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Is Elon Musk the next Henry Ford?

Elon Musk doesn’t mind making comparisons between himself and Henry Ford. Others are doing it as well.

In announcing his plans for a “Gigafactory” to manufacture batteries for a fleet of 500,000 Teslas, Musk said it would be like Ford opening his famous River Rouge plant, the move that signaled the birth of mass production.

The founder of PayPal and current titular leader of Silicon Valley (now that Steve Jobs is gone), Musk is not one for small measures. The factory he is now dangling before four western states would produce more lithium-ion batteries than are now being produced in the entire world. And that’s not all. He’s designing his new operation to mesh with another cutting-edge, non-fossil-fuel energy technology – solar storage. His partner will be SolarCity (where Musk sits on the board), run by his cousin Lyndon Rive. Together they are looking beyond mere automobile propulsion and are envisioning a world where all this solar and wind energy stuff comes true.

So, is Musk a modern-day Prometheus, bringing the fire to propel an entirely new transportation system? Or, as many critics charge, is he just conning investors onto a leaky vessel that is eventually going to crash upon the shores of reality? As the saying goes, we report, you decide.

One investor that is already showing some qualms is Panasonic, which already supplies Tesla with all its batteries and would presumably help the company fill the gap between the $2 billion it just raised from a convertible-bond offering and the $5 billion needed to build the plant. “Our approach is to make investments step by step,” Panasonic President Kazuhiro Tsuga told reporters at a briefing in Tokyo last week. “Elon plans to produce more affordable models besides [the] Model S, and I understand his thinking and would like to cooperate as much as we can. But the investment risk is definitely larger.” Of course, this is Japan, where “the nail that sticks out gets hammered down.” Corporate executives are not known for sticking their necks out.

Another possible investor is Apple, which has mountains of cash and, at least under Steve Jobs, was always willing to jump into some new field – music, cell phones – to try to set it straight. This is a little more ambitious than the Lisa or the iPod and Jobs is no longer around to steer the ship, but Apple and Musk officials held a meeting last spring that stirred a lot of talk about a possible merger. A much more likely scenario, according to several commentators, is that Apple would become a major player in the Gigafactory.

And a Gigafactory it will be. Consider this. The three largest battery factories in the country right now are:

1)    The LG Chem factory in Holland, Mich. is 600,000 square feet, employs 125 people and produces 1 gigawatt hour (GWH) of battery output per year.

2)    The Nissan factory in Smyrna, Tenn. is a 475,000 square-foot facility with 300 employees puts out 4.8 GWH per year.

3)    A123 Systems’ battery factory in Livonia, Mich. is 291,000 square feet, employs 400 people and produces 0.6 GWH per year.

Both LG and Nissan received stimulus grants from the Department of Energy, built to overcapacity and are now operating part-time.

Now here’s what Musk is proposing. His Gigafactory would cover 10 million square feet, employ 6,500 people and produce 35 GWH per year of battery power. Basically, Musk’s operation is going to be ten times better anything ever built before, at a time that most of what exists isn’t even running fulltime. Does that sound like something of Henry-Ford proportions? Similar to Ford’s $5 a day wages, perhaps?

There are, of course, people who think all of this is crazy. In the Wall Street Journal blog, “Will Tesla’s $5 Billion Gigafactory Make a Battery Nobody Else Wants?,” columnist Mike Ramsey expresses skepticism over whether Tesla’s strategy of using larger numbers of smaller lithium-ion is the right approach. “Every other carmaker is using far fewer, much larger batteries,” he wrote. “Tesla’s methodology – incorrectly derided in its early days as simply using laptop batteries — has allowed it to get consumer electronics prices for batteries while companies like General Motors Co. and Nissan Motor Co. work to drive down costs without the full benefits of scale. Despite this ability to lower costs, no other company is following Tesla’s lead. Indeed, in speaking with numerous battery experts at the International Battery Seminar and Exhibit in Ft. Lauderdale a few weeks ago, they said that the larger cells would eventually prove to be as cost effective, and have better safety and durability. This offers a reason why other automakers haven’t gone down the same path.

But Musk has managed to produce a car that has a range of 200 miles, while the Leaf has a range of 85 miles and the Chevy Spark barely makes 82. Musk must be doing something right. And with Texas, Arizona, Nevada and New Mexico all vying to be the site of the Gigafactory, it’s more than likely that the winning state will be kicking in something as well. So, the factory seems likely to get built, even on the scheduled 2017 rollout that Tesla has projected.

At that point, Musk will have the capacity to produce batteries to go in 500,000 editions of the Tesla Model E, which he says will sell for $35,000. Sales of the $100,000 Model S were 22,000 last year. Does this guy think big or what?

To date, Silicon Valley doesn’t have a terribly good record on energy projects. Since Kleiner Perkins Caufield & Byers fell under Al Gore’s spell in 2006, its earnings have been virtually flat and the firm is now edging away from solar and wind investments. Venture capitalist Vinod Khosla’s spotty record in renewables was also the subject of a recent 60 Minutes segment. But, as venture capitalists say, it only takes one big success to make up for all the failures.

Will Tesla’s Model E be the revolutionary technology that, at last, starts making a dent in oil’s grip on the transportation sector? At least one investor has faith. “I’d rather leave all my money to Elon Musk that give it to charity,” was the recent evaluation of multi-billionaire Google founder Larry Page.

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.

Hawks Are Out Again: Mistakenly Casting Doubt on Ethanol

The Hawks are out again.  One of my favorite service organizations, the American Automobile Association (AAA), in conjunction with media outlets, has again attacked the use of ethanol in cars.  It’s quite sad.

I will still keep my membership card. The AAA is the Walmart, Costco or Nordstrom of the automobile industry when it comes to service at relatively low costs to its members.  If you get a flat tire on a sparsely traveled road when it’s raining or snowing, the AAA, following the Postal Service norm, “come rain or snow,” will get there reasonably quickly to help you.  Get stuck in your four story garage with a dead battery! Don’t fret or fear, your neighborhood AAA repair truck will be at your side within a relatively short time. It,generally, will “get you to your work on time.” Do I sound like Julie Andrews or the cast in “My Fair Lady?”

 

While I don’t lose sleep over the question (I only get two hours of sleep even without thinking about the AAA), I often wonder why the AAA appears to join with those, particularly in the oil industry, who seem to want to confuse flex fuel vehicle owners and owners of older cars able to convert their engines easily and cheaply, about the wisdom of using ethanol.

Conversion of older cars and extended use of already approved flex fuel cars as well as increased use of ethanol by both sets of vehicles  will result in many benefits, particularly when compared to gasoline.  For example, ethanol according to many, many independent studies by qualified researchers is a safer, cheaper, and more environmentally friendly fuel than gasoline.  While what is and what is not a fact often becomes a metaphysical question and 100% certainty becomes a question often for philosophers more than scientists, trust me — ethanol is a good but is not a perfect alternative fuel. It is better than gasoline.  Right now a perfect fuel does not exist! Remember that the enemy of the present good is often the distant perfect.

Despite AAA’s press releases, EPA studies involving more rigorous methodology, including strategic sampling of a range of cars, indicate that engine damage is almost a nonoccurrence when using E15.  E10 has been around for a long time with no discernable engine impact and E85, after extensive testing, has been approved for flex fuel cars.

Understandably, ethanol, given improvements in new car engines and tighter fuel standards, reflects fewer benefits than   shown in relatively recent studies concerning ghg emissions, and pollutants like SOx and NOx.  But ethanol still provides significantly more environmental benefits and less costs to the consumer now than gasoline.

The differences between ethanol and gasoline will become even more apparent if you assume that Americans use their God-given noggin and opt to convert their older cars to accept alternative fuels.  It’s cheap and safe and can be done with a kit, or with quick software or tuning fix for some cars.  Similarly, there are nearly 15,000,000 flex fuel cars in the U.S. Most owners do not know they have such a car. Look at the sticker in the back of the car or fuel cap.  You probably are the proud owner of a flex fuel vehicle and, once you recognize this fact, you can use ethanol without risk.  Using ethanol, both for flex fuel cars and converted older vehicles will likely lower your gasoline costs and will contribute to a healthier environment.  Tell your neighbors!  Tell your friends! Tell your significant other!  Tell your spouse!

Clearly, you will see the environmental benefits to your community, state and nation, if you abandon the conventional way of measuring emissions and pollutant reductions and use tons. The new graphic will portray a visible and important increase in the actual emissions and pollutants eliminated from the atmosphere.  It also will emphasize the importance of extending the number of vehicles that can use ethanol through conversion of older cars to flex fuel vehicles and the production of increased numbers of flex fuel vehicles.  If the owners of both sets of cars increasingly fuel their vehicles with mostly ethanol (an objective of a number of demonstrations and pilot programs in several states), the President’s desire to wean the nation off of gasoline will come closer to fruition.  The scale up will provide a transition approach to open fuel markets until competitive renewable fuels become ready for prime market time.

 

Outnumbered 100-to-1, Methanol Is Upbeat

“Why is it that we hear every day some new story about Elon Musk’s electric car, about Clean Energy Fuel’s efforts to build a CNG highway, or about some laboratory breakthrough that is at last going to bring us cellulosic ethanol, yet with methanol now cheaper than gasoline, you still never hear anything about it?”

That’s the question I posed to the three-member panel while serving as moderator for the wrap-up session at the 2014 Methanol Policy Forum in Washington last week.  The sponsors were the Methanol Institute, the Institute for the Analysis of Global Security (IAGS) and the Energy Security Council.

Anne Korin, co-director of IAGS, who earlier had moderated an even bigger panel that included former U.S. Senator J. Bennett Johnston, former National Security Advisor Robert McFarlane and former Ambassador to the European Union Boyden Gray, had a very unusual answer.  “If I may be permitted to be a bit cynical here,” she said, “I think the reason may be because methanol doesn’t require any subsidies.”  The implication, of course, is that those who come to Washington begging for money receive a lot more attention from Senators and Congressmen than those who don’t.

The question of politics versus economics had been raised at the outset of the daylong conference by Korin’s co-director at IAGS, Gal Luft, in his opening remarks.  “We’ve all heard this business about the circular firing squad and how the various alternatives to foreign oil shouldn’t be fighting each other,” he told the audience of about 400.  “But you have to acknowledge the importance of what goes on in Washington.  You can’t just talk about production you need money.  If you’re not at the table, that means you’re probably on the menu.

Luft showed a chart illustrating that while corn ethanol production exceeds methanol production by a factor of only 5-to-1 (14 billion gallons/year as compared with 2 bg/yr), the amount of money spent lobbying for ethanol is 50-to-1 (less than $100,000 vs. $5 million).  “When you add in the politics of the farm belt, it’s probably closer to 100-to-1,” he added.

So was anyone discouraged?  Not at all.  The news from industry executives is that methanol production is ramping up everywhere due to the bonanza of the fracking revolution.  It seems like only a matter of time before the idea of replacing large portions of our fuel imports with domestically produced methanol begins to command attention.

“In the past decade we closed down five methanol plants in the U.S. and moved them all to China,” John Floren, CEO of Methenex told the gathering of 400 at the Capital Hilton.  “The price of gas had become just too high.  Now we’ve moved two plants back from Chile and are looking at a third relocation.  We’ve got 1000 people working on our Louisiana site.  The chemical industry is starting to build as well.”

Tim Vail, the CEO of G2X, another methanol producer, had a similar take.  “The U.S. is a great place to invest right now,” he told the audience.  “The argument was always that you had to go to the ends of the earth to build methanol plants because that gas wasn’t available here.  Now all that has changed.  Our big worry is labor shortages but the construction industry is responding to our needs.  It takes away a lot of anxiety about having your assets appropriated by other countries.  China may seem like a good place to invest, but can you really trust the rule of law?”

Philip Lewis, chief technology officer of Zero Emission Energy Plants (ZEEP) was equally upbeat.  “I think the whole shale thing is being underestimated,” he said at the close of the morning session.  “It’s another industrial revolution.  And it won’t happen anywhere else because we have the thing that makes it work – private ownership of the resource.  In France, the government owns all the mineral rights and no one wants drilling on their land.”

But governments do have control over other things in this country and there was some questioning of whether federal agencies will be receptive to methanol as a fuel substitute or additive.  Matt Brusstar, deputy director of the EPA’s National Vehicle and Fuel Emissions Laboratory, claimed that his agency had been in the lead of methanol development for 30 years.  “Charlie Grady, who was in our department, was a big supporter of methanol,” said Brusstar.  “He even wrote a book about it.”  (Unfortunately, a Google search for Charlie Grady and methanol turns up no mention of Grady or his book.)  Patrick Davis, the director of the Fuel Cell Technologies Office in the Department of Energy, was even less encouraging.  “The Office of Science does not currently have any projects to create methanol as an end fuel,” he said.  “It could take a decade to sell enough methanol-compatible vehicles before a widespread distribution network would be feasible.”

When I queried Brusstar about Robert Zubrin’s documentation of the multi-thousand-dollar fines that the EPA is imposing for unauthorized conversions of engines to methanol, [See “Making the Case for Mars and Methanol,” Feb. 11] several government officials, plus Fuel Freedom Foundation director of research Mike Jackson, argued that faulty conversions can increase air pollution.

Despite the notable lack of enthusiasm from government agencies, however, there was a strong sense among the rank-and-file that methanol may be about to find a place in the sun.  “This is a much bigger crowd than we’ve ever had,” said one veteran of previous conferences.  “It’s a very exciting time for methanol.”

 

 

 

 

 

 

 

 

 

 

 

 

 

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.”

Progress on Fuel Efficiency: More is needed

Every now and then I will read a White House Blog.  They’re sort of a fun read when you’re depressed about the state of the world and the country.  The content always somehow reminds me of  Gene Kelly dancing in the street in the middle of the rain, or that old (possibly New Yorker) cartoon where the patient tells the psychiatrist that he is not doing well and the good doctor says ‘no you’re just fine, you’re happy and healthy.’  Probably neither is the proper analog to the politically necessary positive nature of the White House blurbs.  I marvel at times at the President’s ability to seek a better America, especially given the politics of the present.  While his optimism and tenacity don’t always come through as “Morning in America,” I believe that his attitude is based on a reasonable outlook about what the nation can do, if it can engage in an honest dialogue about key environmental and alternative fuel issues.

Last week’s blog focused on the White House’s effort to increase fuel efficiency standards.  It notes correctly that the President’s legislative approach to the environment has resulted in the toughest fuel economy standards in history:

“Under the first ever national program, average fuel efficiency for cars and trucks will nearly  double, reaching an average performance equivalent to about 54.5 miles per gallon by 2025….In 2011, the President also established the first-ever fuel efficiency and greenhouse gas standards for medium and heavy duty vehicles, covering model years 2014 through 2018.”

More is to come! Increased fuel efficiency standards are currently being addressed by the Administration, and the EPA is hard at work developing Tier 3 rules.

The Administration’s record is a decent one and has benefited the environment, lessened ghg emissions, and strengthened the economy. Regrettably though, fuel efficiency regulations primarily apply to new cars.  They should be matched by a cost efficient and comprehensive federal effort to encourage the conversion of older non flex fuel vehicles; they also should encourage Detroit to continue producing larger numbers of flex fuel cars.

In this context, EPA and Detroit automakers need to reach a consensus concerning effective engine recalibration alternatives, as well as an extension of consumer warranties and related financial coverage of recalibrated vehicles.  Without permitting older cars to achieve the fuel efficiency and environmental advantages of flex fuel vehicles, we will not be able to respond to Pogo’s admonition and Commodore Oliver Perry’s initial statement (paraphrased): that we, as a nation, have met the enemy, and he is us!

To grant primacy to new or relatively new flex fuel cars would increase the nation’s ability to reduce ghg emissions and other environmental pollutants (e.g. NOx and SOx). There are well over 200,000,000 non flex fuel cars in the U.S. that cannot readily use available fuel blends higher than E-15 and will not be able to use natural gas based ethanol that hopefully relatively soon will come on the market.

Lowering the certification costs of conversion kits by the EPA and increasing the number of manufacturers of those kits would bring down their price from around 1,000 dollars to the near 300 dollar level that is common in the “underground” market.  Simplifying legal conversion could  —and indeed would —-make an important environmental difference.  Such action would also open up the fuel market to competition, and likely lower the price of gas at the pump for consumers. Finally, such actions would also support the President’s objective to wean the nation off of oil and gasoline.  Oh Happy Day!  Go for it Gene Kelly and the American Association of Psychiatrists!  It might be time to show some real love for environmentally and efficiency neglected and needy older vehicles.

Bio-processing of Gas-to-Liquids: A Report Card

If finding microbes that can convert cellulose plant material into ethanol is of the holy grails of biofuels, an equally elusive goal is using microbes to make liquid fuels out of natural gas.

Almost everyone agrees that the best way to apply our now-abundant natural gas resources to transportation would be to convert it into a “drop-in” liquid fuel that would fit easily into our current gas-station infrastructure. T. Boone Pickens’ CleanFuels Corp. and others are trying to supply compressed natural gas to diesel trucks, but the effort has obvious impediments and will require a whole new infrastructure.

Much easier would be the direct conversion of natural gas to methanol, the simplest alcohol, which is now produced at a rate of 33 billion gallons per year for industrial purposes. But methanol still suffers from its Prohibition-Era reputation as poisonous “wood alcohol” (although gasoline is equally poisonous) and has run into stiff EPA regulations on converting contemporary engines to burn alternative fuels. (See “Making the Case for Mars and Methanol”) And so the vision has arisen that a golden gas-to-liquids pathway can be carved by the nation’s laboratories working with nature’s existing microbial stock.

A year ago, ARPA-E, the fast-track research funding agency modeled on the Defense Department’s Advanced Research Project Agency, announced a new initiative: REMOTE – the Reduced Emissions Using Methanotrophic Organisms for Transportation Energy.  Methanotrophic organisms are microbes that feast on methane, the simplest carbohydrate, and can convert it into more complex molecules such as butane or formaldehyde, which can in turn be synthesized by other microbes into butanol, methanol or other liquids that can be cleanly burned as fuels.  As the agency wrote in its Funding Opportunity Announcement (FOA):

The benefits of converting natural gas to liquid fuels for use in transportation have long been recognized. First, the existing transportation infrastructure is based on liquids, and such fuels can be conveniently “dropped in” without substantial changes in vehicles. Second, liquid fuels from methane have lower emissions than petroleum-based fuels. Liquid fuel produced from methane decreases emissions by up to 50%, compared to unconventional petroleum, and decreases particulate matter by up to 40%, compared to combustion of conventional diesel. Further, methane is responsible for 10% of the nation’s greenhouse gas emissions (on a CO2 equivalent basis), in part because its global-warming potential is 20 times greater than that of CO2 over a 100-year period. Technologies capable of capture and conversion of methane will help mitigate the global-warming potential of these emissions.

There are several interesting things going on here. First, ARPA-E has chosen the goal of reducing emissions rather than reducing dependence on foreign oil as the motivating force of the project. Alcohols do burn cleaner than gasoline. In fact, the whole California effort that put 15,000 methanol cars on the road in the 1990s was aimed at reducing air pollution, not replacing oil imports. This may satisfy environmentalists, who tend to see natural gas as just another fossil fuel and would prefer to pursue cellulosic ethanol in order to remain “carbon neutral.”

Second, although the chemical synthesis of methanol, butanol and other potential fuels is already economical, employing biotechnology gives the whole plan a “green” tinge. Chemical processes are regarded as “old economy” and unlikely to attract investment from Silicon Valley and other centers of venture capital, whereas biotechnology has a New Age sheen to it. Already ARPA-E has handed out $20 million to small startups and others have been forthcoming.

Finally, by latching onto natural gas flaring, ARPA-E is addressing a problem that is gaining more and more attention, particularly the publication of a paper in Science last week claiming that will be no climate benefits in switching from diesel and other crude-oil-based fuels to natural gas derivatives. Indeed, flaring is now said to consume the equivalent of one-third of America’s consumption of crude oil. Obviously, anything that addresses this will get attention.

So how are thing going?  Last week Robert J. Conrado and Ramon Gonzalez, two researchers in the Department of Energy, issued a progress report in Science. Basically, the news is that while there’s still lots of optimism about the idea, nothing much has been accomplished yet.

Conrado and Gonzalez note that the process of biological conversion involves three steps:   1) the “activation” of the stable methane molecule so it becomes chemically receptive; 2) the conversion of methane to formaldehyde and other intermediates; and 3) the synthesis of these intermediates into alcohols and other fuels through bioreactors. All three steps need improvement. “To access small-scale and time-varying resources [i.e., flared gas at remote wells], process intensification leading to an order-of-magnitude increase in volumetric productivities is needed and will require technological breakthroughs in [all] three areas.”

One institution that is working on the problem is the Sandia National Laboratory in New Mexico. Blake Simmons, manager of the lab’s biofuels and biomaterial science group, says the challenges are daunting but he remains optimistic. “There have been plenty of investigations into this in the past since there are plenty of organisms in nature that thrive and multiply off natural gas,” he said in an interview with Phys.org. “The problem, though, is that they exist in unique, tailored environments and are typically very slow at what they do. People have been trying to express this class of enzymes for a couple of decades, so this won’t be a slam dunk. But we have the collective experience and capabilities at Sandia to figure it out.”

And so the search for a clean, green conversion of methane to a liquid fuel goes on. In the meantime, however, it might be worth opening the door to methanol and other chemically synthesized products just as a placeholder.

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.

Oil and Natural Gas Prices and the Future of Alternative Fuels

I love Vivaldi’s Four Seasons, especially the music from the spring. I love the optimistic line from the poem by P.B. Shelley, “if winter comes can spring be far behind.”  The unique cold weather, the Midwest, East Coast and even the South, has been facing this year will soon be over and spring will soon be here. Maybe it will be shorter. Perhaps, as many experts indicate, we will experience a longer summer, because of climate change. But flowers will bloom again; lovers will hold hands without gloves outside, kids will play in the park… and natural gas prices will likely come down to more normal levels than currently reflected.

Last Friday’s natural gas price according to the NY Times was $5.20 per thousand cubic feet. It was “the first time gas had crossed the symbolic $5 threshold in three and half years, although (and this is important) the current price is still roughly a third of the gas price before the 2008 financial crisis and the surge in domestic production since then.”

Why? Most experts lay the blame primarily on the weather and secondarily on low reserves, a slowdown in drilling, and pipeline inadequacies. The major impact so far has been on heating and electricity costs for many American households, particularly low and moderate income households and the shift of some power plants from natural gas back to coal.

I wouldn’t bet more than two McDonald’s sandwiches on where natural gas prices will be in the long term. But I would bet the sandwiches and perhaps a good conversation with a respected, hopefully clairvoyant, natural gas economist-one who has a track record of being reasonably accurate concerning gas prices- that come cherry blossom time in Washington, the price of natural gas will begin to fall relatively slowly and that by early summer, it will hover between 3.75 to 4.25 per thousand cubic feet.

Natural gas prices over the next decade, aided by growing consensus concerning reasonable fracking regulations as reflected in Colorado’s recent regulatory proposals, and EPA’s soon to be announced regulations, should be sufficiently high to reignite modest drilling passions, improvements in infrastructure and increased supplies at costs sufficient to maintain an advantage for natural gas based fuels when compared to oil based fuels at the pump.

The present relatively low price of oil (Bent Crude $107 a barrel; WTI $97.00 a barrel) and its derivative gasoline ($3.30 a gallon) may impact the cost differential between gasoline and natural gas based fuels. But the impact could go both ways. That is, if the price of oil per barrel continues to fall and translate into lower costs for gasoline, the price differences between natural gas based fuels and gasoline would narrow. Conversely, if the price of oil goes lower than $90 a barrel, its present price, it likely will impede future drilling, particularly in high cost, hard to get at environmentally sensitive areas. This fact combine with renewed economic growth in the U.S., Europe and Asia, as well as continued tension in the Middle East and continued speculation could well result in a return to higher gasoline prices.

Clearly, the relationship between the cost of natural gas based fuels (CNG, ethanol and methanol) and gasoline is a critical variable in determining consumer behavior with respect to conversion of existing cars to flex fuel cars and the purchase of new natural gas cars (Based on the national pilot involving 22 states lead by Governor Hickenlooper(D) and Governor Fallin(R), as well as interviews with carmakers, creation of a deep predictable market for CNG fueled vehicles will bring down the price of such cars and give them competitive status with gasoline fueled vehicles).

The odds are that the lower costs of natural gas based fuels will serve as an incentive to buyers and existing owners to use them. That is, assuming problems related to fuel distribution as well as access and misinformation concerning the affect alternative fuels have on engines are resolved by public, non-profit, academic and private sectors. Maybe I will up my bet!

Altruism Aside, Is Ethanol A Competitive Alternative Fuel?

I was a bit under the weather this past weekend. I thought it would be a good time to catch up on some reading; something assumedly simple- the relatively recent literature concerning the ability of ethanol, particularly E85, to compete with gasoline and the capacity of consumers to make rational decisions in their choice of alternative fuels.

By Sunday night, apart from watching the Denver Broncos happily beat New England on TV, and the amusing dialogue and extensive media time generated by Seattle’s cornerback, Richard Sherman, concerning his athletic and his academic prowess; I spent about 10 hours reviewing several well cited pieces concerning the price relationship between ethanol and gasoline. I also read the intense, often seemingly less than civil debate in papers authored by two professors at Iowa State (Dermot Hayes and Xiadong Du)  and two at MIT (Christopher Knittel and Aaron Smith) concerning methodology associated with defining the relationship between ethanol and gasoline prices. (The Iowa and MIT faculty vigorously attacked each other, sometimes personally, over mistaken attribution of research funding sources. More important, the Iowa folks generally argued that their data suggested a link between ethanol production and the price of gasoline. They indicated that, as ethanol production increased the price of gasoline decreased relative to the price of crude oil.

The MIT folks poo poo’d their distant colleagues’ findings. They indicated that their empirically based models illustrate only a statistically insignificant set of relationships concerning ethanol, gasoline and crude oil prices. They also opined that the Iowa writers misapplied the crack ratio –the relationship of gasoline to crude oil prices- and did not use or mistakenly used the crack spread ratio (the weighted average of the gasoline and distillate products produced by a barrel of crude oil minus the cost of crude). Put in another way, what the Iowa writers recorded was correlation not causation. (I know the etymology but we need to help the economists among us find a better set of terms than crack spread and crack ratio. For a minute, I thought that the texts described a line up at a police station or FBI statistics about drug use.)

What can we learn from recent literature about the effect of ethanol production and gasoline prices at the pump?

1. Most independent experts, not affiliated with advocacy groups, seem willing to support as fact that increased ethanol use, at times, will lower the price of gasoline or slow the increase in the price of gasoline. But the caveat is “somewhat.” They disagree on how much on either side of zero. The recent conventional wisdom, stimulated by the Iowa study that ethanol has and likely will reduce the wholesale price by $.89 cents to $1.09 per gallon seems wrong. It appears to reflect an overstatement based on analyses and models that do not accommodate the many complex variables affecting price and costs (e.g. costs of refining, rapid changes in the costs of corn, the costs of distribution, the lack of infrastructure, the unanticipated increases or decreases in costs of crude oil based on investor speculation, escalation or de-escalation of tension in Middle East, uncertain federal policy, etc.). If I were a betting person, I would place my bet on Knittel and Smith’s conclusions that, over time, the price impact of ethanol at the pump on gasoline prices is likely marginal at best.

2. However, to be fair, some scholars and practitioners in the energy business believe that if gasoline is blended with a larger proportion of ethanol (e.g. E85), the price of a gallon of fuel could well drop, given the idiosyncrasies of the present market.  If this occurs and the reduction appears to consumers as beneficial, a number of observers think that owners of flex fuel vehicles (new or converted) could be enticed to switch to E85. What they generally don’t know, is the cross over point where alternative fuels like E85 become a viable option to drivers because the prices seem to be a good deal. A smart and astute participant in a recent forum on alternative fuels indicated that “people drive to COSTCO or Wal-Mart to save 5-8 cents a gallon on gasoline. Why wouldn’t they switch to E85 blends, if they reflected similar or indeed larger savings and fuel stations were accessible?”

Maybe they would, maybe they wouldn’t! If the price is low enough, many drivers will likely engage in personal opportunity costing. But what is low enough? Getting gas at Wal-Mart and Costco is different from getting E85. Gas is a familiar product to most drivers. Consumers of E85 will have to surmount doubts over product safety, stimulated, I believe erroneously, by groups such as the AAA. Further, because E85 will get fewer miles per gallon, drivers will probably think about perceived price savings in the context of miles per gallon and extra trips to the fuel station (If they forget to do the personal math, they will be reminded to do so by oil companies).

3. Uncertainty exists concerning how much consumers will pay for ethanol based on personal preferences or commitments to societal well-being, what I call the altruism thing.

As one author put it, “ …the demand for ethanol (E85) as a substitute (E10) is sensitive to relative fuel prices: a  $.10 per gallon increase in ethanol’s price relative to gasoline leads to a 12-16% decrease in quantity of ethanol demanded. Price responses are considerably smaller, however, than they would be if households had identical willingness to pay for ethanol as a gasoline substitute and… results imply that some households are willing to pay a premium for ethanol.”

Why? Maybe to improve the environment, provide support for farmers, to express concern over national security, etc. A recent report from Brazil indicates that some Brazilians are willing to pay more for alternative fuels because of what seem to be altruistic reasons. Before we say hallelujah, I should note that we don’t really know the numbers seeking salvation. They are not your average household but rather as one economist notes they are likely “marginal” households in terms of numbers. Further, several respected survey firms in the U.S. doubt that goals related to the larger community or nation, even if consumers articulate them in their living rooms, will overcome large differences between the price of E85 and gasoline, if they occur.

Similarly, altruism or civic values will not overcome fear of engine damage or the need for relatively long trips to fuel stations to secure alternative fuels. The pews, at least until we know more, probably will remain filled with a proportionately large share of guilty drivers on Saturday or Sunday.

The Fuel Freedom Foundation is involved in three state pilot projects aimed at converting existing cars to flex fuel cars; cars that will permit their owners to use natural gas based fuel such as ethanol and, when it is legal, methanol. Hopefully the pilot projects, combined with strategic federal, state, foundation and private sector supported research, will expand knowledge concerning consumer decisions and variables such as the importance of price differentials, altruism, distance, access, etc.

A study supported by Fuel Freedom Foundation recently completed by the respected independent Resources for the Future optimistically noted that “…we see alternative pathways for bring a lower-cost E85 to the pump. If and when ethanol produced by the newly patented, NG-driven Celanese process becomes available, owners of FFVs could realize substantial cost savings, up to $0.83/gge in 2015. If and when cellulosic ethanol becomes available at projected cost for full-scale productions, owners of FFFs could realize similar cost savings.”

Sleep easy! Good Times are coming for the nation and the consumer.