food and water supply, and the potential for climate tipping points leading to faster uncontrolled warming. Plus earths ecosystems are already struggling due to population overshoot (just look at international fish stocks as an example). It will be hard for economies to rely on growth if their citizens are hungry. The only realistic path to a soft landing is everyone accepting and learning to live with less. Unfortunately our societies are built around the need for growth, so I'm a bit pessimistic about a gentle slow down / degrowth economy vs a potential collapse over the next few decades.
TBH the only things that seem likely to stave off serious economic collapse within the next ~10 years will be a feasible fusion breakthrough (as in, technology that can be mass-produced allowing new ~1TW size plants to be deployed with build times of less than 5 years and a regulatory framework that allows this) and/or AGI.
Lanthanide,
"TBH the only things that seem likely to stave off serious economic collapse within the next ~10 years"
Why the figure of 10 years? I find that hard to accept based on the resources we still have. Eg. Though not yet well known, Guyana is about to become a significant oil producer, based on already proved discoveries of at least 18bn barrels of sweet, light crude. That will not be the last discovery. Of course economically recoverable oil and gas will run out, but not in 10 years or double that. Just look at at the plans of just Indai and China to ramp up coal production-bad for the climate, but consistent with energy security.
PDK is absolutely right on EROI, it has been falling for decades, but I believe that we have longer than you think.
These 2 articles cover it basically: https://ourfiniteworld.com/2023/01/09/__trashed/ and https://ourfiniteworld.com/2022/12/16/the-economy-is-moving-from-a-tail…
The first one should be taken with a bit of a grain of salt, but the point is our economic system is getting much more fragile than people realise, and it won't take much to knock it over.
Also re: Guyana, I looked at that a week or two ago in the comments here. I think it was projected to add something like 750k barrels of oil per day once it was fully online from 2025. Which is fine, except Russia's end-of-year output in 2022 was already down something like 200k barrels per day, and they were threatening further cuts of around 400k in response to price caps in 2023, and that's before their industry starts to really suffer the effects of western sanctions and businesses not trading with them.
Existing wells are depleting at a rate of about 6% per year. It's the Red Queen problem.
Lanthanide,
I can't disagree with much of what you say and yes, our economic system is becoming more fragile, but I still dispute the timing.
However, I can accept that I may be quite wrong. What I can be certain of is that having entered Shakespeare's Seventh Age, I will have departed the scene before the apocalypse. There's nothing quite like stage 4 cancer to make you conscious of one's own mortality.
Timing - it catches everyone out just ask Marion King Hubbert, Al Gore and numerous others. The beauty is we just don't know so perhaps best not to put to firm a period on it. Needless to say, when things (relationships, nature, ecosystems, life) deteriorate they tend to quickly and so circa 10 years for a 200 year industrial age might just be the mark! Have a watch of George Carlin sketch 'save the planet' on youtube if you haven't, it may or may not resonate.
Lastly, wishing you comfort.
Not quite. The fracking isn't supplying enough of the right type of oil they need for their refineries, so they also need to import the heavier crude. https://www.eia.gov/todayinenergy/detail.php?id=21512
https://www.api.org/news-policy-and-issues/blog/2018/06/14/why-the-us-must-import-and-export-oil
The devil in the diesel is a really good podcast, well worth listening to. Two takeaways for me:
Industry needs diesel due to it's density, and diesel is obtained later in the hydrocarbon chain than petrol. Therefore this western vision of EV's, electrification and the widespread reducing of ff won't succeed.
The other point of note is that the US don't produce the right type of oil for industry and have to import it in, via Canada, Venezuela and Saudi Arabia hence Biden always talking to MBS. So to say that they won't run out any time soon may be correct but perhaps misses the mark a little.
Articles like this are long overdue. I wrote a short paper almost 2 years ago with the title; The Path To A Green Economy-Or Will It Prove To Be more Of A Rocky Road?
I quoted from many sources, one of which was a lengthy report from the Geological Survey of Finland-The Mining of Metals and the Limits to Growth. One quote was this: Mining of metals is intimately dependent on fossil fuel based energy supply." Another was; It is apparent that the goal of industrial scale transition away from fossil fuels into non-fossil fuel systems is a much larger task than current thinking allows for".
here is a quote from Science and Technology Jan. '22; "we can't electrify the world if we don't have the raw materials to make the transition occur".
For example, a 100 megawatt natural gas fired turbine needs about 300 tons of iron ore, while the 20 wind turbines required to produce the same amount of electricity, requires some 30,000 tons of iron ore.
And they only produce the electricity when the wind blows.
That's why nuclear is the only path forwards for humanity to keep anything resembling our current living standards. But it takes many years to build nuclear reactors. We need them now but we aren't even starting.
Great 'food for thought' article which again highlights the challenges and dangers of moving, perhaps naively, towards an 'all your eggs in one basket' renewable energy world based on electricity. Let's face it, renewables all give you nothing but electricity.
Although it is highly unlikely that we will achieve a totally electricity-dominated world, there are some dangers if we were to do so. Whilst it should be possible to have adequate warning of extremely large Coronal Mass Ejection events from the sun (á la the 1859 Carrington Event) and so be able to temporarily shut down electricity transmission networks, in the worst-case scenario such an extreme event could easily wipe out a lot of the global electricity transmission capabilities for some time. We are talking about years not weeks to put right in such a situation. I guess then the world would find that global warming would be somewhat less of a pressing issue as we instantly struggle to adapt.
The bottom line is we simply need to be smarter and more efficient with our hydrocarbon usage as we make that transition to a low carbon emission world.
"How much harder is the redesign of our grid to handle millions of renewable components? The AEMO Engineering Roadmap to 100% Renewables (ERM100) report describes it as:
“Progressing this uplift, while simultaneously operating a real, gigawatt-scale power system is akin to “rebuilding a plane while flying it.”
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