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Take me shopping for eggs, copper and corn starch

Good news for a world often filled with bad news has recently been generated by two major U.S. universities, both in regards to the efficacy of alternative fuels. Maybe the announcements will lend confidence that America can find a way to balance economic growth with environmental concerns. Increasing success over time will mean that (paraphrasing in part, the late Sen. Robert Kennedy) the nation will not have to accept “what is” with respect to the dominance of gasoline as a fuel, but can consider “what could be” concerning the use of alternative, cleaner, safer, environmental-better and cheaper fuels.

Stanford University professors, in a paper co-authored by Dr. Matthew Kanan, assistant professor of chemistry, announced that they have developed a copper catalyst that can efficiently convert carbon monoxide and water into ethanol. Quoting from a recent MIT Technology Review (April 2014), “while the work is still experimental, it’s significant because the group was able to synthesize ethanol and other desired products with so little energy input.” The Stanford researchers envision a “two-step process in which carbon dioxide is first converted into carbon monoxide using either existing processes or more energy-efficient ones that are currently under development. Then, the carbon monoxide would be converted to ethanol or other carbon-based compounds electrochemically. The key to the new catalyst is preparing the copper in a novel way that changes its molecular structure.”

How long will it take to get from idea to market? If the copper-based process survives further lab tests and evaluations, and if it is then converted into a prototype that is able to produce ethanol fuel, a big push to convert the prototype to real-world status from both the private sector and government would be warranted.

Stanford’s “breakthrough” — if the process becomes marketable and can generate lower-priced, environmentally-safe ethanol that is capable of fueling flex-fuel vehicles (FFVs) and older, converted FFVs — will be significant, even perhaps a disruptive technology. With the proper support, hopefully in the not-too-distant future, increased use of the copper catalyst will minimize and maybe even end the food vs. fuel and land-use allocation fights, as well as help resolve GHG emissions and other pollutant issues that have sometimes frustrated the use of corn-based ethanol and muted receptivity to natural-gas-based ethanol. Technological improvements concerning production reflected in recent life-cycle analysis of corn-based ethanol and reasonable assumptions concerning the cost and environmental benefits of natural-gas-based ethanol, combined with the success of Stanford’s copper catalyst approach, could offer owners of FFVs (both converted and new vehicles) a wider variety of alternatives to secure ethanol that, clearly, will be cheaper, safer and better for the environment.

Stanford’s good news was matched by Cornell’s. Dr. Yingchao You and Dr. Hao Chen announced that they had discovered that a component of corn starch and the yolk shell structure of eggs improve the durability and performance of lithium batteries. In this context, they note that lithium-sulfur batteries are a very solid alternative to lithium-ion batteries. Stabilization problems related to its capacity can be resolved by using amylopectin, a polysaccharide (mainly good old corn starch).

Enveloping the battery’s lithium sulfur cathodes, with an encasing resembling the shell of an egg yolk (sulfur coated with an inexpensive polymer) also apparently improves the battery’s durability and performance.

Cornell has initiated a startup company to take the new and improved starch, egg-yolk shell battery to market. Maybe sometime soon, moderate and middle-income owners of electric cars that are less expensive than what is now available will be able to reduce their fear of driving long distances and feel confident about the life and efficiency of the batteries in their vehicles.

I avoided chemistry, physics and engineering in college. I knew I was not destined to become neither city planner nor designer at MIT when my first student-planned bridge went under water instead of over it. While my efforts were applauded by the Malthusians among my colleagues, they were not regarded highly by professors. Since graduation, unless supported by respected colleagues with a background in relevant sciences and engineering, I have been hesitant to suggest approval of science-driven energy innovations. I am a policy and program person. However, after review and discussions with trusted experts, I believe the Stanford and Cornell initiatives have a good chance to see the light of day, or, more appropriate, see the light in the market place. If one or both do, we will all be better off and the number of feasible alternative transportation fuels available to the consumer will grow. Hooray for copper, starch and eggs.

The Battle Over Ethanol Takes Shape

The decision isn’t scheduled until June but already opposing sides are converging on Washington, trying to pressure the Environmental Protection Agency over the 2014 Renewable Fuel Standard for ethanol.

Last week almost 100 members of the American Coalition for Ethanol descended on the nation’s capital for its annual “Biofuels Beltway March,” buttonholing 170 lawmakers and staffers from 45 states.  The object was to send a message to EPA Administrators Gina McCarthy to up the ante on how many billions of gallons the oil refining industry will be required to purchase this year.

The ethanol program is currently in turmoil.  The latest problem is rail bottlenecks that have slowed shipments and created supply shortages over the winter months.  Record-breaking cold and four-foot snow pack have been partly responsible but the rail lines are also becoming overcrowded.  With all that oil gushing down from the Bakken and Canadian crude now finding its way into tank cars as the Obama Administration postpones its decision over the Keystone Pipeline, ethanol is getting tangled in traffic.  .

“Ethanol for April delivery sold for about $3.02 a gallon on the Chico Board of Trade, an 81 percent increase over the low price during the past 12 months of $1.67 a gallon reached in November,” reported the Omaha World-Herald last Friday  “This weeks settlement price of $2.98 a gallon was the highest since July 2011.”  With only so much storage capacity, some ethanol refineries have been forced to shut down until the next train arrives to carry off the inventory.  As ethanol becomes mainstream, it is becoming more and more subject to market events beyond its control.

But the big decision will be EPA’s ruling in June.  In accord with the 2008 Renewable Fuel Act, Administrator McCarthy must set a “floor” for amount of ethanol refiners will have to incorporate into their blends during 2014.  The program ran into trouble last year when the 13.8 billion gallon requirement pushed ethanol beyond the 10 percent “blend wall” where the auto companies will not honor warrantees in older cars.  Refiners were forced to purchase compensating Renewable Identification Numbers (RINs), which exploded in value from pennies to $1.30 per gallon, forcing up the price of gasoline.  Contrary to expectations, gasoline consumption has actually declined over the last six years, from 142 billion gallons in 2008 to 134 billion in 2013 as a result of mileage improvements plus the lingering effects of the recession.  Last November McCarthy proposed reducing the 2014 from 14.4 billion gallons to 13 billion.  The industry has been crying “foul” ever since.

But there are other ways to fight back.  Last week in Crookson, gas stations were offering Minnesota drivers 85 cents off a gallon for filling up with E-85, the blend of 85 percent ethanol that many see as the real solution to the blend-wall problem.  “We want the public to understand there are different ratios of gasoline and ethanol and how they can save you money,” Greg LeBlac, of the Polk County Corn Growers, told the Fargo Valley News. 

At the annual meeting of the American Fuel and Petroleum Manufacturers (APFM) in Orlando last week, Anna Temple, product manager at WoodMac, made the case that the industry should forego efforts to raise the blend wall from 10 to 15 percent and instead shoot for the moon, leapfrogging all the way to E-85, where ethanol essentially replaces gasoline completely.  (The 15 percent only ensures starts in cold weather.)

“E-15 is a non-starter in terms of market share,” Temple told her audience, as reported by John Kingston’s in Platts.  http://blogs.platts.com/2014/03/25/eight-fillups/  She argued the incremental battle would absorb vast amounts of political capital yet still not be enough to absorb the 15-billion-gallon target for 2021.  Instead, Temple pointed to the growing fleet of flex-fuel vehicles that now numbers around 15 million, headed for 25 million in 2021 or 10 percent of the nation’s 250-million-car fleet.

“If U.S. drivers poured about 200,000 barrels-per-day of E-85 into their flex fuel cars in 2021, that would take care of about 17 percent of the scheduled ethanol mandate,” Temple said.  “It would only require that flex-fuel owners fill a 15-gallon tank eight times a year.”   The remainder would be absorbed in the 10 percent blend and ethanol producers would not have to cut output.

Platts’ Kingston checked the math and found that even this goal would leave ethanol consumption slightly above the blend wall at 10.5 percent.  “Still, the very modest number of eight fill-ups per flex fuel vehicles per year makes the whole blend wall issue seems a lot less daunting,” he confessed.

Of the 15 million people who own flex-fuel vehicles, of course, many don’t even realize it.  (The yellow gas cap or a rear-end decal are the giveaway.)  But the number of gas stations offering E-85 pumps is rising.  The Energy Information Administration now estimates the number at 2,500 with most of the growth taking place outside the Midwestern homeland.  California and New York each have more than 80 stations apiece.

The problem of rail bottlenecks can probably be solved by increasing the number of E-85 outlets and flex-fuel vehicles to bring supplies closer to the place of consumption.  Still, the industry would probably be happy to have a bigger renewable fuel mandate as well.

Can New Catalysts Turn the Corner for Methanol?

The concept of converting our abundant natural gas supplies into liquid methanol in order to replace oil in our gas tanks has had trouble gaining traction for several reasons, all of which are about to face change.

The first reason is that most of the attention towards additives has been focused on ethanol made from corn. Driven by highly specific government mandates, corn ethanol — which now consumes 45 percent of the country’s corn crop — has taken up whatever role industrial methanol might have been chosen to play as a gasoline additive.

Secondly, there’s the problem of the Environmental Protection Agency. Not only has the EPA not approved methanol for gas tanks, the organization actually imposes huge fines on anyone who converts a gasoline engine to methanol without its permission.

The third, and less distinguishable explanation for methanol’s difficult implementation, is that the whole idea has never been very sexy. Methanol has little to do with the “Cutting Edge” or the “New Age Economy.” The manufacturing of methanol is a 60-year-old process practiced doggedly by dozens of industrial facilities around the world. They produce 33 billion gallons a year at the reasonable price of $1.50 per gallon; the energy equivalent of $2.35 gas. Meanwhile, Elon Musk seems to announce a new milestone for the Tesla, or some “breakthrough” in battery technology or cellulosic ethanol emerging from the university laboratories each week, making methanol appear rather plain-Jane and old fashioned. In effect, the solution to our gas tank woes has been hiding before us in plain sight.

Now an announcement from the Scripps Howard Research Institute and Brigham Young University may change everything. In a paper published last week in Science, a team led by Roy Periana of the Scripps Florida Center and Professor Daniel Ess of Brigham Young University say they have found catalysts made from the common elements of lead and thallium that facilitate the conversion of gaseous methane to liquid methanol, potentially making the process even cheaper and more accessible.

The hydrogen bonds in the alkanes (methane, ethane, propane, etc) are among the strongest in nature. To break them involves a heat-driven process invented in the 1940s that is conducted at 900 degrees Celsius. For more than two decades, the Scripps team has been looking for catalysts that would shorten this heat requirement. In the 1990s they came up with a series of catalysts employing platinum, palladium, rhodium and gold, but quickly realized that these elements were too rare and expensive for commercial application. So it was back to the drawing boards in search of something more useful.

Last week in Science they reported success:

The electrophilic main-group cations thallium and lead stoichiometrically oxidize methane, ethane, and propane, separately or as a one-pot mixture, to corresponding alcohol esters in trifluoroacetic acid solvent.
The process reduces the heat requirement to only 200 degrees Celsius, which introduces enormous potential for energy savings. That “one-pot” notation is also crucial. Methane, ethane and propane all come out of the Earth together in natural gas. Currently, they must be separated before the heat-driven process can begin, With the new catalysts, no separation will be necessary. This means that methanol could become significantly cheaper to harvest than it already is. More importantly, these findings signify that methanol conversion will be able to weather the inevitable price increases that will result as demand for natural gas supplies multiplies.

Periana says the process is three years from commercialization. Reports Chemical & Engineering News:
The team is in discussion with several companies and entrepreneurs and would ideally like to jointly develop the technology with a petrochemical company or spin off a startup.

Periana also claims that “Initial targets would be higher-value, lower-volume commodity chemicals such as propylene glycol or isopropyl alcohol directly from propane.” He told reporter Stephen Ritter:

The next target could be to develop lower-temperature processes for higher-volume chemicals, such as converting methane to methanol and ethane to ethanol or ethylene as inexpensive sources for fuels and plastics.

An enormous portion of the world’s energy consumption is still tethered to oil, particularly the transportation sector, where oil constitutes 80 percent of consumption. As oil becomes more and more difficult to find, natural gas use is escalating. In addition, 25 percent of the world’s gas is still flared off because it has been uneconomical to capture. All this could change rapidly if a low-cost conversion to methanol becomes a reality. Reuters grasped the implications of this development when it reported that the new catalytic processes “could lead to natural gas products displacing oil products in the future.”

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 Sochi Lead To A New Alternative Energy Coalition?

During the late 1980s, I had the good fortune, thanks to the Rockefeller Foundation, to lead and facilitate an Aspen Global Forum between Russian and U.S. leaders in Sochi; the site of the present Olympics. The subject was economic development in the then already fragmenting, Soviet Union.

Sochi was beautiful but back then was a relatively small resort city for vacationing Russian nomenklatura. I have three memorable funny stories (at least for me) related to Sochi. I will try linking them, for better or worse, with the need for alternative fuels.

Getting to Sochi at the time provided a unique experience. The U.S. delegation which included a former U.S. Senator, several Wall Street titans, the editor of a major national newspaper, leading members of the Denver business community and myself (I was a Dean at the University of Colorado at the time) were told when we arrived at the Moscow airport in a snowstorm, we had to fly out of Moscow’s second smaller airport. We all dutifully were taken by shuttle, very slowly given the snow, to what seemed like an old, a very old facility. We quickly boarded what appeared to be a jet plane on its last legs. It was late at night and the snow was still blowing strong. The plane’s seats were broken and the bathrooms didn’t work. The cabin crew was nice but spoke only in difficult to understand broken English. Not an auspicious start to the trip. Two members of our delegation asked the pilot for 10 minutes to go into the terminal (an exaggeration of the term) to buy two or three bottles of vodka to give us courage and calm our nerves. They did get permission. It turned into a fun flight.

After we checked into the Intourist Hotel in Sochi, we all went to bed. One of the members of our delegation was a smart, tough, but very funny reporter and op-ed writer for the Rocky Mountain News. She came down the next morning and indicated most of her winter clothes were stolen from the room, while she was sleeping. I went up to the Manager of the hotel and told him what had happened. He was dutifully contrite. Every day while we were there, the reporter received a nice gift of new winter clothing to wear in the snow. At the end of the week, I thanked him and said, next time, have them take my clothes!  He laughed. I was serious!

The Russian delegation hosted us in the summer home of an apparently famous Russian oligarch, whose name I forget, about 100 or so miles from Sochi. They took us there in big Army helicopters. We flew over and between the mountains and valleys of the Caucasus. The mountains were covered with much snow and looked gorgeous. One of the Russian guides opened the door so we could get a closer view. A big mistake! A member of the U.S. delegation, a well-known war experienced woman journalist, based I believe at the time in D.C, shouted close the f….n door. “I have covered many wars and been shot at. I survived. I don’t want to go down in a helicopter. We can look at the snow through a window.” She was right. At that point the helicopter seemed tilted at a significant angle to please us. We all were a bit scared but didn’t want to hurt our Russian hosts. She had no such fear. The door was closed.

If anything, except fuzzy memories, ties these stories together, it’s the snow and the mountains and a thought about building a coalition around alternative and renewable fuels to save the beauty of both and to the jobs they provide both up and down stream.

Based on the over 50 degree temperatures in Sochi during the current Olympics and the lack of abundant snow, The New York Times indicated that Daniel Scott, a professor of global change and tourism at the University of Waterloo in Ontario, was stimulated to project the future of winter sports. He noted that with a rise of global temperature possible by 2100 of 7 degrees Fahrenheit, there might not be many snowy regions left to hold the Winter Olympics.  He concluded “that of the 19 cities that have hosted the Winter Olympics, as few as 10 might be cold enough by midcentury to host them again. By 2100 the number will shrink to six.”

Of the 960,000 winter sports industry jobs are supported by winter sports in the U.S. 27,000 have already been lost because of lack of snow, according to a recent NRDC report. More will be gone next season if snow fall totals continue to decline.

If we can easily check the box on one or more of the following: concern for the health of the economy, concern for the environment, concern for the quality of our water supply and the availability of water, concern for the future of the ski industry and winter sports off and on mountains, then even if we don’t ski, and even if greenhouse gas is not a top priority for some , we should be able to foster a strong coalition between environmentalists, business, nonprofits,  natural gas and renewable fuel  advocates. Its mandate would be to work on speeding up use of alternative natural gas based transitional fuels  and helping place electric cars on a faster and cleaner track to market acceptance. The strategy is not perfect by any stretch of the imagination but it will at least get the country started on a path that will reduce harmful environmental impacts of gasoline including significant GHG emissions and other pollutants. It may also help slow down the browning of our mountain areas and the closure of winter resorts and the manufacturing and retail sectors that serve them.

America needs a good dose of pragmatism and probability curves to guide its fuel policies. Advocates of natural gas based fuels and renewables should be able to coalesce around the President’s agenda with respect to weaning the nation off gasoline (one of the biggest carbon emitters) and gasoline only vehicles.

Assuming electric utilities continue to switch from coal to cleaner natural gas; scholars suggest that electric cars will be of help in reducing total carbon emissions. But EV’s are not yet ready for prime time for most low, moderate and middle class households, in light of the relatively low mileage secured on a single battery charge, the absence of retail distributers, the small vehicle size and price. When they are, let the competition begin, remembering all the while that real change in emissions and reduction of pollutants, will come after the conversion of large numbers of existing cars to flex fuel vehicles and their ability to use natural gas based fuels. Back to Sochi and indeed to the mountains throughout America, when we are asked every Christmas whether there is a Santa Claus, lets us be able to look up at magnificent snow-capped mountains and collectively say, yes there is a Santa Claus and then sing loudly, Let it snow, Let it snow, Let it snow.

 

No Sex-Just Smirking; No Lies-Just No Strategic Thinking; No Videotapes- Just Lots Of words And Ideology

According to several well-known writers of blogs and columns, based on a recent study by North Carolina State University, EDV’s (electric cars, hybrids and plug ins) are not all they are cracked up to be. Because they may be powered by a coal or natural gas utilities, they spew pollutants, because hybrids may use gasoline, they emit ghg and other pollutants, because their production processes are “dirty,” they generate more pollutants than gasoline.

Electric cars in China have an overall impact on pollution that could be more harmful to health than gasoline vehicles…  EDVs ghg reduction will not make a big difference because the total number of vehicles in the U.S. only produces about 20 percent of all carbon emissions.”

I have seen higher numbers than stated by the writers concerning carbon emissions by cars and trucks fueled by gasoline. It is not clear whether the North Carolina study compared general supply chains to supply chain specifics. For example, EV engines use a proportionately large share of aluminum. Its mining probably emits more ghg than materials used in non evs. Yet, its use in cars, given its lighter weight, produces less emissions.

More relevant, perhaps, while recently there has been some retreat because of rising natural gas costs compared to coal costs, in the long term future, (perhaps aided by government regulations of carbon emissions,) conversion of coal based power generation to natural gas will  again trend upward and lower the total ghg allocated to EDVs.

The bloggers and columnists as well as the North Carolina scholars seem to believe in the theory that if you build it they will come.  Indeed, the most frequent comments on the models used in the study relate to one model, that is, a 42 percent EDV market share by 2050. It presumes a government cap on emissions.   Apparently, according to this model, any ghg reductions caused by EDVs will soon be filled up by other emitters. According to the study’s author, Joseph DeCarolis, ( interviewed by Will Oremus, a critic of the paper in his article in Future Tense, Jan. 27),   “It’s that there all this other stuff going on in this larger energy system that effects overall emissions.” I would add based on the study, DeCarolis presumes ghg emissions are fungible and equilibrium will result in 2050.

Diminishing the ghg importance of  EDVs ,  more than three decades out,  shifts  issues and initiates arguments over whether or not government should have a tougher cap; whether or not other sectors of the economy will illustrate more or less ghg emissions; whether or not technological advancements focused on ghg reduction across the economy will remain almost static; whether or not businesses will accept ghg reduction as a must or as part of  “conscientious capitalism” both to sustain profits and quality of life.

The continued development and increased sales of edvs are important to the nation’s long term effort to reduce ghg and other pollutants. But, until evs among edvs increase mileage per charge to remove owner fear of stalling out in either remote or congested places like freeways and until the price comes down and size increases for families with children, they will at best constitute a relatively small share of the new market for cars in the  near future. Even if the total numbers of edvs significantly increase their proportion of new car sales, many years will pass before they, will collectively, play a major role in lessening the nation’s carbon footprint.

Perfectibility not perfection should be a legitimate goal for all of us concerned with the environment. Individuals and groups concerned with the economic and social health of the nation should drop their ideological bundling boards. (Some of us are old enough to remember the real origins of the bundling board. Because of a shortage of space in many homes, it was used to separate males and females who often slept together before they were married in revolutionary days. I am not sure it was abandoned because mores changed, houses got bigger or people got splinters. I have no videotapes!)

2014 should witness the development of a non-partisan,non- ideological coalition of environmental, business, non-profit, academic  and government leaders to embrace  the need for an effective transitional alternative fuel strategy for new and existing cars and EDVs.  The embrace should respond to national and local objectives concerning the environment, the economy, and security and consumer well-being.   A good place to start would be to extend the use of natural gas based fuels, including ethanol and methanol.

Simultaneously, the coalition should encourage Detroit to expand production of flex fuel cars and the nation to implement a large scale flex fuel conversion program for existing cars.  Added to the coalition’s agenda should be development of a more open fuels market and support for intense research and development of EDV’s, particularly EVs.  Hopefully, evs will soon be   ready for prime time in the marketplace. Succinctly, we need both alternative fuels and evs.

A Big Year for Natural Gas Vehicles

“The NGV market experienced a growth spurt in late 2013, and that is expected to continue in early 2014, with new engineers and vehicles coming to market.”

That’s the conclusion of a very optimistic report issued by Navigant Research on the progress of natural gas vehicles – particularly NG trucks and buses – in the United States and the world.  (The report, sorry to say, costs $4000 but the executive summary can be seen online at http://www.navigantresearch.com/research/natural-gas-trucks-and-buses.)

“As the cost of oil climbs and emission from large diesel and gasoline engineers garner more scrutiny, fleets and governments are increasingly looking for alternative to fulfill their needs at lower costs and with lower emissions,” says the study.  “At the same time, new drilling techniques and new pipelines make natural gas a significantly more competitive vehicles than a decade ago.  The result is growing markets for medium duty and heavy duty NG trucks and buses.”

Indeed, the Navigant report does not anticipate an expanding market for natural gas vehicles in general but sees growth concentrated in the area of trucks and buses, particularly fleet vehicles for large corporations and municipalities.  The great advantages here are: a) vehicles can be bought in bulk; b) they can be fueled at central depots, and c) fleet vehicles tend to pile up the mileage, which means a quicker payback period from savings over gasoline.

In Palmdale, California, AT&T has converted its utility trucks to compressed natural gas in an effort to save money on fuel and cut down on carbon emissions.  “The vans are large enough to accommodate bulky gas canisters hidden beneath the floor,” reports Robert Wright in the Financial Times.  [http://www.ft.com/intl/cms/s/0/9f06bea8-69ea-11e3-aba3-00144feabdc0.html#axzz2osEhWAna]  The conversion costs $6,000 but operating costs will be reduced 10 cents per mile, meaning the initial investment will be recouped after 60,000 miles.  Most utility fleet vehicles hit that number within two years.

Some municipalities are even finding it worthwhile to switch to natural gas in smaller vehicles.  In Conway, Arkansas, the police department’s Chevy Tahoes are being converted to run on natural gas.  The effort is being promoted by Southwestern Energy, which will be building two CNG filling stations in the area.  Trussville, Alabama is scheduled to make the same conversion next year.

The switch to natural gas will receive a big boost in 2014 when Cummins Westport, a Connecticut company, introduces a 12-liter NG engine that is designed to sell between the existing 9- and 15-liter products.  “This will is expected to provide robust growth for the day cab market in North America,” says Navigant.  Volvo Trucks will also be taking aim at that market niche with a 13-liter LNG dual fuel engine.

Hovering behind all this is the effort by T. Boone Pickens’ Clean Energy Fuels to build a “natural gas highway” across America.  CLNE, which trades on the NASDAQ, plans to sell natural gas at truck stops along the nation’s interstate highway system.  The company is even planning to build its own liquid natural gas terminal in Jacksonville, Florida.

“Natural gas is a better transportation fuel than gasoline,” says the indomitable Pickens, who is engaged to be married for the fifth time at age 85.  “It’s cheaper, it’s cleaner and it’s a domestic resource.”

In fact the market is now getting so crowded that providers are starting to bump up against each other.  In the Northwest, Clean Energy is objecting to plans by Puget Sound Electric, Portland-based NW Natural and Spokane-based Avista Utilities to build filling stations for natural gas vehicles.  “We feel that because of their monopoly status, regulated utilities will have an unfair advantage entering the natural gas refueling market,” said Warren Mitchell, chairman of Clean Energy.   “Choices in the marketplace are a good thing,” responded Ben Farrow, of Puget Sound.  “We don’t want to compete unfairly.”

Nevertheless, despite all this activity in the United States, Navigant actually sees Asia as natural gas’s prime growth market.  By 2020 the report anticipates annual sales of 400,000 medium and heavy-duty trucks and buses, but the Asian Pacific will account for an astounding 76.2 percent of these sales while North America will provide only 12.7 percent and Europe 8.6 percent.  With 1.2 million NGVs on the road by that time, China and the United States will represent a combined 96 percent of the world market.

Compressed natural gas still has its problems.  Even when stored at 3,600 pounds per square inch, compressed gas takes up five times the space of a gas tank holding the same amount of energy.  This means that on a Chrysler Ram 2500 pick-up the tank still occupies nearly half the truck’s rear cargo bay.  Obviously, the bigger the truck or bus, the better it will be at accommodating this bulk.  But when it comes to ordinary passenger cars, finding room for the gas tank will be much more difficult.  That is why there is still only one NG passenger vehicle – a Honda Civic – on the road today.

Converting passenger vehicles to natural gas will probably require a liquid fuel.  Methanol and butanol, both of which can be made from natural gas feedstock, are likely candidates. But that still lies ahead. For now, the progress of CNG among heavy duty trucks and buses is an encouraging sign that we may be able to reduce our dependence on foreign oil.

Building the Natural Gas Highway: The Journey of Thousands of Miles Begins in Newport Beach

California still is seen as the state that exports innovation, despite the fact that it has seen some tough economic times of late. In this context, I was pleased to see the recognition granted by the Orange County Register (Nov 6) to the Clean Energy Fuel Corporation, and its efforts to build the Natural Gas Highway. I was even more surprised to find out that the corporate offices were located near my own office. Clearly, the popularity of natural gas and its derivatives, ethanol and methanol, are on the uptake since the President’s State of the Union address indicating the nation’s economy and environment  would benefit if it weaned itself off oil and by implication gasoline. Even before Obama’s speech, there was a growing recognition among many Americans– including environmental and business leaders– that natural gas could become the core of a strategy aimed at reducing greenhouse gas (GHG) and other pollutants, lowering the costs of vehicular fuel, and reducing dependency on oil imports, thus providing funds for investment in the U.S. Clean Energy Fuels Corporation, located in Newport Beach, is making it easier for consumers to access natural gas for their vehicles. According to the story in the Register, it has invested more than $300 million in the last two years on natural gas fuel stations across the nation. Most of the more than 400 stations that they have developed and  offer only compressed natural gas (CNG), a fuel that works better for comparatively short trips ( e.g. buses, taxis, garbage trucks, short hall trucks, local consumers ). Current and future placement of stations will increasingly offer liquid natural gas (LNG). LNG works better than CNG for long distance trips. Are the leaders of the Clean Energy Fuel Corporation nuts?  Maybe they are…but I don’t believe so.  While, the Corporation has yet to turn a profit (apparently after 15 or 16 years), since going public in 2007, their market value is now more than 1 billion dollars. Their phones are ringing. Large retailing companies relying on trucks, long distance trucking companies, bus manufacturers, taxis and bus companies seem to be gravitating toward use of cheaper natural gas as a fuel. But these users and potential users need assurances that natural gas fuel stations will be reasonably accessible. Clean Energy Fuel aims to provide such assurances. Many respected financial analysts believe that the Clean Energy Fuel Corporation is on the cusp of and will benefit financially from the increased acceptance and growth of alternative transportation fuels, particularly natural gas. Assuming both the sizable price gap between oil and natural gas remains and the corresponding price gap between natural gas fuel and gasoline as well as between natural gas and diesel fuel stays relatively large; Clean Energy Fuel Corporation’s future looks bright. Yes, it will have rivals. Shell Oil, according to the Register article, apparently is going to start selling LNG at existing truck stops. Soundings that I have picked up from natural gas leaders, CEOS of businesses dependent on trucking and diverse investors suggest an evolving interest in developing both CNG and LNG fuel stations and the Natural Gas Highway. In this context, 22 states, under the bipartisan leadership of Governor John Hickenlooper (D) of Colorado and Governor Mary Fallin (R) of Oklahoma, have initiated a collaborative project to buy CNG outfitted cars from Detroit to replace old state vehicles, when their time passes. Detroit in turn has promised to develop a less expensive CNG vehicle for the participating states which could ultimately benefit consumers. Given recent projections of the market for natural gas fuel by government and reputable private and nonprofit groups and increased advocacy for alternative fuels by a coalition of environmental, nonprofit and business groups, I wouldn’t bet against Clean Energy Fuel’s future health. My hope, however, is that it and, indeed, its competitors add room for natural gas derivatives such as ethanol and methanol in their planned natural gas stations.  Apart from generating use by owners of flex fuel cars now in existence, their agreement to do so would encourage (the relatively inexpensive and easy) conversion of existing vehicles to flex fuel vehicles. Significantly, EPA has certified the use of E10 in all vehicles, E15 in vehicles after 2001 and E85 in approved flex fuel vehicles. Hopefully, EPA will soon certify methanol as well as approve an expanded list of conversion kits for existing older vehicles. These approvals are possible, if not probable, given the environmental, economic and consumer benefits of alternative fuels and the evolving politics of fuel. Allowing oil companies to sustain the very restrictive rules now governing the vehicular fuel market will continue to prop up America’s dependency on imported oil as well as support relatively high fuel costs and increased environmental degradation.   President and CEO Andrew Littlefair of Clean Energy Fuel indicated, “With cheaper, abundant fuel, a network of stations, [and] redesigned engines …the time for natural gas transportation has arrived.” I would add, the time for natural gas based ethanol and methanol has also arrived. I commend Clean Energy Fuel for its initiative in developing the Natural Gas Highway. The Company, borrowing from President John Kennedy, has begun an important journey of thousands of miles in Newport Beach. Contrary to (and paraphrasing) the poet Robert Frost, hopefully the road they are building will be very well travelled.  Maybe a couple of leisurely  lunches near the ocean in beautiful Newport Beach could convince my colleagues at Clean Energy Fuel  to consider working with producers of natural gas based ethanol and methanol as well as interested states and localities to  extend  the Natural Gas Highway to ethanol and methanol. It would be good for traffic and their bottom line, good for development of related commercial activities and, most important, good for America

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.

A big flaring opportunity in North Dakota

Recently I wrote about how oil companies are flaring off $100 million worth of gas a month in the Bakken formation and what a huge waste or resources that represents.

Well, it didn’t take long for something to happen. A group of five law firms representing Bakken property owners sued 10 oil companies to end the practice. Their logic? It doesn’t involve environmental pollution or global warming. Instead, they’re arguing that the oil companies are depriving them of hundreds of millions in royalties by flaring off all that gas.

The case makes perfect sense. Gas is a valuable resource and the property owners are being deprived of huge amounts of money by wasting it. The case also avoids the complications that would come if the suit had been brought by the Sierra Club or Natural Resources Defense Council on environmental grounds. That would have involved all kinds of testimony about whether the flaring is really having an impact on the weather and what the level of damages might be. Instead, this is a straightforward case of dollars and cents. The property owners are being deprived of huge royalties. The oil companies have to compensate.

But beyond that, the lawsuit also offers a glittering opportunity to put methanol and its potential role in the transportation economy in the spotlight. So far, nobody’s talking about it much, but the conversion of natural gas into methanol could play a huge part in resolving this case.

The Bakken has developed so fast that the producers have not even been able to build oil pipelines into the area yet. Instead, the oil is being shipped by truck and rail. Burlington Northern has extended its lines into the region and most of the oil is now finding its way into major pipelines. As a result, Bakken production has leaped to 850,000 barrels a day, catapulting North Dakota into the number two position as an oil-producing state, behind Texas.

But the gas is a different thing. It can’t be stored in large quantities and pipelines are a long way from being extended and probably not worth it. Oil is now give times more valuable than gas at the wellhead, which gives drillers an enormous incentive to go after the oil and forget about the gas, hence the flaring. Thanks largely to North Dakota, we have moved into fifth place for flaring, behind Russia, Nigeria, Iran and Iraq, and ahead of Algeria, Saudi Arabia and Venezuela. The amount of gas flared around the world equals 20% of U.S. consumption. When we’ve moved ahead of Hugo Chavez, it’s time to do something about it.

So far, the proposed solutions have involved compressing natural gas or synthesizing it into more complex liquids. “The industry is considering and adopting various plans to flare less gas, including using the gas as fuel for their rigs and compressing gas into tanks that can be transported by truck,” reports The New York Times. “A longer-range possibility would be the development of projects that could produce diesel out of gas at or near well sites.” Hess, which already has a network of pipelines in the area, is rushing to complete a processing plant at Tioga that will turn gas into diesel and other more complex fluids.

But a better solution would be portable, on-site processing plants that can convert methane to liquid methanol, a far simpler process. Gas Technologies, a Michigan company, has just developed a conversion device that sits on the back of a trailer and can be hauled from well to well. “We have a patented process that reduces capital costs up to 70%,” said CEO Walter Breidenstein. “If we’re using free flare gas, we can reduce the cost of producing methanol another 40-5%.” Other companies are working on similar technologies for converting natural gas to methanol on-site.

All this would help bring attention to the role that methanol could play in replacing oil in our transportation economy. California had 15,000 methanol cars on the road in 2000 and found drivers were extremely happy with them. Methanol also fits easily into our current infrastructure for gasoline. But California gave up on the project because gas supplies seemed to be dwindling and the price was too high. Now we are flaring off 25% of the nation’s consumption in one state and methanol could easily be produced for $1.50 a gallon. It’s time to re-evaluate.

Of course, Walter Breidenstein will probably find that flared gas will not be offered for free. Those Bakken property owners still want their royalties. But the North Dakota lawsuit proves a spur for on-site methanol conversion and great opportunity to highlight the role methanol could play in our transportation economy.