The Auto Channel

May 10, 2016

By Fuels America

Certified mechanics, engine performance experts, and professional fishermen are briefing lawmakers on Capitol Hill today about the importance of ethanol in protecting the environment, preserving America’s energy security, and providing a high-octane boost to marine engines. The briefing, hosted by Fuels America, provides an important opportunity for experts to dispel myths about ethanol and discuss key benefits of the Renewable Fuels Standard (RFS).

“We work on a wide variety of racing engines for watercraft, and they run at their absolute best on a high-octane ethanol blend,” says Keith Holmes, President and Owner of CK Motorsports in Nunica, Michigan and a Certified Mercury Marine Racing Technician. “Ethanol burns cleaner and cooler. Since the introduction of E10, we find that many engine parts have a 25 to 50 percent longer lifespan. The National Boat Racing Association exclusively uses E10 for all their races.”

“One hundred percent of the winners on our tournament trail use an ethanol blend in their tanks,” adds Brian Sowers, Co-Host of Crappie Masters TV, covering the Crappie Masters All American Tournament Trail based in Clinton, Missouri. “I want to take my grandkids fishing someday. That means having clean water and clean air. Mixing ethanol into our fuel is the best way to reduce the pollutants that fossil fuels leave behind, so our lakes and rivers stay clean and marine life can flourish.”

“It doesn’t matter whether a boat has a two-stroke or four-stroke engine, an in-board or out-board motor, or a built-in or portable fuel tank,” says Marc Rauch, Executive Vice President and Co-Publisher at The Auto Channel, based in Louisville, Kentucky. “Decades of experience with modern engines shows that E10 is the best fuel for marine applications. As an oxygen booster, ethanol replaces toxins like MTBE, which are notorious for contaminating water supplies. And it reduces CO2 emissions by 34 to 100 percent or more compared to gasoline.”

Rauch recently returned from Taiwan, where he was part of the American presentation team sent to the Asia-Pacific Economic Cooperation (APEC) forum on behalf of the U.S. Department of Agriculture and the U.S. ethanol industry.

“We serve communities on the Minnesota River and Prior Lake, and our customers expect to have choices at the pump," says Joel Hennen, President and Owner Hennen’s Auto Service in Shakopee, Minnesota. “Companies like Kawasaki, Mercury Marine, OMC, Pleasurecraft, Tigershark, Tracker, Honda, and Yamaha all approve the use of E10 in their engines. The labels are clear, and whether customers have a flex fuel vehicle or a race boat, we make it easy to pick the most affordable option with the lowest emissions.”

Today’s briefing is being held as the White House Office of Management and Budget (OMB) works to complete its review of the Environmental Protection Agency’s proposed blending requirements for ethanol and advanced biofuels in 2017.

Read the original release: Boating and Engine Experts Call on Lawmakers to Boost Biofuel Blends

CNBC

May 9, 2016

By Anmar Frangoul

The U.S. Department of Energy (DOE) has announced as much as $90 million in funding for projects relating to the design, construction and operation of "integrated bio-refinery facilities."

In a statement at the end of last week, the DOE described the production of biofuels from "sustainable, non-food, domestic biomass resources" as an important part of the administration's aims to cut both carbon emissions and the U.S.'s reliance on foreign oil.

"The domestic bio-industry could play an important part in the growing clean energy economy and in reducing American dependence on imported oil," Lynn Orr, the DOE's under-secretary for science and energy, said in a news release.

"This funding opportunity will support companies that are working to advance current technologies and help them overcome existing challenges in bioenergy so the industry can meet its full potential," Orr added.

The DOE added that the U.S. is currently spending around $1 billion every three days on "imported oil."

According to the Energy Department and the U.S. Department of Agriculture, it's estimated that the U.S. could produce over a billion tons of biomass that could be turned into biopower, biofuels and bioproducts.

The importance of biofuels is only set to increase. A 2011 report from the IEA projects that by 2050, biofuels could provide 27 percent of the world's transportation fuel.

Read the original story: US Looks to Go Big on Biofuels as It Diversifies Away From Foreign Oil

Ag Professional

May 9, 2016

By Economic Research Service

U.S. production of ethanol hit a record 14.8 billion gallons in 2015, and when combined with the carry-over stocks from the previous year and 2015 imports, the total ethanol supply reached an all-time high of 15.7 billion gallons, according to data released by the United States Department of Agriculture's Economic Research Service.

Nearly all ethanol blended into the U.S. gasoline supply is produced domestically, and, over the past five years, about 94 percent of domestic production was used in the United States.

Ethanol imports peaked in 2006 at 731 million gallons (equal to 12 percent of the U.S. supply), but each year since 2010 exports have exceeded imports, making the United States a net exporter of ethanol.

The domestic market for ethanol is at full capacity due to the technical and regulatory constraints that limit most of the U.S. gasoline supply to a 10 percent maximum ethanol blend, so the export market is now the primary opportunity for growth.

Ethanol exports peaked in 2011 at nearly 1.2 billion gallons, but have remained below 850 million gallons for the past four years.

This chart is based on the ERS U.S. Bioenergy Statistics data product.

Read the original story: Nearly All U.S. Ethanol is Produced and Sold in Domestic Markets

Biofuels International

May 3, 2016

Car giant Volkswagen (VW) has published a new study and called for the promotion of biofuel-powered cars over electric ones to help tackle carbon emissions.

The report, entitled Integrated Fuels and Vehicles Roadmap 2030 and Beyond, and was commissioned by automakers and oil companies.

In the report the companies maintain that additional reduction potential through 2030 could be achieved by an adapted policy approach promoting technologies with lowest greenhouse gas emission abatement costs to society and highest customer acceptance.

The European Union (EU) is currently creating new fuel efficiency and emissions’ targets for 2025 and 2030.

The EU has been tipping toward plug-in electrified vehicle technologies on these new standards emanating from the Paris climate summit last year, and the coalition that funded the study would like to see biofuels win out.

Roland Berger, a consulting firm based in Munich, Germany, was commissioned by the EU Auto Fuel Coalition, to conduct the study. The coalition is comprised of BMW, Daimler, Honda, NEOT/St1 (North European Oil Trade), Neste (an oil refining and biofuels company), OMV (an oil and gas company), Shell, Toyota, and Volkswagen.

At a meeting in Brussels last week, executives from VW and Shell made public statements supporting and explaining the study.

Ulrich Eichhorn, VW’s new head of research and development, said that plug-in hybrids and more efficient vehicles were “building blocks” for the future, but that “higher shares” for biofuels would be needed in the meantime.

Post-2020 target

He told a meeting in Brussels: “Modern diesel and natural gas engines will absolutely be required to deliver CO2 targets until 2020 and they will also contribute to further reductions going on from there.”

Both VW and Shell see alternative fuels such as E85 offering an easier, more profitable  path than EVs. Possible solutions for hitting targets include CO2 car labelling, adding more biofuel blends, and the expansion of the EU’s emissions trading system (ETS).

Shell’s Colin Crooks said that liquid fuels will remain essential during the EU’s transition since internal combustion engines are expected to take the lead for years to come.

The study maintained that many customers perceive many hurdles when it comes to acceptance and adoption of electric mobility. These hurdles include higher purchase prices for EVs, perceived risks in using the technologies, range limitations, limited charging infrastructure, and long charging times. As for the technology hurdles, the study identifies burning lithium ion batteries in early EVs and lack of customer experience with battery lifetime reliability.

“The EU's current regulatory framework for road transport decarbonisation needs to be updated for the post-2020 period in order to create certainty for investment in low-carbon vehicles and fuels," explained Thomas Schlick, partner at Roland Berger.

Speaking about the push for biofuel-powered cars, Schlick added: “These technologies are not yet capitalising on their full GHG emission reduction potential in terms of deployment under the current regulatory framework and can come at a cost of below 100 €/tonne CO2 abated.

"The push that these technologies are being given by vehicle manufacturers and fuel producers needs to be complemented by a stronger market pull on the part of customers.”

Read the original story: Promote Biofuel-Powered Cars Ahead of Electric Ones to Tackle Carbon Emissions, New Report Suggests

Over the past 8 months our Ethanol Plant Tour Grant program has met resounding success. This program has seen over 260 students tour the inside of their local ethanol plant to learn more about this vital Minnesota-grown industry and the important future it holds for rural America.

The Progressive Farmer

May 2, 2016

By Cheryl Anderson

Researcher Blake Simmons believes his new non-toxic ethanol technology could reduce ethanol production to just one step, as well as using the process to convert distillers dried grains into biofuels, according to an article by Illinois Farmer Today.

Simmons has been working for nine years, to develop "high-gravity" one-pot production, funded by the U.S. BioEnergy Institute in California.

The method, refined in the past 18 months, uses one process that pre-treats, hydrolizes and ferments biomass without any separation of byproducts. The new technology involves less time and water and can also utilize other materials such as crop residue or grasses.

Simmons said that the new process uses powerful solvents, ionic liquids, which dissolve biomass into sugars for the production of biofuels. These ionic liquids increase biomass digestibility, exceeding current production distillation levels for ethanol production.

The new technology is envisioned as a component to be added to current ethanol production facilities while continuing traditional ethanol production methods, Simmons said. He expects the process to be available on a commercial scale within five to six years.

Simmons said his research on the project includes using the new process to convert DDG to biofuel, thereby using all the carbon found in plant material and increasing efficiency.

Read the original story: New Ethanol Production Technology Could Use DDG for Biofuels

Ethanol Producer Magazine

April 28, 2016

By U.S. Water

U.S. Water, the leading national provider of integrated solutions for water treatment, will give three technical presentations during the upcoming Fuel Ethanol Workshop, June 20 – 23, 2016 at the Wisconsin Center, Milwaukee, Wisconsin.

During the FEW program, U.S. Water’s Jared Galligan, applications engineer, will provide an industry update on water re-use and reduction. Michael Mowbray, U.S. Water’s director of product management, will discuss phosphorus discharge restrictions and their impact on plant cooling systems, and Mitch Manstedt, U.S. Water’s strategic business leader - ethanol, will present on plant reliability, focusing on updating outdated controls and equipment in aging facilities.

At U.S. Water’s booth #223, the company will feature its integrated solutions and “Together We Can” approach to solving the challenging water, energy and process needs of ethanol facilities. In addition, the copmany will share case study results obtained through use of the Ethanol Final Filter. This bolt-on, mechanical/chemical system, brings unique value to the ethanol industry due to its ability to improve final fuel quality through the removal of both existent and potential sulfate. In addition to sulfate removal, the EFF addresses issues of color, turbidity, acidity, pH, chloride and iron.

“The ethanol industry is one of U.S. Water’s key markets,” said Al Bly, U.S. Water’s founder and CEO. “Our company was created in 1997, and had its early successes by improving the efficiency of ethanol plants. Our continued commitment to the ethanol industry, coupled with our integrated solutions model combines the best equipment, engineering services, and sustainable chemistry. This allows us to resolve the ‘root cause’ of the ethanol plant’s problem and improve its overall efficiency.”

Read the orignal story: US Water to present at Fuel Ethanol Workshop

Morning Consult

April 28, 2016

By Leif Magnusson

We have heard a lot about the importance of manufacturers during this election season, and as the head of a manufacturing business in Nebraska, I couldn’t agree more. But what many candidates – and voters – do not understand is how essential the strength of our agriculture sector is for manufacturing jobs as well.

For manufacturers of farm equipment like my company, CLAAS of America, our business’s fortunes rise and fall with the prosperity of American farmers. Our company manufactures combine and forage harvesters (among other products) in Omaha, Nebraska, where we support hundreds of good-paying manufacturing jobs. As chairman of the Association of Equipment Manufacturers (AEM), I hear similar things from other colleagues throughout the industry about the conditions facing manufacturers and their customers.

That is why equipment manufacturers have a strong voice on agricultural issues, which includes our support for the Renewable Fuel Standard (RFS). It is a mistake to think of the debate over the RFS as a provincial issue affecting only farmers and ethanol producers. In reality, protecting the RFS is of utmost importance to a number of manufacturers who depend on a strong and thriving agricultural economy.

The Renewable Fuel Standard is good policy. It reduces our nation’s dependence on foreign oil, helps cut net greenhouse gas emissions and generates tens of billions of dollars for our economy each year.

But ethanol production is not just a farmers’ issue; it supported almost 28,000 manufacturing jobs and generated over $2.75 billion for manufacturers in the United States just last year. Elected leaders who want to support manufacturing in America can do just that by protecting the RFS and ensuring that the government honors its statutory commitments to the RFS.

This June presents a great opportunity for the Obama administration to support manufacturers and agricultural producers when it issues the RVO requirements for 2017. The administration should heed the recent call by a bipartisan group of senators and restore those requirements to the levels intended by Congress.

Of course, the RFS is not the only way to promote a strong agricultural sector; policymakers need to make a lot of various smart decisions to ensure that America is supporting its farmers. But the RFS is still an important tool to both strengthen American farming and promote the next generation of biofuels.

That is why equipment manufacturers support a strong Renewable Fuel Standard: Because promoting ethanol is not just critical to the continued growth of our agricultural sector, it is also an important way our elected leaders can help manufacturers thrive.

Leif Magnusson is President of CLAAS Global Sales America Inc. and Chair of the Board of Directors of the Association of Equipment Manufacturers.

Read the original story: RFS Central to America’s Manufacturing Strength

Tuesday, 26 April 2016 12:41

RINs 101

RINs or Renewable Identification Numbers are the unique 38 digit serial number assigned to every gallon of renewable transportation fuel. Ranging from biogas, to ethanol, to biodiesel, they cover a wide varying range of feedstocks and production schemes. Normally 1 gallon of a biofuel equals 1 RIN. The 1:1 ratio can vary slightly depending on the RIN category but for our 101 purposes let’s make it easy! Good so far?

Ethanol Producer Magazine

April 22, 2016

By Erin Voegele

The U.S. EPA has published renewable identification number (RIN) data for March, reporting nearly 1.52 billion RINs were generated during the month, bringing the total for the first three months of the year to more than 4.37 billion.

Nearly 15.34 million D3 cellulosic RINs were generated in March, bringing the net total for the first quarter of 2016 to 30.15 million. More than 1 million D3 RINs have been generated for ethanol so far this year, along with 17.83 million for renewable compressed natural gas and 12.7 million for renewable liquefied natural gas. Most, 28.45 million, D3 RINs have been generated by domestic producers, with 3.09 generated by importers.

In addition a net total of 114,835 D7 cellulosic diesel RINs were generated in March, marking the first time D7 RINs were generated this year. All were generated for cellulosic heating oil by importers.

More than 4.56 million D5 advanced biofuel RINs were generated in March, bringing the net total for the first three months of the year to 12.6 million. Nearly 6.2 million D5 RINs have been generated for ethanol, with 4.15 million generated for naptha, 567,781 generated for heating oil, and 1.69 million generated for nonester renewable diesel. All 12.6 million D5 RINs generated so far this year have been generated by domestic producers.

Nearly 1.25 billion D6 renewable fuel RINs were generated in March, bringing the net total for the first quarter of the year to nearly 3.68 billion. The majority, 3.6 billion, were generated for ethanol, with 1.99 million generated for biodiesel, and 74.6 million generated for nonester renewable diesel. So far this year, 3.6 billion D RINs have been generated by domestic producers, with 4.37 million generated by importers and 74.6 million generated by foreign entities.

Nearly 253.38 million D4 biomass-based diesel RINs were generated in March, bringing the net total for the first three months of the year to 650.25 million. Most, 533.45 million, were generated for biodiesel, with 116.76 million generated for nonester renewable diesel. Nearly 530.3 million D4 RINs were generated by domestic producers, with 64.76 million generated by importers and 55.57 million generated by foreign entities.

As of the close of March, the EPA estimates 4.37 billion RINs have been generated so far this year, with 133.12 million retired, 228.15 million locked and available and 4.01 billion unlocked and available.

Read the original story: EPA: 1.52 billion RINs Generated in March