More from our social calendar–recently Transition Nashville screened the movie, Blue Gold. No, we’re not Notre Dame fans–football, as far as I’m concerned, is part of the Empire’s bread and circuses program–this “Blue Gold” is subtitled, “World Water Wars,” and it portrays with sometimes beautiful and sometimes horrifying vividness how peak water, perhaps more than peak oil, may be the choke collar that ultimately constrains our culture’s cancerous rate of expansion.
At the chemical level, there are, of course, radical differences between water and oil. Just for openers, oil was created here on Earth, but, as far as we can tell, all the water on the planet was created elsewhere in the cosmos and became part of our planet in its earliest eons as water-rich comets and meteors collided with the young, hot, dry planet. We use oil up–we burn it, turn it into plastic, degrade it to the point of uselessness, but water–water we constantly recycle. The water that falls from the sky, quenches our thirst, and flows in our rivers and toilet bowls is the same water that the dinosaurs swam in, drank, and…pissed out, yes. Think of it–every drop of water we have was probably, at one time, dinosaur piss. Thanks to our planet’s appropriate range of temperatures, however, pure H2O evaporates into the atmosphere, leaving behind whatever pollutants we, or the dinosaurs, add to it–not that that’s an excuse to allow pollution. Natural cleansing can take a very long time.
For instance, there is a lot of what is called “fracking” going on in parts of the US and elsewhere. Fracking involves injecting a cocktail of solvents and water into rock formations in order to release the natural gas that is held in these formations, so that it can be captured and used. To this end, 32,000,000 gallons of diesel fuel, among other yummy substances, were injected into rock formations in the US between 2005 and 2009 alone–and this was done in spite of the fact that injectng diesel fuel is illegal. Natural gas wells have a productive life of a few decades, but the groundwater pollution they create will last far longer than that.
Gas companies are, at least in theory, required to properly store and dispose of their used fracking fluids, which are saltier than sea water, contain radium leached from underground rock formations, and bromides–not trite sayings, but chemicals that interact with chlorinated water to produce carcinogenic trihalomethanes. However, neither sewage treatment nor water system intake plants are designed to deal with the massive chemical load of thousands of gallons of fracking fluid. Oh,yeah, fracking-polluted water also tastes nasty, if you hadn’t guessed.
State and corporate officials promise that they have the situation under control and will carefully monitor for the possibility of contamination, but by the time the water is contaminated, it will be too late. An ounce of prevention versus a pound of cure. A decade or two of fuel now in exchange for hundreds, if not thousands, of years of poisoned water seems like a Faustian bargain to me. I assume you recall who offered Faust that famous bargain. And who, then, is offering to trade us gas for water? Wouldn’t it be just like a demon to mix diesel fuel into the drinking water? I mean, that sounds like Hell to me!
But pollution concerns aren’t the half of “Blue Gold.” The movie’s main point is the many ways in which transnational corporations are working to corner the market for this increasingly scarce resource, which no human can live without, and this is where the movie gives us some encouragement, by reporting on successful resistance to privatization and monopoly such as the famous Cochabamba “water war,” when the people of Cochabamba, Bolivia, threw out the Bechtel Corporation, which had bought the city’s water system and raised rates so high that most people could not afford water.
What the movie neglects to mention is that the public agency that now runs the system is, unfortunately, doing a very poor job of providing water to people. But maybe that’s not so important, in the end, as the fact that the people succeeded in throwing out a transnational corporation and relocalizing control of their water supply. Maybe what happens after that is their business, even if it’s their problem, as well.
There was some group discussion after the movie, and several small, informal conversations sparked up after that. I got into a spirited exchange with one attendee about whether “fourth generation” nuke plants will be the answer to peak oil and the dangers of coal. “Fourth generation” nuclear power plants, for those of you who, like me, hadn’t heard of them before, are supposed to be much safer–easier to keep cool, harder to screw up, cheaper to build, more efficient in their use of nuclear fuel. They’re still on the drawing boards, mostly. The Chinese have started to build one,but it won’t be finished for another ten years or so. The general consensus is that it will be at least twenty years before “fourth generation” nukes could become a widespread reality.
Here’s the basic reason why nuclear power is a dumb idea, second generation, fourth generation, tenth generation, no matter: it’s an incredibly complex, expensive, and potentially very dangerous way to boil water.
Can you say, “Rube Goldberg,” boys and girls?
The real “first generation” nuclear power plant is located 93 million miles from here. It costs us nothing to build or maintain. It has been running safely (if you discount sunburns and skin cancers) for about four billion years, and will probably continue to function without any need for human intervention for another five billion years or so.
Using a common, well known technology, referred to scientifically as a “mirror,” we can focus the energy from this reactor, which, to throw another scientific term at you, is referred to as “sunlight.” Focusing sunlight on water will, under the right circumstances, make the water boil. The steam thus created can be used to turn a turbine and create electricity. Of course, generating electricity is only one of the many things we do with oil. It’s not so easy to find substitutes for lubricants and plastics, to name the first two major non-fuel uses of oil that come to mind.
These “mirrors” could easily and rapidly be widely deployed all over the world. It would not require creation of any more of the environmental disasters known as “uranium mines,” or “uranium processing/reprocessing facilities.” It would not amass large quantities of long-lived, or even short-lived radioactive material that might poison a neighborhood or a continent due to human error, natural disaster, terrorist attack, or the ravages of time. Unlike a nuclear power plant, this technology would be relatively cheap to build and maintain. It would not take a bunch of PhDs to run it. It would be a decentralized, low-tech, relatively non-polluting source of energy. Power plants could be equipped with “flywheels,” another fairly-low-tech, well-developed technology, so that they could keep providing power when the sun isn’t shining.
A second prong of the alternative to increased reliance on nuclear power is a combination of conservation and lowered expectations. The general consensus seems to be that money spent on energy conservation, dollar for dollar, saves five times more energy than the amount of electricity generated by a dollar invested in nuclear power plants. And, speaking of investing in nuclear power plants, it’s worth noting that nuclear power, which, when I was a kid, promised “electricity too cheap to meter,” only maintains the appearance of a competitive pricing structure because it receives huge government subsidies, loan guarantees, and insurance backing. Private investors won’t touch it.
Can you say, “the invisible hand of the market,” boys and girls?
Would “fourth-generation” nuke plants really be inexpensive to build and run? We’ve heard this claim before.
Peter Bradford, a former member of the Nuclear Regulatory Commission, and, in his words, “not a total opponent of nuclear power,” had this to say about nuclear power as a solution to runaway climate change:
“Counting on new nuclear reactors as a climate change solution is no more sensible than counting on an un-built dam to create a lake to fight a nearby forest fire.”
It’s important to note that many of those who promote nuclear power are in the pay of multinational corporations that profit from it, while those of us who oppose its use can expect no financial gain for our stance, and in fact will find the resources of those multinationals brought to bear on us in an effort to dismiss our concerns and ridicule us for expressing them. But I digress.
As I was saying, there’s lowering our expectations. The last two hundred years of human history have been a radical departure from all that preceded them, as we have discovered and consumed stores of fossil fuels that took millions of years to accumulate. All of us in the First World enjoy riches beyond the imagination of the wealthiest of our very recent ancestors, and, unless some remarkable breakthrough is made very soon, our wealth and power will be the stuff of the legends of our descendants as they, like our ancestors, gather around their communal fire pit after a long, hard day of herding, gathering wild foods, working at handicrafts, and tending their crops. It would have been thoughtful of us to consume the planet’s resources slowly and carefully enough to leave something for future generations, but we had to get rich quick making Barbie dolls and cell phones and superhighways and cars to drive on them. Too bad, great grandkids, we spent your inheritance.
I wish I had been this eloquent and informed when I was in conversation with nuclear dude at the “Blue Gold” movie. That’s why I write these talks out instead of trying to do them off the top of my head!
I did give him the short version of what I’ve just told you, and I’m glad we had the conversation, because it gave me a chance to review and document my opposition to nuclear power. You’ll notice I have done what I could to steer away from current controversies raging over the level of danger from the Fukushima plant and the toxic legacy of Chernobyl. From my point of view, it is irrelevant whether fifty or a million people died as a result of Chernobyl, or whether northwest Japan has become a short-term or long-term evacuation area. If neither one of these disasters had happened, nuclear power would still be a foolish idea, an incredibly inefficient amount of bureaucracy, centralization of power, and concentration of resources just to boil some water.
Monkey clever, but not very wise. We had better do better than that.
music: Afrikaan Dreamland, “Dance and Survive”