Category Archives: geopolitcs

China's Water Shortage and Power Plants (their power plants definitely have a drinking problem)

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In the previous post, I described how thermal power plants use a massive amount of water. This time we are going to explore a specific case. As usual, it's China.

Power plant water use can be a problem in a water-stricken area. Let's look at a case-study. China is a water-stricken area, and has a lot of thermal power plants. In fact, China uses more primary energy than any other country in the world. Unfortunately, their power plants are far less efficient than they should be. So they are wasting water, and this is unsustainable. Moreover, China has 1,350 million people. The US has 314 million.

First, let's look at the rainfall of China, compared to the US:

Rainfall in China, in inches

Rainfall in China, in inches

Rainfall in the US, in Inches

Rainfall in the US, in Inches

Looks pretty similar, right? Now recall that the US has 1/4 the population of China. And pretty much the exact same amount of area. Keep that in mind while we look at China's powerplant locations:

 

China's water stressed areas, compared to where power plants are planned. Source,

China's water stressed areas, compared to where power plants are planned. Source,

So. The places that have the most people and need the most power are the same as the dry places. In other words, China is building the bulk of its thermal power plants in the area that can't provide sufficient water to cool the power plants.

Before coming to the complete picture, let's check out the water use:

Fresh Water Use in the US. source

Fresh Water Use in the US.
source

In the US, 80% of water use is to grow food and to make electricity.

Finally, where is all this water coming from? Rain alone isn't enough, it comes from the ground. Fresh water from the ground is not unlimited, and we are running out of it. It's called Fossil Water, and here is what the situation looks like in the US:

Water withdrawals in the US

In other words, a huge chunk of our country is relying on water that will not exist in a few decades.

And looking at China:

China's groundwater depletion rate

In the US, the scale of groundwater depletion tops out around 400 cubic kilometers. In china, it tops out at 3,000 in regions. That's not to say that the US won't run out. It just says that China is in serious trouble.

Again, 80% of water use is for electricity and agriculture. And China has 4x the people of the US. There is not sufficient water. Would you rather run out of electricity, or run out of food? It's not an easy choice, but food can be imported. That being said, someone has to grow the food, and that country better have a robust water supply. Moreover, food growth is a low income industry. A country that marries itself to being a food supplier, unless it charges gouging levels of prices, is marrying itself to never being a high-income country. But charging price-gouging levels is a bad idea.

While this mental exercise was fun, let's look at some examples.

First, while Californians probably shouldn't have been growing water-intensive almonds in a dessert in the first place, running out of water has imperilled the world supply of all sorts of nuts and things. They are tearing up their farms because of lack of water.

That's only the start. Drought in Syria helped bring about war there. Syria is a tiny country that doesn't matter on the world scheme. India, China, and Pakistan face water shortages. Combined, they have 1/3 the world population. They also happen to hate each other. As climate change progresses, and some countries face droughts, people may not want to choose between food and electricity. They may try to divert water supplies, sparking tensions and even war.

So. Does your power plant have a drinking problem? If you live in China, it definitely does, and it's causing all sorts of strife.

Wrapping it all together: Yes, a country can import food. But you know how much of the world relies on the middle east for oil, and we talk about energy security? That's just stuff that makes your cars move. Remember how Russia threatens to shut off natural gas to Europe if they don't get in line with Russia's plans, and so much of Europe is cowed? That stuff keeps homes warm, but it isn't as important as food. Imagine a powerful country that is mostly reliant on other countries for food to stay alive. That's a really bad situation. The country in this situation has to either take dictations from whoever feeds them (not really a problem if you are getting your food from non-powerful nations, but still irksome), or has to take over a food-producing country.

One potential solution: Chinese power plants are notoriously inefficient. If you have a 25% thermodynamically efficient powerplant, it uses 30% more water than a 37.5% efficient power plant. China should either shut down inefficient plants and require new construction that is efficient, or require retrofits of old plants. It would be very expensive, but less expensive than the social and political cost of running out of water too soon. What about the US? Most of our plants are pretty efficient already. Especially our Natural Gas plants that much of the country runs on. We probably spend too much water on watering desserts to make food, but that's another story.

An almost-final note. While solar power and wind power use water in construction, their water use is minimal compared to that of thermal power plants. Barring solar-thermal (it's thermal, it uses water), these renewable resources are the only answer to the reducing the choice between electricity and food. In other words, expansion of wind power and solar PV is the only cheat code we have to deal with this impending water shortage.

One last thing. Why did I single out China? Only because I know a lot about China. Pakistan will have water shortage issues, but they already don't have electricity. In the summer, they have blackouts for up to 20 hours a day cause they can't produce enough electricity. This is a country of 180 million people, bordering India, and sharing a strong mutual resentment with India. More on this later, though.

Thanks for reading,

- Jason Munster

The President's State of the Union Address. Geopolitics of Oil: Expanded US (and Russian) Oil Drilling and the Middle East's Bane.

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source

An oil rig in the Bakken. This represents a massive shift of primary energy resource production power in the world. picture source

What do the price of oil, the president's state of the union address, and middle eastern stability have in common? In the address, the President talked about fighting climate change, but the US is going full-tilt towards more drilling. While this sounds like hypocrisy, it actually puts the US and the world in a better position to deal with climate change. Sounds crazy? Keep reading. Here's a hint though: What would happen if the price of oil dropped to $40 overnight? Much of the Middle East power structure would collapse.

The Science!  (skip this if you only care about what oil prices do for the Middle East)

Because this is a science blog, I am writing science stuffs here.

Hokay, the background. The world consumes around 90 million barrels of oil a day. How much of this does the US produce? Check out this graph:

 

Historic US oil production. Source is EIA

Historic US oil production. Source is EIA

I want to point out three things. First, in the 70s and 80s the US was one of the world's most prolific oil producing countries. A lot of this came from huge Texas fields, like Eagle Ford. And then the gigantic basins like Eagle Ford ran out of easily accessible oil, and US oil production collapsed. Now look at the ramp rate of production in the most recent years. The rate of increase in production is unprecedented. It's going up fast.

Next, lets focus on Texas and North Dakota:

North Dakota and Texas Oil Production

North Dakota and Texas Oil Production

Notice the massive rate of increase of production. From 2008 to 2012, Texas alone increased production so much that it provided an additional 2% of the world's oil. North Dakota is producing nearly 1 million barrels a day, or slightly more than 1% of the world oil. Together, they produce 3.75 million barrels per day, 4% of the world's oil.

Let's put this in perspective. Iran produces 4 million barrels a day. North Dakota and Texas alone produce nearly this much. Look at those growth rates. Are they showing any signs of slowing down? No. In other words, the US is rapidly becoming one of the world's most prolific producers of oil.

How'd this even happen? Hydrofracking and horizontal drilling. Earlier I said that Eagle Ford and such were played out. In reality, all the easy oil in it was pulled out. The remaining oil is like the Bakken: tight oil. Let me emphasize this:

Every single major play of the 70s and 80s is about to become a new Bakken.

That means going back to the days when the US was the largest oil producer in the world. That means Russia is also going to be able to ramp up production, once they figure out how to hydrofrack.

So the price of oil is going to drop in the future.

What This Means for Politics and the Middle East;

Expansion of drilling in the US and Russia will have two major effects. The first is that we will no longer rely on oil from the Middle East to supply the world markets. In this case, the world will care less about stability in the middle east. To the point where the world would just let the Middle East burn, just like we let happen in Africa today (except for Israel, I would guess)

This would mean less military spending, which would in turn mean more domestic investment (or lower taxes, but our ailing infrastructure and gutted R&D budget really could stand to be brought back up to where it was when the US rose to become the world's only superpower).

The second implication of this glut of oil is much more far-reaching. It means is lower oil prices worldwide. If oil drops below $75 a barrel, even Saudi Arabia struggles. It'll be hard for the Middle East to make trouble when they cannot afford to. Now let's say hypothetically that Iran funds terrorist groups (I haven't researched this and don't know whether it is true, so it's a hypothetical). If the price of oil drops to the point where they can no longer profitably produce, then suddenly our hypothetical country cannot fund terrorism. And we save moneys from no longer needing as much anti-terrorism programming.

In other words, we save money because we won't be sending military to the middle east, and because terrorism will potentially be more poorly funded.  

Let's sum up: produce more oil, the price of oil drops, countries and companies make less money from oil (mostly countries, companies have a way of maximizing profits pretty well), since countries have less money, they can't push their state agendas as much.

Wrapping This Up

So, pretty much, drill more in the US (where we can regulate emissions), save a ton of American (and European) money by no longer having to make sure there is peace around oil resources, use that money to fix all the problems we've created with the environment. In other words, more drilling is a potential long-term solution because it will eventually free up more funds in the federal budget.

It's my guess that the president can't say, "We need to drill in the US to make it so we don't have to spend money stabilizing the Middle East. Once that is no longer a problem, we can use the extra money to address climate change."

Some criticisms: If the decrease in the price of oil results in more oil consumption, this would be bad for the environment. We need to continuously improve efficiency of vehicles and industry, and decrease our demand for oil and fossil fuels. Any money saved from military intervention happening less should be driven towards this goal.

That's all for now! Thanks for reading.

- Jason Munster

Geoengineering

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So. Science can fix anything, right? Only if we have lots of time and money. And grad students that function as indentured servants in a pyramid scheme to get tenure.

Back to the point. The truth is that science can't fix everything on short time scales. Climate is one of them. Geoengineering can help to a degree, but it will only get us part of the way there to avoid the worst consequences of climate change. Let's discuss some.

White roofs, white roads, white buildings.

Two articles back, we discussed albedo, or reflecting sunlight. Ice reflects 90%, water reflects 90%. Whatever is reflected tends to go to space and not stay in the Earth system and warm it up. In fact, whatever is absorbed then gets in the greenhouse trapping loop, warming up the Earth a good bit. Dark surfaces (our roofs, our roads, most of our buildings) reflect little and absorb a lot. So, paint them all white, and more light is reflected. Excellent!

"But Jason," you say, "Cities are only a small percentage of land area. How could this possibly help? I mean, the rest of the Earth will still absorb just as much heat. Right?"

And to you I say, "Excellent, sir! That is true. Making all our stuff white won't do much for the overall heat budget of the Earth. I am so proud of you for reading most of my website so you quickly figure stuff like that out."

So what does it do?

 

The heat island effect is based on the fact that cities are covered in dark buildings and pavement, and have a very low albedo, so they absorb heat

Cities are fucking warm. They suffer from this thing called the "heat island effect." That is a fancy way of saying that they are so dark, they absorb the sunlight and are easily 10 degrees F (around 5 degrees C) warmer than they should be. Turn everything white, and you can cool the city. This will actually have a very large effect on how hard our AC units have to work in the summer. Imagine if your city was suddenly 10 degrees F cooler. How sweet would that be? I posit that it would be pretty rad.

This one seems to help a bit, but we will still be using tons of energy and producing CO2 in all other ways. Moreover, it won't solve the problem of the agriculture, ice caps, and acidifying ocean.

Putting CO2 in the ground

There are two ideas of sequestering CO2 in the ground. The first is capturing it at the source. Like power plants. This sounds like an easy idea, but the first problem is the energy it takes to capture it. Thermal power plants take in atmospheric air. Which is 78% nitrogen, and 21% O2. Even if all the O2 were converted to CO2, what comes out of the power plant stack is still 78% nitrogen. Separating the two to store the CO2 takes more energy. In fact, the power plant is roughly 30% less efficient. So it needs to burn a lot more coal or natural gas to produce the same amount of power, and will cost a lot more to build. And any fancy idea you have to get around this 30% efficiency hit won't work. No matter what, you either have to pre-concentrate O2 to get a pure stream of CO2 on the other side, or separate the CO2 on the emission side.

The next problem is where to store it once you get it. Gases like to leak out of things. Some companies are trying to store the CO2 underground, much like petroleum is stored underground in a lot of places. This is why you need to separate it from the nitrogen in the air. There just isn't enough space to store both the CO2 and the nitrogen, and also it is expensive to pump stuff underground. Another issue is that it is unclear how long storing CO2 will last in the ground, since it more or less needs to be done indefininately.

Finally, since 35% of our energy use is from cars driving down the road, and it is impossible to capture that CO2. So Carbon Capture and Storage (CCS) from the source still won't do everything we need.

Direct Capture
The next idea is to capture CO2 directly from the air. We have increased CO2 in the atmosphere from 280 parts per million (.028%) 400ppm. The idea of direct capture is to do the opposite. Draw down the CO2 and then store it somewhere. Some might suggest we store it in trees, but that is an awful lot of trees, and unless we bury them trees somewhere underground, they are just gonna get consumed by bacteria and become CO2 again. Other options are to mechanically and chemically separate CO2 from the air, and them store it underground as above. This is very expensive. It might work in the future, but for now it won't.

The bonus of this, if it ever works, is that it is the best way to reverse our issues from an engineering standpoint. We can turn back the clock.

Stratospheric Injection

Injecting small sulfur or other particles into the atmosphere cools the entire globe by reflecting some small portion of sunlight before it hits the rest of the Earth. We know this cause when mountains like Pinatubo and St. Helens explode, they launch particles into the stratosphere and we get a cold year.

SO2 increase in the stratosphere by exploding volcano

Some people have suggested that we could do this. Just inject stuff into the stratosphere to reflect sunlight. The problem? It turns out that everything small enough to cause the proper scattering just happens to be the right size to promote adsorption of water particles. Which then allows for rapid recycling of CFCs in the stratosphere.

"But Jason," you say, "I thought recycling was good!"

Recycling plastics is good. Stratospheric recycling of CFCs is bad. Cause what happens is a CFC reacts with ozone, breaking it apart, wrecking the ozone layer, and then usually is all like, "Man, I am exhausted from catalyzing that reaction, I am gonna take a break." But that water that adsorbed onto our reflective particle provides an excellent place for it to re-radicalize. Which means it is ready to take out another Ozone particle. That's right, our CFC goes to chill out on some water droplets, effectively taking a restful timeout at a pool, and gets ready for work again destroying the ozone layer.

Let's pull this all back together. We try to put stuff in the upper stratosphere, if could make CFCs more effective at destroying the ozone layer, and then we are all screwed in a much much larger way than climate change. Cause the ozone layer is what protects us from getting fried by a lot of UV rays.

Here's where things get fun. Imagine you are a small country of 1 million people living on an island. And that island is going to get inundated with water in 20 years unless climate change is reversed. You don't give a damn about a chance of destroying the ozone layer. You only care about saving your people and your country. Stratospheric injection isn't exactly nuclear science. We aren't going to have rogue nations stumbling through how to do this, and failing all the time.

I'll leave you to ponder what all that means, cause it is more fun that way, and we are already at 1200 words.

The upshot of this is that it also fails to solve the acidifying of the ocean, we don't know how well it will work, and we don't know what will go wrong.

Solar Reflector

Another idea is to put huge mirrors in space and reflect a chunk of the sunlight coming in. This could work. Wasn't this a plot in some Bond movie, though? Also, it would be mad expensive. Probably much more expensive than some other options. And much like the option directly above, we still acidify the ocean.

Review

Hokay, so. Most of the technologies for fixing our problem don't exist, don't work, are too expensive, or could kill us all. And if they do work in the future, they won't solve all the problems we are creating. Even the one that does solve all the problems, direct capture from the atmosphere, won't do crap for our plight if we rely on that alone. As a species, we can easily outstrip any CO2 removal measures just by burning more things. Even if after rigorous testing proved all these work, we would need to some combination together to get anywhere. And even with that, we need to reduce the continued growth of emissions worldwide, otherwise no science or engineering solution will stop climate change.

Depressing, eh?

Thanks for reading,

- Jason Munster