The Peter Zeihan Podcast Series - Material Processing: The Redheaded Stepchild
Episode Date: February 3, 2023Today we're talking about the redheaded stepchild between mining raw materials and incorporating those into a product...processing. Essentially throwing tons of energy at raw ore and converting it int...o usable materials like aluminum or steel.Full Newsletter: https://mailchi.mp/zeihan/material-processing-the-redheaded-stepchild
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Hello from Sunny Colorado. Peter Zion here. Today we're going to talk about processing.
So a lot of people are familiar with some of the issues and opportunities that come from any number of
industrial materials, whether that's iron or aluminum or lithium or cobalt. But in between the mining
and the actually incorporating the product into something that we actually use, like lithium into a
battery or steel into a car, there is an intermediate processing step that tends to just kind of get
ignored. And that's about to become a very large concern for any number of sectors and countries.
Once you get the, excuse me, once you get the raw, the industrial material itself out of a mine,
you then have to basically throw a lot of energy at it. Breaking down the oars to separate out the
metals or the other materials that are within is an incredibly energy intensive process that
usually takes place over several steps, and within those several steps, not always can the same
facility do all the same processing. So, for example, you can smelt a bauxite in order to get an
intermediate product that looks a lot like cocaine called alumina. But then a different facility is
needed to basically electrocute the crap out of it in order to transform it into aluminumum.
And you've got processes like this for everything. Typically for Steve.
your first step is to throw it into a foundry with some coal into a blast furnace,
and then you get something called pig iron,
and then as a rule, another facility will turn it into the type of iron and steel that we use every day.
Now, the problem we're facing is that most of the world's materials processing
is done in two specific locations.
The first is in China.
Now, the Chinese have heavily subsidized their entire industrial base
whenever they find a technology that they can master without needing input
from another country. And since steel smelting was developed well over a century ago, this is something
they have no problem doing. So they are by far the world's largest producer of raw and finished steel.
Those subsidies have taken the form in many cases of financial assistance. Basically, if you can get
a bottomless supply of zero percent loans, then you can build whatever infrastructure you want.
And that's helped drive more profit-driven industries out of business around the world. The second
big player is Russia, and this is largely because they have very cheap electricity, because when the
Soviet system collapsed in 89, the entire industrial base basically went kaput, except for the
electricity generation system. So what the Russians did was they would import raw materials,
use their cheap power and their cheap coal to do the processing, and then export a degree of value-added
materials. And they do this pretty heavily with aluminum, they do this with chromium, they do
with this titanium, materials that they don't really mine themselves, but they will bring them in
for processing. There are very few materials in the world where this is not true. And if you've
been following me for some time, you know that these are the two major countries that are facing
the biggest demographic, economic, financial, and security crises of the world we're evolving into.
So we need to prepare for a system where materials that come out of these two countries,
intermediate and finished materials, maybe don't go to zero, but certainly face a significant collapse in the volume that they produce.
There's nothing about this that can't be done anywhere else. It doesn't even take a huge amount of time, and it doesn't even take a huge amount of money, because a lot of this is technologies that's, you know, 50 or more years old.
But that doesn't mean it's free, and that doesn't mean we can do it overnight.
And even if all citing and regulatory concerns vanished, you're probably not going to put it.
put up a smelter for cobalt in the United States in anything less than a year.
So not only with the way technology is involving, do we need a lot more critical materials?
And not only with the reindustrialization of the United States, do we need a lot more steel and aluminum.
And not only with the green transition, do we need a lot more graphite and chromium and nickel.
We're also looking at losing a lot of the world's processing capacity for these things all at the same time.
something's going to have to give.
And that is going to be one of the greatest economic arguments, fights, and perhaps even wars of the next 10 years.
Stay tuned. We'll talk about more of this sort of thing on and off for the next several months,
because it's getting to the point where it's becoming not a hypothetical problem out in the future,
but a problem in the here and now.
Oh, hey, all this talk of processing reminds me that we are having a webinar on February 17
that is going to be going into the economic implications of the Ukraine War one year on,
and the implications for Russian minerals and minerals processing is a big, big part of all of that.
So we're going to include the sign-up information for that webinar at the end of this email.
Feel free to come.
Anyone who signs up is going to get a PDF of the full presentation complete with the data and the graphics,
as well as a link to the video itself for future ruminations.
Okay, that's it for me, for real. Until next time.