Syfy channel’s political/military thriller “The Expanse,” set hundreds of years in the future, seems eerily resonant with our own era. The two major powers of the solar system, Earth and Mars, have been locked in a cold war for decades. Exploited populations working and living in the asteroid belt–an area that supplies crucial raw materials to both empires–become the flashpoint for what could turn out to be a civilization-destroying hot war between the two imperial powers.
As it turns out, projecting the centuries-old imperial expansion project here on contemporary Earth into outer space is really no stretch at all. There is frequent coverage in the media today of schemes for landing humans on Mars and establishing colonies. And, there is also talk of extracting resources from asteroids. Empires need raw materials and when they run low, those empires, whether they are political or merely economic, seek new sources of supply.
But here is where “The Expanse” comes unhinged. Engaging in regular interplanetary flights requires a lot of energy. Rather than using elongated journeys powered by the gravity of planets to sling one’s ship toward its destination (in an effort to save fuel), the ship captains of “The Expanse” burn a lot of fuel to take more direct routes. (The fuel seems like conventional rocket fuel, but we’ll assume that’s not the case.)
We find out in the first season that the source of this energy is fusion. All well and good. The attainment of fusion energy and its refinement over possibly centuries could power such a civilization. (We will leave aside for now the question of the effects of constant exposure to low gravity and cosmic radiation on the human body and brain.)
But if such copious and cheap fusion power were to become available, there would be no need to exploit the asteroid belt for rich ores. Instead that power could be used to get all the raw materials an advanced human civilization needs from sources available practically anywhere on Earth (or probably Mars). Granite–hardly something in short supply–contains almost all of the minerals we need albeit in very small concentrations. Mining granite in the required quantities and extracting trace elements from it would produce a lot of waste, but we’d have a lot of energy available to do it and deal with the waste.
Seawater is filled with minerals as well. And, we currently get many minerals from it. With enough cheap energy seawater could be mined even for minerals in very tiny concentrations. The air contains inert gases such as helium, neon, argon and krypton that are already available to us through existing methods. These would become cheaper to extract. And, of course, with huge amounts of cheap energy, seawater could easily be desalinated to provide drinking and irrigation water to any population within a few hundred miles of a coast.
The structure of society could and probably would be highly decentralized as most of the necessary resources would be locally available. Every community would have its own fusion and resource extraction complex. And thus empires–which are built on new resources taken from newly subdued lands (or, in this case, planets and asteroids)–would become irrelevant. Why go halfway across the solar system when everything you need is right at your doorstep because you now have the energy to extract it and mitigate the resulting waste?
In writing all this, I am not prophesying a space-faring human culture. Nor am I convinced that fusion power will be easily and quickly harnessed. The technical challenges may turn out to be so great that our current civilization will dissolve before we can succeed at taming fusion.
Rather, I am trying to show how our contemporary misconceptions about energy and the complex resource flows in our society lead to narratives that mislead us about the challenges we actually face.
“The Expanse” is fun to watch, and its subject matter maps well with our current political and military dramas. You can certainly enjoy it on that level. But take its assumptions about energy and resource flows and their effects on our political and social lives with a grain of salt. Those assumptions don’t map well onto our material lives, even for an advanced civilization presumed to exist many hundreds of years in the future.
Kurt Cobb is an author, speaker, and columnist focusing on energy and the environment. He has been a regular contributor to the Energy Voices section of The Christian Science Monitor and is author of the peak-oil-themed novel Prelude. In addition, he has written columns for the Paris-based science news site Scitizen, and his work has been featured on Energy Bulletin (now Resilience.org), The Oil Drum, OilPrice.com, Econ Matters, Peak Oil Review, 321energy, Common Dreams, Le Monde Diplomatique and many other sites. He maintains a blog called Resource Insights and can be contacted at firstname.lastname@example.org.This post was originally published on this site