Monday, June 19, 2023

The Next One Hundred Years: A Story Told in Three Scenarios

 


Looking back at how the future was seen half a century ago, it is amazing to see how things have changed. When the conquest of space seemed to be the obvious way forward, nobody would have imagined that, today, we would be discussing the probability of survival of humankind, and that many of us would judge it as low. 

Yet, even though the future remains obscure, it still follows the laws of the universe. And one of these laws is that civilizations exist because they have a supply of energy. No energy, no civilization. So, the key element of the future is energy; the idea that it would be cheap and abundant gave rise to the dream of the conquest of space in the 1950s. Today, the idea that it will be neither gives rise to the prospects of doom. 

So, let me try a simple "scenario analysis" of what may happen in the future in the next century or so in terms of choices that will determine the energy infrastructure that could support a complex civilization (if any will survive). We are in a moment of transition, and the choices that will be made in the next few years (not decades) will determine the future of humankind. 

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Scenario #0: collapse. I call this a "non-scenario" in the sense that it assumes that nothing is done or, anyway, too little and too late. In this case, people remain stuck in their old paradigms, the resources that kept society alive are not replaced, and it becomes impossible to maintain a degree of complexity comparable to the current one. Within some decades, humans return to an economy that we might describe as "medieval," if we are lucky. But we might also go back to hunting and gathering or even, simply, go extinct. Personally, I see this scenario as the most likely one, but not an obligate outcome of the current situation. 

Scenario #1: Sticking to Fossil Fuels. Here, we see a repetition of the events that led to stemming the decline of oil production during the first two decades of the 20th century. It was done by pouring large amounts of resources into the "fracking" of tight oil deposits. It produced a temporary resurrection of the oil industry in the US, bringing production to levels never seen before, albeit at enormous economic and environmental costs. The same policy could be continued with renewed efforts, for instance, at exploiting tight oil deposits outside the United States, tar sands, or maybe making synthetic fuels out of coal. That could maintain the production of fossil fuels to levels similar to the current ones. It would make it possible to keep alive the military apparatuses of the main states, and at least some of the current organizations and social structures. But the cost would be enormous, and it would imply beggaring most of the world's population, as well as unimaginable damage to the ecosystem. This strategy could keep a semblance of the current civilization going on for a few decades, hardly more than the end of the century. Then, it will be Scenario #0, but the crash will be even worse than if it had arrived by doing nothing.

Scenario #2: Going Nuclear. Supporting a complex society on nuclear energy may be possible, but it is complicated by several factors. Among these are the limited uranium resources, the need for rare mineral resources for the plants, and the strategic problems involved in disseminating nuclear technologies and uranium processing knowledge all over the world. Because of the limited amounts of mineral uranium, it is well known that the existing technology of light water reactors would not be able to supply the current global energy demand for more than a few decades, at best for a century or so. Then the outcome would be again scenario #0. The fuel supply could be greatly increased by moving to the challenging task of "breeding" new fuels from thorium or non-fissile uranium. If that were possible, a complex civilization could continue to exist for several centuries, or even more. In all cases, a major war that would target the nuclear plants would rapidly send a nuclear civilization to scenario #0.

Scenario #3: The Solar Era. In this case, we see the continuation of the current trend that sees renewable energy technologies, mainly solar photovoltaic and wind, rapidly expanding. If this expansion continues, it can make both fossil fuels and nuclear energy obsolete. Renewable technologies have a good energy return on energy investment (EROI) and little need for rare minerals. Renewables are not a strategic problem, have no direct military interest, and can be used everywhere. The plants can be recycled, and they are expected to be able to support a complex society; even though in a form that, today, we can only barely imagine. A solar-based infrastructure is also naturally forced to reach a certain degree of stability because of the limited flux of solar energy available. So, a solar-based civilization could reach a stable state that could last at least as long as agricultural societies did in the past, thousands of years, or even longer.

Combined Scenarios #1, #2, #3: Feudalization. The three scenarios above are based on the idea that human civilization remains reasonably "global." In this case, the competition between different technologies would play out at a global scale and determine a winner that would take over the whole energy market. But that's not necessarily the case if the world's economic systems separate into independent sections, as it appears to be happening right now. In this case, some regions might adopt different strategies, fossils, nuclear, or renewables, while some would simply be shut off from the energy supply system and go directly to "Scenario #0."  With lower demand, the problems of depletion of nuclear and fossils would be greatly eased, although, of course, only for a limited population. Note also that these near-independent regions can be described as "feudal," but need to be much larger and more structured than anything seen during the historical Middle Ages. Keeping alive complex technologies, nuclear in particular, requires maintaining a functioning industrial society, and that may not be obvious in a time of diminishing returns for everything. 

The next few decades will decide which direction humankind will take. No one has the hands on the wheel that moves the giant thing we call "civilization," and we are seeing efforts to push it in one of the three scenarios above (some people even seem to be actively pushing for scenario #0, a civilization-level expression of what Sigmund Freud called the "death instinct"). 

The problem, here, is that the Western governance system has evolved in such a way that no decision can be taken unless some groups or sectors of society are demonized, and then a narrative is created that implies fighting a common enemy. In other words, no decision can be taken on the basis of data and planning for the common good, but only as the result of the confrontation of the lobbies involved in supporting different options. (*)

We have seen the demonization-based decision mechanism operating during the past few decades. It is a well-honed procedure, and we may expect it to be also applied to the allocation of resources for new energy strategies. We have already seen an energy technology being demonized;  it was the case of nuclear energy in the 1970s, the target of a successful propaganda campaign that presented it as an enemy of humankind. Today, renewables and everything "green" may soon be the victims of a new demonization campaign designed to promote nuclear energy. We are seeing it in its early stages, (see this article by George Monbiot), but it is clearly growing and having a certain degree of success.

Nothing is decided yet, but the writing is on the blades of the wind turbines. Propaganda rules the world, and it will continue ruling it as long as people fall for it. 


(*) Simon Sheridan provides an interesting discussion of the inner decisional mechanisms of modern society, defined as "esoteric" in the sense of being hidden, unlike the "exoteric," e.g. public decisional mechanism, which is only a reflection of the esoteric process. 

(**) For much longer-term scenarios, see my post: "The Next Ten Billion Years

6 comments:

  1. Reasonable scenarios Mr Bardi....but I wonder if your post doesn't underestimate the considerable changes needed or caused by a "solar era". In your preceeding EROEI post you write: "The new paradigm is that we can rebuild a society that works on renewable power. It won't be the same as the one created by oil, and we may have to accept a considerable economic contraction in the process to get there." That statement seems to me to be more trustworthy.
    But what is lacking in this ananlysis is an elaboration if "contraction" is at all possible on a global scale with the current economic system (capitalism). I believe the worship of growth is not yet a silly religion but it is aboyt the core of capitalism. A capitalist society without growth will not operate. So even if "solar" is possible and feasible from a purely technological perspective it may not be it from a the perspective of a capitalist society. https://gardenearth.substack.com/p/competition-not-consumption-drives

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    1. Of course, a "complex society" can take many forms. Once you have energy to power it, it can go from a theocracy to all the power to the Soviets. It is a problem for those who will come.

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  2. I like to share a few thoughts, and start with your previous blog on EROI

    System borders: End use as a reference, is about to get electricity at the point of use/destruction, and as well at the right time. That’s one border of system boundaries.
    The other system boundary is at the beginning. However: is that the moment of finding oil, and comparing that to input of solar energy on a PV panel? Its seems more logical that Solar input is the boundary for both, in our otherwise closed system. In other words , in a time land/space related flux. ( as Dukes as well as myself did some calculations on)

    But even then, system quality its not all about energy only, its about energy and mass combined. So I would propose not to use EROEI, but to use EROMERI : energy return on energy and mass/materials investment. There is no energy conversion to useful forms without mass involved. And no materials reform without energy involved. Besides, materials , at useful concentrations are the limiting factor, not solar radiation input. ( the Book Extracted inspired me at the time)
    (in that way introducing solar panels on a large scale is becoming a problem, but that’s another story)
    This brings me to the blog on future scenario’s: it seems that mass / materials are a more limiting factor then energy, and from whatever angle I analyze, I can’t find a way to establish a renewable energy supply system (scenario 3), at our current comfort level, for all in the world, based on evaluation of not-depleting materials stocks (keep mass cycles going). (see also Sgouridis and Bardi 2015...)
    anyway, much more to say, but thanks for your inspirations.
    Ronald Rovers, Netherlands. r.rovers@ribuilt.eu
    www.ronaldrovers.com and www.ribuilt.eu

    http://www.ronaldrovers.com/yes-or-no-100-renewable-energy-studies/
    and http://www.ronaldrovers.com/eroi-and-land-use-of-potato-crop-a-pilot-12/
    or even http://www.ronaldrovers.com/from-eroi-to-eroli-energy-return-on-land-investment-22/
    see also: the book People vs Resources, https://eburon.nl/en/product/people-vs-resources/

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  3. We are already in scenario #0. It's hard on the spirit to see how each passing year there's less and less. Especially hard when thinking about the broken world we are leaving to our children. We have been driven to a consumerist society, but now I can't live to the expectatives. I simply can't pay for the dream. Those who have power have increased their share in response to the crisis, making us poor workers even poorer.
    Now, awaken from the dream, there's still food in the table, but the spirit feels the hunger. Buying new gadgets no longer has that serotonine effect.

    I've received a call from a company that installs solar panels. There are subsidies right now, money from Europe (from out taxes). I have to figure out what to do with a PV that only gives energy when I don't need it. Too much trouble.

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  4. A scenario about energy without involving matter is incomplete. Matter stores energy. We may not forget that the importance of energy is given by its “power” (the energy needed or released per second for example), which is a measure of the difference from the equilibrium state. Many of our problems mainly have to do with “the increase in extremes”, this is the increased energetic capacity (or power) in the atmosphere (hence we call this a climate problem). Nature's answer to this problem is an increase in vegetation. The energy flows on the globe are caused by solar radiation. In the first place, vegetation regulates the energy flows on the globe by evaporating water and condensing it elsewhere (think of the forests). Vegetation does this completely free of charge, and loops of regulation have emerged over the past few billion years, proving its robustness. Vegetation also converts radiation into matter free of charge. Matter is stored and usable energy. The more vegetation, the more usable energy, the more diverse vegetation, the more robust the availability of usable energy. The energy stored in any material can be quantified by dividing the modulus of elasticity by the density (giving a dimension of the stored energy per kilogram). All construction materials that we use have the same order of magnitude of this value and are therefore equally usable from an energetic point of view. Vegetation however is free and requires minimal transformation (and thus extra energy) to be used.

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    1. Well, not so free. Someone has to go and collect it, then process the energy in an useful way. You could say the same about oil fields, that they were free to take, but extracting, processing and distributing it, that's not free.
      What we get from the increased growth is a bigger energy flow from biomass, in other words, more energy available. But it needs to be managed very carefully, since overexploitation reduces the production for the next years.

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