I'm trained in geology, but I don't work in the energy industry. That means I'm an interested bystander of the energy game, more eager than most to see the execution of the next play on the turf -- but I'm not on one of the teams actually touching the ball.
The people who are on the playing field have to make complex judgments about what will power us through tomorrow. American business people make educated guesses all the time about whether to invest in what may be emerging energy technologies. And members of Congress also make some similar decisions. That's because the government supports energy research and subsidizes all the forms of energy.
One of the ways our tax dollars help make energy cheaper is the subsidy of ethanol made from corn. Ethanol is the time-honored chemical that's in whiskey and wine. Today, ethanol is blended into the gasoline we buy. If you read the fine print on the gas pump, you'll see how much ethanol is blended into what your car burns.
The tax subsidy on ethanol destined for gasoline was small in the 1970s when it began. But it's grown. The cost of our ethanol subsidy is now in the billions of dollars per year. At the same time, ethanol used for energy accounts for a lot of our corn crop. According to recent news reports, we'll plow about 41 percent of our nation's corn into ethanol this year. That's a lot of tortilla chips we are burning on our highways.
Corn-based ethanol has become more controversial as the industry has grown. In the most recent twist of the debate, former Vice President Al Gore changed sides. At a gathering in Greece, he reversed his support for ethanol made from corn. The switch means he has joined people like the editors of the Wall Street Journal in their plea that we end the corn-ethanol subsidy. It's not every day that Mr. Gore and the Wall Street Journal agree.
But it's not the muck and mire of politics that are important to me as a geologist. What's really at stake is the bottom line. Do we get more energy out of corn-ethanol than we put in?
Making corn into ethanol takes work. We plant the crop, then harvest the corn Next we must process it, and then ferment the grain. After all that we have to extract the ethanol we want from the thin soup of the stuff we have made.
How much energy do we actually get out of the ethanol we burn in our gas tanks compared to the energy we put into making the fuel from corn?
The scientists and engineers I've read on this subject down through the years have mostly said we gain very little energy from our work.
Basically, we put a unit of energy into the process and get just a little bit more back out than we put in. The fancy way of describing it is what's called "energy conversion ratios."
Speaking of ethanol made from corn in his recent speech, former Vice President Gore said, "The energy conversion ratios are at best very small."
That quotation indicates quite a change from Gore's earlier public sentiments. I'm not criticizing him or anyone else when I say we all need to set aside our politics and look critically at energy sources.
We Americans need to diversify our sources of energy, and some forms of biofuels will be part of the mix that can help us in the coming decades.
But we've got a variety of choices to make and more research to do. In the end, we've got to keep our eyes on what makes good sense for the next round of energy innovation. Big energy conversion ratios are what we need from biofuels in the coming years. That's the bottom line no matter your politics.
E. Kirsten Peters, a native of the rural Northwest, was trained as a geologist at Princeton and Harvard. This column is a service of the College of Agricultural, Human and Natural Resource Sciences at Washington State University. Peters can be reached at firstname.lastname@example.org.