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If Mother Jones and the Wall Street Journal can agree on this

When Nobel Laureate George Olah wrote his Wall Street Journal op ed recently announcing a new process that can turn coal exhausts into methanol, it reverberated all the way across the political spectrum and into Mother Jones.

 “Can Methanol Save Us All?” says the headline of a story on MJ, written by political blogger Kevin Drum. Although loath to admit he had    been reading the pages of capitalism’s largest broadsheet (he blamed the government shutdown), Drum admitted that he was intrigued. “George Olah and Chris Cox suggest that instead of venting carbon dioxide into the atmosphere, where it causes global warming, we should use it to create methanol,” he wrote.

Olah has been writing about a “methanol economy” for a long time, and he skips over a few issues in this op-ed.  One in particular is cost: it takes electricity to catalyze CO2 and hydrogen into methanol, and it’s not clear how cheap it is to manufacture methanol in places that don’t have abundant, cheap geothermal energy – in other words, most places that aren’t Iceland. There are also some practical issues related to energy density and corrosiveness in existing engines and pipelines. Still, it’s long been an intriguing idea, since in theory it would allow you to use renewable energy like wind or solar to power a facility that creates a liquid fuel that can be used for transportation. You still produce CO2 when you eventually burn that methanol in your car, of course, but the lifecycle production of CO2 would probably b less than it is with conventional fuels.

There are a few things we can cite here to set Drum’s mind at ease. First, methanol made from natural gas is already cost competitive. We don’t have to speculate. There is a sizable industry manufacturing methanol for industrial use from natural gas where it has sold for years at under $1.50 a gallon. That’s a $2.40-per-gallon mileage equivalent for gasoline (before further gains from methanol’s higher octane), making it at least 30 percent cheaper from what you’re now buying at the pump.

Of course Drum is referring here to Olah’s proposal to manufacture methanol by synthesizing hydrogen and carbon exhausts. This would be a more expensive process. But if it ever happened, the utilities would undoubtedly pay the processors to take the carbon dioxide off their hands, since it would allow them to go on operating their coal plants and using all that cheap black stuff coming out of Wyoming and West Virginia. It’s hard right now to factor up the costs but suffice to say, you would not be limited to geothermal from Iceland to make it happen.

As far as the corrosion issues are concerned, Drum can rest assured as well. It is true that methanol corrodes certain elastomers in current engines. They will have to be replaced with o-rings that can be bought at Office Depot for 50 cents. Any mechanic can perform the procedure for less than $200. Modifying current gasoline engines at the factory to burn methanol is also a surpassingly simple procedure – as opposed to altering an engine to burn liquid natural gas, compressed natural gas or hydrogen, which all require an entirely different assembly costing up to an additional $10,000.

The real rub mentioned by Drum, however, is the implication that if methanol can’t be shown to reduce carbon dioxide emissions in the atmosphere, then there isn’t any sense in doing it. There’s a slight divergence of purpose here that isn’t always clear to people who can agree we ought to be looking for alternative fuels to replace gasoline.

For some people the issue is energy dependence and reducing the unconscionable $400 billion we spend every year on imports. As the United States Energy Security Council pointed out in a recent paper, even though we have reduced imports to only 36 percent of consumption, we are still paying the same amount for oil because OPEC functions as an oligopoly and can limit supplies. As the report concluded, “It’s not the black stuff that we import from the Persian Gulf, it’s the price.”

For other people, however, the amount of money we’re spending on foreign oil – and the international vulnerabilities it creates – is not the issue. The only thing that matters to them is how much carbon dioxide we’re putting into the atmosphere. Global warming is such an overriding concern that it supersedes everything else.

This was made clear in a recent article in Yale Environment 360 by John DeCicco, professor at the University of Michigan’s School of Natural Resources and Environment and former senior fellow for automotive strategies at the Environmental Defense Fund, entitled “Why Pushing Alternative Fuels Makes for Bad Public Policy.”

The article argued against all forms of alternatives – ethanol, compressed natural gas, hydrogen and electric vehicles – on the grounds that none of them will do anything to reduce carbon emissions. “In the case of electric vehicles, an upstream focus means cutting CO2 emissions from power plants,” wrote DeCicco.

Without low-carbon power generation, EVs will have little lasting value. Similarly, for biofuels such as ethanol, any potential climate benefit is entirely upstream on land where feedstocks are grown. Biofuels have no benefit downstream, where used as motor fuels, because their tailpipe CO2 emissions differ only trivially from those of gasoline.

Instead, DeCicco argued that environmentally conscious individuals should concentrate on cleaning up power plants while support for alternative fuels should be limited to research and development.

By the time the power sector is clean enough and battery costs fall enough for EVs to cut carbon at a significant scale, self-driving cars and wireless charging will probably render today’s electric vehicle technologies obsolete. Accelerating power sector cleanup is far more important than plugging in the car fleet.

All this short-changes the clear advantages that can come from reducing our huge trade deficit and replacing oil with homegrown natural gas. The less money we spend on imports, the more we will have for making environmental improvements and investing in complex technology such as carbon capture that can reduce carbon emissions.

In addition, DeCicco may be being too pessimistic about alternative fuels’ potential for reducing carbon emissions. As The New York Times reported in a recent story about natural gas cars, “According to the Energy Department’s website, natural gas vehicles have smaller carbon footprints than gasoline or diesel automobiles, even when taking into account the natural gas production process, which releases carbon-rich methane into the atmosphere. Mercedes-Benz says its E200, which can run on either gasoline or natural gas, emits 20 percent less carbon on compressed natural gas than it does on gasoline.” Besides, if the source of emissions can be switched from a million tailpipes to one power plant, it’s a lot easier to apply new technology.

Mother Jones and The Wall Street Journal have much more in common than they may realize. One way or another, it would benefit everyone if we could reduce our dependency on foreign oil.

 

The U.S. and China on methanol: Two roads converge

Nobel-Prize-winning chemist George Olah recently put methanol front and center again with a powerful Wall Street Journal editorial arguing for the conversion of carbon dioxide emissions from coal plants into methanol for use as a gasoline substitute in our car engines. Co-writing with University of Southern California trustee Chris Cox, Olah noted, “Thanks to recent developments in chemistry, a new way to convert carbon dioxide into methanol — a simple alcohol now used primarily by industry but increasingly attracting attention as transportation fuel — can now make it profitable for America and the world to reduce carbon-dioxide emissions.”

The authors argued that President Obama’s recently announced policy of mandating carbon sequestration for emissions from coal plants wastes a potentially valuable resource. “At laboratories such as the University of Southern California’s Loker Hydrocarbon Research Institute [founded by Olah], researchers have discovered how to produce methanol at significantly lower cost than gasoline directly from carbon dioxide. So instead of capturing and “sequestering” carbon dioxide — the Obama administration’s current plan is to bury it — this environmental pariah can be recycled into fuel for autos, trucks and ships.”

Olah, of course, has been the principal advocates of methanol since his publication of “Beyond Oil and Gas: The Methanol Economy,” in 2006.

To date, he has been recommending our growing natural gas supplies as the principal feedstock for a methanol economy. But the emissions from the nation’s coal plants offer another possibility.

This is particularly important since indications are that the Environmental Protection’s Agency’s assumption that a regulatory initiative will “force” the development of carbon-sequestering technology may be mistaken. A recent report from Australia’s Global CCS Institute said that, despite widespread anticipation that carbon capture will play a leading role in reducing carbon emission, experimental efforts have actually been declining.

The problem is the laborious task of storing endless amounts of carbon dioxide in huge underground repositories plus the potential dangers of accidental releases, which have aroused public opposition. Olah and Cox write, “By placing the burden of expensive new carbon capture and sequestration technology on the U.S. alone, and potentially requiring steep cuts in domestic energy to conform to carbon caps, the proposal could send the U.S. economy into shock without making a significant dent in global emissions… In place of expensive mandates and wasteful subsidies, what is needed are powerful economic incentives. These incentives should operate not just in the U.S., but in other countries as well.”

All this brings into stark relief the diverging paths that China and the United States have taken in trying to find some alcohol-based fuels to substitute in gas tanks. While Olah has been advocating a transformation to a methanol economy in this country, China is actually much further down the road to developing its own methanol economy. There are now more than a million methanol cars on the road in China and estimates show the fuel substitutes for 5-8% of gasoline consumption — about the same proportion that corn ethanol provides in this country.

In this country, the proposal has been that we derive methanol from our now-abundant supplies of natural gas. California had 15,000 methanol cars on the road in 2003 but curtailed its experiment because gas supplies appeared to be too scarce and expensive! Instead, the main emphasis has been on tax incentives and mandates to promote corn ethanol.

China has vast shale gas supplies and could benefit from America’s fracking technology. We could benefit strongly from China’s greater experience in developing methanol cars. The pieces of the puzzle are all there. Perhaps Olah’s proposal may be the catalyst that puts them all together.

Ironically, all this began with a Chinese-American collaboration in 1996. At the time, China had little knowledge or interest in methanol but was persuaded by American scientists to give it a try. Ford provided a methanol engine and China began ramping up its methanol industry and substituting it for gasoline. As a result, China is now the world’s largest producer of methanol, with about one-quarter of the market.

A year ago the Chinese national government was about to mandate a 15% percent methanol standard for gasoline when it ran into opposition from executives in its oil industry. Those leaders have since been deposed, however, and the 15% mandate may go ahead this year. In the meantime, provincial governments  have developed their own standards, with the Shanxi province west of Beijing in the lead.

Ironically, because methanol is only half the price of gasoline, many local gas stations are diluting their gasoline with methanol anyway in order to shave their costs. As a 2011 Energy Policy article by Chi-jen Yang and Robert B. Jackson of Duke University’s Nicholas School of the Environment reported, Private gasoline stations often blend methanol in gasoline without consumers’ knowledge… In fact, its illegal status makes methanol blending more profitable than it would be with legal standards. Illegally blended methanol content is sold at the same price as gasoline. If legalized, standard methanol gasoline would be required to be properly labeled and sold at a lower price than regular gasoline because of its reduced energy content. Such unannounced blending is now common in China.”

So both countries are feeling their way toward a methanol economy. As Olah points out, the problem in the U.S. is that the various advantages given to ethanol have not been extended to methanol.One means of addressing this inequity would be for Congress to pass the bipartisan Open Fuel Standard Act of 2013, which would put methanol, natural gas, and biodiesel on the same footing as ethanol (but without subsidies and without telling consumers which one to choose) for use in flex-fuel cars.

In China, the concern is about coal supplies but this could be alleviated with help from America’s fracking industry or by implementing Olah’s new technology for tapping coal exhausts.

Either way, the pieces are all there. It may be time to start putting them together.