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Star light, star bright: Wishing for a cleaner, less-expensive fuel

Star light, star bright, I wish I may, I wish I might, have this wish I wish tonight… How many of you said these words on a starry night, particularly if you were with your best girl or boyfriend as a teenager? Or, as a loving parent, how many of you taught your child to say these words as part of your effort to build his or her vocabulary or memory…or just to instill their capacity to dream?

Now Kate Gordon, the, legitimately well respected, president of Next Generation, seems to have forgotten the difference between wishing, hoping, dreaming and reality. Her recent brief “expert” article in the Wall Street Journal departs from reasonable projection into fanciful wishes.

Gordon is correct that the “average car” on the U.S. road is about 11 years old and that their negative impact on GHG emissions and our health is significant. She is also correct in pointing to the large impact that high gas prices have on “our wallets,” (I would add) particularly for low and moderate-income households. Clearly, for the poor and near-poor families and for the economically fragile moderate-income households, present gas prices mean less of the basic necessities: modest job choices, good food, housing and healthcare.

Where Gordon and I part company is with her suggestion that an auto replacement initiative or what she calls an Enhanced Fleet Modernization programs would generate a visible, short-term impact and would likely be supported now, by assumedly the federal or state governments, in a significant way. (I should indicate that while I was head of the urban policy in the Carter administration, HUD senior officials thought about offering support by providing older cars to carless, low-income folks to permit them to secure job opportunities in the suburbs. How times have changed. The concern about GHG emissions and other pollutants emitted from older cars that run on gasoline are now seen as a real environmental problem.) The difficulty with Ms. Gordon’s proposal is number one, money and bureaucracy; number two, money and bureaucracy; and number three, money and bureaucracy. Even California, which she touts, has had mixed results with its replacement and incentives to replace older car programs. Clearly, exporting California’s experience to many other states, given economic and political constraints, would be difficult and would likely result annually in a relatively small impact on the nearly 300,000,000 cars in the U.S of which approximately 85-90 percent are over six years old.

Car replacement is a nice thought, but probably, at this time, an exotic one. If policymakers are seriously looking for a way for large numbers of owners of older cars to immediately reduce their vehicle’s negative effect on the environment, air quality and their own costs of fuel, there are better ways. While we wait and hope for the advent of vehicles that are ready to run on renewable fuels and that simultaneously meet the travel as well as budget needs and demands of most low, moderate and middle-income Americans, we should look at natural-gas-based ethanol as a fuel for newer flex fuel cars and for large numbers of older vehicles converted to flex-fuel vehicles.

Ethanol is not perfect as a fuel but it is better than gasoline. It emits fewer GHG emissions and other pollutants harmful to the nation’s quality of life. Recent regulations, like ones initiated by Colorado, that significantly reduce emissions from drilling now will likely make life cycle environmental evaluations of natural gas changed into ethanol a much better environmental deal. The process appears technologically feasible at a cost lower than the production costs of gasoline. If ethanol is allowed to compete with gasoline by oil companies on an even playing field — oil companies generally control who gets what and where at most “gas” stations — ethanol will be cheaper than gasoline for the consumer.

It is relatively inexpensive to convert older cars to flex-fuel vehicles — perhaps as little as $100 to $200. Finding a way through lessening the cost of certification to expand the number of conversion kits certified by the EPA and, or, where relevant, allowing recalibration of software and engines, would expand the benefit-cost ratio for many older cars. Star light, star bright, we can have the wish we wish tonight concerning a cleaner environment and lower consumer prices in a relatively short time, while we continue to push for electric vehicles and a whole range of renewable fuels to achieve prime-time performance for most Americans.

Right, wrong and indifferent — the AAA, oil and alternative fuels

My favorite automobile service group — the AAA — has once again treaded without fear or trepidation into analysis. Remember earlier, when it suggested that E15 harms engines, based on what looked like an oil-industry-generated study? The AAA’s methodology was weak and its conclusions suspect, a judgment supported by the EPA’s response. According to the agency, AAA’s conclusions were erroneous and based on a limited sample. EPA’s own findings were generated from a relatively large sample of cars, indicating that E15 is safe for most engine types and reaffirmed the wisdom of its approval of E15 usage.

I was surprised to find an article in Oil Price by blogger Daniel Graeber, based to a large degree on comments from AAA’s Michael Green suggesting that the oil shale boom has prevented gas prices from going higher than they are now. Graeber approvingly quoted Green, who said, “Sadly, the days of cheap gasoline may never return for most American drivers despite the recent boom in North American crude oil production.” Assumedly, Green meant that the cost of drilling tight oil will remain high and the costs per barrel of oil will follow suit.

Green apparently went on to indicate that political leaders, particularly, members of Congress who argue for a drill-baby-drill policy, are wrong to link more wells to significant price relief for folks who find gas costs a real problem.

The AAA is right when it suggests that, despite the oil shale boom and signs of increasing demand in America, refineries are sending increased amounts of oil-based products overseas. Understandably, their patriotism doesn’t extend to accepting a lower price for oil in the U.S. when they can get higher prices overseas.

The article appears inconsistent, when at one point it mentions that crude oil inventories are running above average, and later blames current exports for low supplies and low supplies for preventing a drop in prices at the pumps.

Both are correct in indicating sales of oil products abroad probably do have an effect on costs-up to now probably marginal. Certainly, if Washington extends export privileges, increased sales of oil abroad may have a more significant impact on consumer costs. More relevant, however, concerning gasoline costs at the pump, will be economic recovery in the U.S., investor speculation and the oil sector’s ability to manage prices.

Cheap oil has been, recently, and likely will be in the future, a fantasy. The cost of oil per barrel has hovered at around $100 and upward for an extended period, and drilling in shale is relatively expensive. Continuous exogenous and existential (don’t you like those words — they create great passion and emotion) threats from the Middle East and Eastern Europe, also, will likely tilt oil prices upward in the near future.

I would commend the AAA, assumed by many to be the leading advocate for automobile owners in the nation, for grasping the fact that the behavior of producers is likely to lead to higher gas costs and create burdens, particularly for low and moderate-income groups. Now with this knowledge, shouldn’t the AAA argue for breaking oil’s near monopoly on fuel? If the AAA was really interested in helping vehicle owners lower their cost of fuel, it might take the lead in arguing for choice at the pump. Wouldn’t it be great if they really stood up for more open fuel markets as well as alcohol-based transitional fuels, such as ethanol and methanol? Competition at the pump from flex-fuel vehicles, combined with conversion of older vehicles to flex-fuel cars would, over time, mute increases in gas prices and, at the same, time generate environmental benefits for a better America. Support for alcohol-based fuels is consistent with support for renewable fuels, if one is concerned about the environment and GHG emissions. Let’s bring them on as fast as we can. But let’s acknowledge that renewable fuels are not really ready yet for prime time. They are too expensive for many Americans and their technical limitations, particularly concerning electric batteries, are not yet coincident with the desires of most Americans.

Rin Tin Tin, RINs and the price of ethanol

Is the son or daughter of Rin Tin Tin alive and well? For a while I thought he or she was, while catching up on my reading over the weekend. I kept reading articles about RINs (Renewable Identification Numbers), their possible impact on the ethanol market and relatively high ethanol prices, despite the apparent weakening of the ethanol market. There seemed to be RINs and more RINs on every page I turned! Because I hadn’t slept for two nights, I couldn’t really focus on the contents of the articles, but only on the dog Rin Tin Tin and his offspring. How many of you have done that? Come on, be honest. Don’t make me feel bad!

I felt guilty after it became obvious that my focus on Rin Tin Tin resulted from a tired brain and eyes. I am back to the complex world of RINs today. (I had a bit of sleep).

Okay, you ask, “What the hell are RINs?” They are sort of a pass at reflecting company fulfillment of government mandates concerning biofuels. For this article, think ethanol! They are issued at the point of ethanol production or the purchase of the fuel by companies. They are approved by the EPA. They reflect a credit that verifies that the required amount of ethanol has actually been blended into gasoline. Succinctly, the Renewable Fuel Legislation, now the law of the land, mandates that a Renewable Identification Number (RIN) must be attached to every produced or imported gallon of renewable fuel in the U.S. One more thing, RINs are separated from the batch of renewable fuel when it is blended with gasoline. This fact indicates compliance with the law and Renewable Volume Obligations (RVOs). Credits, at this juncture, can be used for trading purposes.

In 2012, before the EPA’s Nov. 2013 proposal to change RIN quotas and lower requirements for ethanol, the price of RINs was very volatile. Initially, they ranged around 1 to 10 cents a gallon. By spring of 2013, however, they were around $1.

Why the price increase and what does it bode for the price of ethanol in the future? Initially, the RINs were thought of as a way to encourage refiners to produce renewable fuels, like ethanol, and to “pay” for credits if they don’t “play” by  meeting fuel targets.

Part of the volatility and increase in costs of RINs, probably, has to do with speculation by banks and other financial institutions. Thomas D. O’Malley, chairman of PBF Energy, indicated in a recent New York Times article that financial institutions “helped transform an environmental program into a profit machine…These things were designed to monitor the inclusion of ethanol in the gasoline pool…They weren’t designed to become a speculative item. For the life of me, I can’t see the justification for it.” Interviews with members of the financial community, conducted by the New York Times, seem to suggest agreement with O’Malley.

According to the Times, speculation in RINs “could have consequences for consumers. In the end, energy analysts say, the outcome will be felt at the gas pumps — as the higher cost of the ethanol credits get tacked onto the price of a gallon of gasoline.” The Times reports that the “credits, which cost 7 cents each in January [2013], peaked at $1.43 in July, and [were] trading for 60 cents” in September. Jordan Godwin in the Barrel Blog indicated that like RINs in 2013, ethanol prices in 2014 are downright wacky. “In a matter of less than two months, ethanol prices went from six-month lows to eight-year highs.” Godwin and others blame delayed returning train cars during the winter and constraints on supply and production. I would add speculation by Wall Street and uncertainty as to the impact and longevity of EPA’s new regulations concerning the reduced mandates for ethanol and other biofuels. It’s a dilemma for proponents of alternative fuels. Less speculation regarding trading, sustained predictable production and refinement of the distribution system, (along with avoidance by some retailers and blenders to price ethanol well over costs) would facilitate more competition with gasoline at the pump. More predictable competition and larger sales at the pump of E15 and E85 would generate more private-sector fixes to the ethanol supply chain as well as likely stabilize prices and, over time, lower them. In light of ethanol’s benefits to the nation, wise folks might be asked to find policies and stimulate market behavior that permit the American people to have it both ways.

Khrushchev, Gorbachev, Putin , Ukraine and Oil

How many of you have ever been to Russia? It is a fascinating place filled with fascinating people. While in Russia facilitating an Aspen Global Forum of U.S. and Russian leaders,  I visited Nikita Khrushchev’s grave. He lies under six feet of earth — probably  banging his shoe and confessing that he still wishes he could have incrementally changed Russia.  He was not Gorbachev, but neither was he Rasputin.

On top of his grave was a very attractive gravestone. One half was white, the other half black. I asked the workmen what it meant.They explained the contrast by indicating that Khrushchev was part evil doer of black deeds, but also in part a good man who wanted to change Russia.

The gravestone seems to fit the current situation in Russia. It is a place of great thinkers, great writers, great dancers, great scientists and decent people, but it is also the land of Putin whose modus operandi is often dark and destructive. Putin is no Gorbachev!

In the present Ukrainian situation, the dark and dangerous side of Russian leadership is visible. Currently proposed Western sanctions are not persuasive. Paraphrasing, we won’t come to the G8 meeting in Sochi  and we won’t have any more relationships with your military are not earth shattering.Trade limits or sanctions, if announced, may hurt, but Russia’s ability to cut off natural gas to Europe and the Ukraine as a counter measure will marginalize any effort to develop meaningful  responses. Obama and his colleagues do not want to engage in military sanctions in order to counter Putin’s new version of our own Monroe Doctrine.

Speaking of energy, oil, and natural gas, most energy related U.S and Russian executives have not been told to slow down or avoid searching for new businesses in Russia. As a recent CNBC report indicated, “ the U.S. produces more natural gas than any other nation and Russia is now the biggest oil producer.” U.S. firms are seeking an increased stake in  Russian oil, which is light and good for gasoline.  U.S. companies are even building the rigs for Russian drillers. While the U.S. imports relatively little oil from Russia, this could change depending on price. Russia is still among the top five importers of oil to the U.S.  In light of the Russian actions in Crimea, the price of gas at the pump is expected to head up again. The stakes are high, and at the present time, no government leader in either nation has seriously suggested interfering with the export and import trade network between U.S. and Russia.

I suspect that the U.S. and Russia will eventually agree to a deal on some sort of a pullback in Crimea and the possibility of a monitored arrangement concerning Russians living in both Crimea and the eastern part of Ukraine. I could be wrong. Russia could insist on remaining in or even annexing the Crimea and it could invade part of Eastern Ukraine.  I pray neither happens!

Would we react militarily in some form or manner, as we have at times in the Middle East in order to secure oil and gas supplies for the Ukraine and other needy western nations? I think not!  Such a provocation would lead to war and is  beyond the pale  for even ardent proponents of “getting tough” with Russia.  Indeed, because Russia’s military is strong, the U.S. and the West will most likely avoid any significant direct military response to possible Russian occupation/annexation of of the Crimea and even eastern Ukraine.

Possible high impact economic sanctions — different from the ‘I won’t come to your meetings and you cannot come to ours’ brand — would not be favored by most Western European countries or even the Ukraine, as they are dependent on Russia’s natural gas.  At the present time, the real options we have to counter Russia’s nefarious activities are not the best ones. While we could fulfill some of our allies’needs by exporting natural gas and oil, the decision to do so deserves (and I suspect is getting) hard analysis, especially in light of domestic U.S economic, political and security concerns about supply as well as demand and a fear of environmental problems, as well as increased consumer costs at the pump here at home. If shipping overseas passes muster, moving natural gas to our European allies and Ukraine could work both in providing needed gas and in possibly negatively affecting the price of Russian gas. Despite acknowledging the theoretical goal of oil independence, the world, including the U.S., is oil and gas dependent. We are lucky to have natural gas in ample supply, and if sane environmental regulations are applied, we can limit related methane and GHG emissions as well as other pollutants. Finally, we have an evolving and growing alternative fuel sector testing and developing renewable fuels.  Opening up U.S. fuel markets and fuel stations to increasingly available flex fuel vehicles and alternative fuels for consumers, including natural gas based ethanol and methanol, as well as electricity, can make us less dependent.

Can Ethylene Replace Gasoline?

The effort to replace oil-based gasoline in our cars with similar fuels derived from natural gas took a big step forward last week with the announcement that Siluria, a promising start-up, will build a $15-million demonstration plant in Texas

The plant will produce ethylene, the most commonly produced industrial chemical in the world and the feedstock for a whole raft of products in the chemicals and plastics industry. But Siluria, which is not yet a public company, is also planning demonstration plants that will produce gasoline. Initial estimates are that the product could sell at half the price of gasoline derived from oil. If these projections prove to be anywhere close to reality, we could be on a path to a fuel economy that is finally able to cut its dependence on oil.

The idea of producing ethylene from natural gas has been around since the 1980s but achieved little success. Several major oil companies invested millions of dollars in the process but finally gave up on it. Jay Labinger, a Caltech chemist who did much of the initial research, finally wrote a paper in the 1980s warning other researchers that it was a waste of time. He may have given up too soon.

Siluria is a California-based startup that has received much of its funding from Silicon Valley investors who tried to move from computers and the Internet into the energy space over the last decade. So far their success hasn’t been great. In fact Vinod Khosla and other Silicon Valley energy entrepreneurs were the subject of an embarrassing critique on “60 Minutes” only two weeks ago. The Siluria venture, however, may be the gusher that makes up for all the other dry holes.

The 1980s efforts concentrated on heat-activated processes whereby methane is split into carbon and hydrogen and then recombined into the more complex ethylene, which has two double-bonded carbons and four hydrogens. All these efforts proved far too energy-intensive, however, and never became economical.

Siluria has been trying a different approach, seeking catalysts that would facilitate the process at much lower energy levels. Moreover, the company has spurned the more recent approach of trying to design molecules that fit the chemicals just right and gone back to the old shotgun approach where thousands of candidates are tried on a catch-as-catch-can basis.

Defying all expectations, the process seems to have worked. Siluria has come up with a catalyst that it says promotes the breakdown and subsequent reassembly of methane at very low energy levels. It has built pilot plants in San Francisco, Menlo Park and Hayward, California and last week announced plans for building a full-scale demonstration plant in La Porte, Texas in conjunction with Braskem, the largest petrochemical manufacturer in South America. If that isn’t proof that Siluria is on to something, what is

The implications of this development are enormous. Natural gas is two to six times more abundant than oil in the world and is now selling at 1/5th the price for an equivalent amount of energy. The traditional tandem pricing of oil and natural gas prices has now been broken and gas is functioning as a completely different commodity, much cheaper.

The difficulty all along has been that natural gas is hard to put into your gas tank. So far efforts have involved compressing natural gas, which means storing it at 3600 pounds per square inch, or liquefying it, which requires temperatures to be lowered to – 260 degrees F. Neither is very practical and would require a whole new auto engine and delivery infrastructure.

Efforts to convert gas into a liquid have concentrated around methanol, which is the simplest alcohol and has been used to power the Indianapolis 500 racing cars since the 1960s. But methanol is the deadly “wood alcohol” of the Prohibition Era and raises fears about poisoning – although gasoline is poisonous, too. The Environmental Protection Agency has never certified methanol for use in auto engines, although an M85 standard has been permitted in California.

Synthesizing gasoline through Siluria’s ethylene-based pathway could solve all these problems. Ed Dineen, CEO of Siluria, says that the gasoline product could sell at half the price of today’s gasoline. With more natural gas being found all the time – and with $1 billion being flared off uselessly around the world each year – any success in turning natural gas into a readily accessible automobile fuel could have a revolutionary impact on our entire economy.

Who Says Cars Have to Fill a Parking Space?

You’ve seen them zipping around city streets or squeezed into some illegal-looking space between a normal car and a fire hydrant.  At first you might have thought they were some kind of joke. Who would drive such a thing?  But the new mini-electrics are catching on and may be on the way to revolutionizing urban driving.

There is now a whole menu of them – the Chevrolet Spark, the MINI E, the Toyota IQ, the Fiat 500. Oddly, many of them are available only in California. That seems like a mismatch because they’re obviously better suited for the densely populated cities of the Northeast than California freeways. But those are the vagaries of state incentives and government mandates.

Most of them have a highly limited range.  125 miles is good and some are as low as 75. (A regular gas-powered vehicle can go 400 miles on a full tank.)  But they’re a niche model, obviously suited for running around town and finding a parking space in the vehicle-choked precincts of places like New York City. They can get up to the equivalent of 125 miles per gallon and with some newer accessories don’t take up to seven hours to recharge. Most important, they are getting down into a price range where they are accessible. Leasing prices are impressive (some of them are only available by lease) and with the incentives that the Golden State is offering, people in California can say they are getting a really good deal.

Here’ a list of some of the contenders:

  • Chevrolet Spark.  Originally produced as the Daewood Matiz by GM’s Korean division, the all-electric Spark went on sale in California and Oregon in 2013.  The car is a 146-inch-long four-door hatchback that sells for $27,000.  With a $7,500 federal tax credit and a $2,500 California rebate, however, it comes in at well below $20,000. The Spark can be leased for $199 a month. With an optional connector, it can be charged up to 80 percent in 20 minutes.
  • Fiat 500e.  An electric version of a car that has been sold in Europe since the 1950s, the 500e went on sale in California last year, selling 645 units. Range is barely 100 miles but it gets the equivalent of 116 mpg. The car is priced at $32,000.  Fiat says it will be available in several more states in 2014.
  • Chrysler’s Smart FortwoThe Smart Fortwo is a model that looks like you could fold it up in your back pocket or park it in your living room. Manufactured in France, it is barely eight feet long. It sells everywhere in the United States. Previously built for gasoline and diesel, the new all-electric model sells for only $12,000 and leases for $99 a month. You’re starting to see them more and more on the streets of New York City.
  • Toyota Scion IQPositioned as a direct competitor to the Fortwo, Toyota’s “city car” sold as a 3-cylinder gasoline engine until the electric version was introduced last year.  Estimated range is only 50 miles with a three-hour recharge, so it’s really limited to city driving. The price is high – $35,000 – and right now it’s only available for fleet purchases and car share programs. The first 30 units were bought by the University of California at Irvine.
  • Mitsubishi i-MIEV EV.  Introduced in Japan in 2008 and soon sold almost everywhere but in the United States, the “i” version was finally brought to these shores in 2011, a slightly larger version with some additional features.  The American version has a range of only 62 miles but was ranked by the EPA as the most fuel-efficient car in America until surpassed by the Honda Fit EV in 2012. It sells for $23,000.
  • Honda Fit EVStill only available on a lease basis, the Fit EV goes for $259 a month. Introduced only in California and Oregon in 2011, it is now available in New York, New Jersey, Maryland, Massachusetts, Connecticut and Rhode Island as well. The car only has an 80-mile range but is highly fuel efficient.

Getting people to accept the proposition of driving around city streets in something that looks like it could be sold on the floor of FAO Schwarz, of course, is an entirely different matter. In test driving a city car for The New York Times, Jim Motavalli reports a neighbor commenting, “It’s adorable, but I’m afraid it would be crushed by a Suburban.” The idea of weaving in and out of traffic in what amounts to a tin can is certainly not for everyone. But electric vehicles have lots of torque at the lower end of the spectrum and can be easily maneuvered. Plus if nothing else, they are loaded with safety features.

To anyone familiar with the dense urban streets of Athens or Buenos Aires, city cars would be a familiar sight. And of course the more there are of them, the less dangerous driving becomes. The progress of mini-cars is slow but you’re seeing more and more of them. In the end, they may revolutionize urban driving.

There’s Gold in Them Thar’ Flares

Walter Breidenstein may be the only CEO in America who still answers the company phone himself. If his operation is still something of a shoestring, it’s because he’s spent four years trying to duel with perhaps the most formidable foe in the country, the oil companies.

“I’ve been trying to get into North Dakota for four years to show them there’s a way to make money by stopping flaring,” says the 48-year-old who started his entrepreneurial career at 15 by washing dishes. “The oil companies have done everything they can to keep me out of the state and the bureaucracy has pretty much goes along with them. The companies know that as soon as they acknowledge we’ve got a workable system here, they’d have to buy one of our rigs for every well in the state.”

North Dakota, in case you haven’t heard, has become one of the biggest wasters of natural gas in the world by flaring off $1 billion worth a year while producing carbon emissions equal to 1million automobiles.  But oil is what the drillers are after and, as it was in the early days of the oil industry; gas is regarded pretty much as a nuisance. The result is gas flares that make the whole state look like neighboring Minneapolis from outer space.

The flaring has generated a lot of negative publicity, environmentalists are up in arms and landowners have sued over lost royalties. The big guys are starting to move into the state. The New York Times ran an article this week about new pipeline construction, fertilizer factories and GE’s “CNG in a Box,” which will capture flared gas and sell it asnatural gas.

Breidenstein has a different idea.  “Somewhere around 2000 I started reading about methanol technology and realized it was a very undervalued resource,” he says. “Then I read George Olah’s The Methanol Economy in 2006 and that convinced me.  At Gas Technologies we’ve been trying to put Olah’s vision into practice.”

Gas Technologies has developed a $1.5 million portable unit that captures flared gas and converts it to methanol. “It’s a very accessible device,” says Breidenstein.  “You can move it around on a flatbed truck.”  The company ran a successful demonstration of a smaller unit at a Michigan oil well last fall but still hasn’t been able to break into North Dakota.

“The oil companies’ attitude is that money is no problem as long as they don’t have to spend it,” says Breidenstein.  “I’ve been in the business 25 years and I know where they’re coming from. But the problem is no one is forcing them to deal with flaring. And as long as they can keep throwing that stuff into the atmosphere for free, nobody’s going to look for a solution.”

You’d think with a billion dollars worth of natural gas being burning off into the atmosphere each year, though, there’d be some say to make money off it and that’s what frustrates Breidenstein.

“Our rig costs between $1 and $2 million dollars,” he says.  “But by capturing all the products of flared gas, you can make around $3500 per day.  That puts your payback at around three to four years.  But the oil companies don’t think that way. They won’t look at anything that goes out more than six months.

That puts things in the hands of state regulators and so far they have sided with the oil companies. “By statute, the oil companies are allowed to flare for a year it there’s no solution that’s economical,” says Alison Ritter, public information officer for the North Dakota Department of Mineral Resources.  “There’s nothing we can do to require them to buy from one of these boutique firms. Many oil companies have already committed their gas to pipeline companies and they can’t back out of those contracts.”  Still, the pipelines may not be built for years. “You have to understand, the Bakken Oil Field is 15,000 square miles, the size of West Virginia,” adds Ritter.  “It’s hard to service it all with infrastructure. We’re building pipelines as fast as we can.” Of 40 applications for flaring exemptions submitted this year the state has approved two and denied one, with the other 37 pending.  While they are pending, flaring goes on.

Of course if Gas Technologies were to start receiving orders right now, they’d be hard pressed to produce a half-dozen of them let alone the 500 that the state might require. “We’ve had talks with venture capitalists but if you’re not from Silicon Valley, they’re not interested,” says Breidenstein.  “But we’ve got a business model here and we know it can work.”

At least someone has taken notice. This year Crain’s Detroit Business rated Gas Technologies Number One in the state for innovative technology, ahead of 99 other contenders, including General Motors, Ford, Volkswagen, Whirlpool, Dow Chemical and the University of Michigan.  “Because the Walloon Lake company’s patents are potential game-changers, its patents rank high on the value meter with a score of 156.57 (anything over 100 is considered good),” said the editors.

It may not be long before others start noticing as well.

Are Hydrogen Cars the Future – Again?

The hydrogen car may be on the road to another comeback – again.  At the annual auto show in Los Angeles last week, both Honda and Hyundai unveiled “concept cars” of hydrogen models they expect to be available by 2015.  As a result, the automobile press has been filled with stories its revived prospects.

“For a long time, hydrogen fuel-cell vehicles were seen as a tantalizing technology to help reduce society’s reliance on oil,” Brad Plumer wrote in the Washington Post. “But the vehicles themselves were seen as forbiddingly expensive. Not the pendulum may be swinging back.”

“Toyota made a decagon – the fuel-cell car is going to be a big part of our future,” wrote Bradley Berman in The New York Times, quoting Toyota spokesman John Hanson.  “Today Toyota is not alone,” he continued. “Four other carmakers – General Motors, Hyundai, Honda and Mercedes-Benz – are also promising fuel-cell cars in the next few years.”

The prospect of an automobile running on hydrogen is indeed perpetually attractive.  Hydrogen is the most common element in the universe.  When combined with free oxygen in the atmosphere it “combusts” to produce H2O – water.  There are no other “exhausts”. Thus hydrogen promises transportation absolutely clean of any air pollution.  No global warming, either.

But it isn’t quite that simple.  The question that always presents itself is, “Where do you get the hydrogen?” Although hydrogen may be the most common element on earth, all of it is tied up in chemical compounds, mostly methane and water.  Accessing this hydrogen means freeing it up, which requires energy.

Most of our commercial hydrogen is made by “reforming” natural gas, which splits the carbon and hydrogen in methane to produce carbon dioxide and free hydrogen. That doesn’t help much with global warming.  Another method is to split water through electrolysis. That is a much cleaner process but requires a considerable amount of electricity. Depending on what power source is used, this can produce zero or ample emissions. If it’s coal, the problem is made much worse. If it’s clean sources such as solar or nuclear, then there can be a strong advantage. In the 1930s, John Haldane proposed giant wind and solar farms that would generate hydrogen that could fuel all of society. Such facilities generating hydrogen for transportation would be a step toward such a utopia.

Even then, however, there are problems.  Hydrogen is the smallest molecule and leaks out of everything.  It is very difficult to transport.  Joseph Romm, a disciple of alternative energy guru Amory Lovins, was appointed head of hydrogen car development program under President Bill Clinton and worked for two years on its development.  In the end, he became very disillusioned and wrote a book entitled The Hype About Hydrogen, in which he argued that the idea really wasn’t practical. Romm is now one of the country’s premier global warming alarmists on ClimateProgress.org.

What has apparently brought hyfrohgen cars back to the forefront has been the substitution for platinum as the principal catalyst in the fuel cell process.

A fuel cell produces an electric current by stripping the electron off a hydrogen atom and running it around a barrier that is otherwise permeable to a naked proton.  The proton and electron are reunited on the other side of the barrier, where they combine with free oxygen to form water.  Until recently, platinum was the only substance that could fill this barrier function. This made fuel cells very expensive and raised the question of whether there was enough platinum in the world to manufacture fuel cells in mass production.  But several platinum substitutes have now been found, making fuel cells considerably cheaper and more accessible.

Estimates are now that next year’s Hyundai and Honda FCVs will sell for about $34,000, which puts them in the range of electric vehicles such as the Nissan Leaf and the Toyota Prius.  (The Tesla, a luxury car, is  priced in a much higher range,)  The problem then becomes fueling.  The FCV offers considerable advantages over the EV in that it has a range of 300 miles, comparing favorable to gasoline vehicles.  It can also be refilled in a matter of minutes, like gasoline cars, whereas recharging  an EVs can take anywhere from  20 minutes to three hours. But hydrogen refueling stations have not materialized, despite former governor Arnold Schwarzenegger’s promise of a “hydrogen highway.” At last count there were 1,350 EV recharging stations around the country but only ten hydrogen stations, eight of them In Southern California.

All this suggests that neither hydrogen cars or electric vehicles will be sweeping the country any time soon.  Neither the Chevy Volt nor the Nissan Leaf have sold well and are not expected to do much better next year.  If you read the press stories carefully, you soon realize that the reason the automakers are constantly cycling back and forth between electric and hydrogen cars is that they are trying to meet California’s requirements for low-emissions vehicles that will allow them to continue selling in the state. The problem, as always, is consumer resistance..  The automakers can manufacture all the hydrogen and electric cars they want but consumers are not always going to buy them, especially at their elevated price.  So the manufacturers will end up dumping them on car rental agencies where they will sit on the back lots, as did the first generation of EVs.

There is, however, one type of alternative that succeeded handsomely in California and had widespread consumer acceptance, although it is completely forgotten today.  That is methanol.  In 2003, California had 15,000 cars running on blends of up to 85 percent methanol.  Consumers were extremely happy and did not have to be dragooned into buying them.  Refueling was easy since liquid methanol slots right into our current gas stations. Cars that run on methanol can be manufactured for the same price as cars that run on gasoline.

The experiment only ended because natural gas, the main feedstock for methanol, had become too expensive.  In 2003, natural gas was selling as high as $11 per mBTU, making it more expensive than gasoline.  That was before the fracking revolution.  Today natural gas sells for less than $4 per mBTU and the industry is coping with a glut.  Methanol, which is already produced in industrial quantities, could sell for $1 less than motorists are now paying for energy equivalent in gasoline.  Moreover, methanol can be made from garbage and crop wastes and a variety of other sources that would reduce it’s carbon footprint.

Hydrogen and electric cars each have a future and it is good to see the auto companies keep experimenting with them.  But each has impediments that are going to be difficult to overcome. Methanol, on the other hand, is a technology that could be implemented today at a price that not require subsidies.  Even if it is only perceived as a “bridge” to some more favorable, low-carbon future, it is worth pursuing now.

 

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.

 

It’s not the oil we import that makes us vulnerable, it’s the price

The United States Energy Security Council has written a brilliant report explaining why neither increased production nor improved conservation will solve our oil problems or free us from dependence on world events.

The Council numbers 32 luminaries from across the political spectrum, including such diverse figures as former National Security Advisors Hon. Robert McFarlane and Hon. William P. Clark, former Secretary of State Hon. George P. Shultz, Gen. Wesley Clark, T. Boone Pickens and former Sen. Gary Hart. The study, “Fuel Choice for American Prosperity,” was published this month.

The report wades right in, pointing out that even though our domestic production has increased and imports are declining, we are still paying as much or more for imported oil than we did in the past. The report states, “Since 2003 United States domestic oil production has risen sharply to the point the International Energy Agency projects that the United States is well on the way to surpassing Saudi Arabia and Russia as the world’s top oil producer by 2017. Additionally fuel efficiency of cars and truck is at an all-time high. As a result of these efforts, U.S. imports of petroleum and its products declined to under 36% of America’s consumption down from some 60% in 2005.”

Good news, right? Well, unfortunately not so fast. The report adds, “None of this has had any noticeable downward pressure on global oil prices. Over the past decade the price of crude quadrupled; the value of America’s foreign oil expenditures doubled and the share of oil imports in the overall trade deficit grew from one third to about 5%. Most importantly, the price of a gallon of regular gasoline has doubled. Despite the slowdown in demand, in 2012 American motorists paid more for fuel than in any other year before.”

How can it be that all this wonderful effort at improving production still has not made a dent in what Americans pay to fill up their cars? The problem, the study says, is that OPEC still has enough monopolistic market leverage to keep the price of oil where it wants. “While non-OPEC supply has been increasing and while the world economy is growing by leaps and bounds, OPEC, which holds some three quarters of the world’s economically recoverable oil reserves and has the lowest per barrel discovery and lifting costs in the world, has failed to increase its production capacity on par with the rise in global demand. Over the past four decades, world GDP grew fourteen-fold; the number of cars quadrupled,; global crude consumption doubled. Yet OPEC today produces about 30 million barrels of oil a day (MBD) – the same as it produced forty years ago.”

This means that even though we’re doing very well in ramping up supply and reducing demand, the overall distribution of reserves around the world still weighs so heavily against us that we’re basically spinning our wheels as far as what we pay for oil is concerned. The Council sums it up succinctly: “What the U.S. imports from the Persian Gulf is the price of oil much more so than the black liquid itself.”

So, what can we do? The Council says we have to change our thinking and come up with an altogether new approach: “If we are to achieve true energy security and insulate ourselves from countries that whether by design or by inertia effectively use oil as a economic weapon against us and our allies, America must adopt a new paradigm – one that places oil in competition with other energy commodities in the sector from which its strategic importance stems: the transportation fuel market.”

In other words, quite simply, we have to find something else to run our cars. “Although this may appear to be a daunting task, our country — and the globe — is abundant in energy resources that are cost-competitive with petroleum.”

In fact, there are numerous alternatives available. We have natural gas that can be used in a variety of ways, we have biofuels and we have electricity; all of which exist in abundant supply. What prevents us from using many of these alternatives is a regulatory regime and political inertia that prevents them from being employed. “Cutting into oil’s transportation fuel dominance has only been a peripheral political objective over the past forty years with inconsistent support or anemic funding from one Administration to the next. Competing technologies and fuels to the internal combustion engine and to gasoline and diesel have often been viewed as political pet projects by the opposing party. . . . What we must do is relatively simple: level the playing field and end the decades-old regulatory advantage that petroleum fuels have enjoyed in the transportation fuel market. By pursuing a free market-oriented policy that has as its primary objective a competitive market in which fuels made from various energy commodities can be arbitraged against petroleum fuels, the United States can lead the world in placing the best price damper of them all – competition – on oil.”

The Council is particularly critical of the “multiplier” system that has allowed the Environmental Protection Agency to become the arbiter of which alternative vehicles win favorable regulatory approval. The Corporate Average Fuel Efficiency (CAFE) standards have now been set so high — 54.5 mpg by 2025 — that no one realistically expects them to be achieved. But automakers can win “multipliers” by manufacturing alternative-fuel vehicles that are counted as more than one car, thus lowering the fleet average. The value of this multiplier, however, is determined solely by the EPA.

But as the study points out, the EPA has a conflicting mandate. On the one hand, it is supposed to be cutting gasoline consumption but on the other it is concerned with cutting pollution and carbon emissions. (Just why the EPA and not the Department of Energy is administering the CAFE program is a question worth asking.) So the EPA tends to favor cars that do not necessarily improve energy consumption, but cut emissions. Thus, it awards a two times multiplier to electric vehicles and fuel cell cars by only 1.3 times for plug-in hybrids and compressed natural gas. Meanwhile, flex-fuel vehicles, which could do most for reducing oil consumption, get no multiplier at all.

The Energy Security Council has many other good recommendations to make as well. I’ll deal with them at length in a later column. But for now, the takeaway is this: Greater production and improved efficiency will only get us so far. The real key to lowering gas prices and freeing ourselves from foreign dependence is to develop alternatives to the gasoline-powered engine.