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National Biodiesel Day - March 18th

National Biodiesel Day takes place on Thursday, March 18, the date of Rudolf Diesel’s birthday. The biodiesel industry chose his birthday to honor him for his foresight in recognizing the valuable role of vegetable oil-based fuel. He originally designed the diesel engine in the late 19th Century to run on peanut oil. Only later did petroleum become the standard. In a 1912 speech, Diesel said “the use of vegetable oils for engine fuels may seem insignificant today, but such oils may become, in the course of time, as important as petroleum and the coal tar products of the present time.”

Press Release:

Everyone thinks of green on St. Patrick’s Day, but the day after is an important opportunity to celebrate biodiesel’s green benefits in America. March 18, the birth date of biodiesel inventor Rudolf Diesel, is National Biodiesel Day. It is a reminder of the environmental benefits of the fuel that Diesel introduced in late 19th Century.

Overall, the U.S. biodiesel industry is playing a constructive role in helping to promote energy independence. The 500 million gallons of fuel the U.S. biodiesel industry produced in 2007 offset nearly 12 million barrels of oil.

Some have inaccurately described the environmental attributes of biodiesel.  The fact is that:

• Soy-based biodiesel reduces lifecycle carbon dioxide reductions by 78 percent, as shown by analysis conducted jointly by the U.S. Department of Agriculture and the U.S. Department of Energy. This takes into account everything from planting the soybeans to delivering biodiesel to the pump. 
  
•   A 2007 update to this analysis found that for every unit of fossil energy it takes to make biodiesel, 3.5 units of energy are gained.
  
•   It was no surprise that President Bush described biodiesel as the most promising renewable fuel when he spoke to a global gathering of renewable energy leaders on March 5 in Washington, D.C. 
  
•   Last December, with broad bipartisan support, Congress passed and the President signed an energy bill that dramatically expanded the Renewable Fuels Standard (RFS).  The RFS sets minimum standards for the use of renewables in our nation’s fuel.  At the urging of NBB, this landmark initiative for the first time specifically requires a renewable component in diesel fuel. As the expanded RFS was being considered in Congress, the biodiesel industry worked closely with the environmental community in support of a requirement that biodiesel under the program reduce greenhouse gas emissions by 50 percent compared to petroleum diesel fuel. We have every confidence our fuel will meet this aggressive greenhouse emission standard.
  
•   Lastly, it is worthwhile to note that the U.S. biodiesel industry is promoting job creation and economic opportunity in rural America.  A recent study concluded that in 2007 alone, the biodiesel industry supported over 21,000 jobs and added over $4 billion to the nation’s Gross Domestic Product (GDP).

America’s biodiesel industry is producing a sustainable fuel that is good for the environment, reduces our dependence on foreign oil and encourages job creation.  I have every confidence that the biodiesel industry will continue to play a constructive role in helping America meet our shared energy and environmental goals.

Rudolf Christian Carl Diesel

Born March 18, 1858, Paris
Died September 29, 1913, in the "English Channel"

No other engine inventor's name is as closely tied to his engine as Rudolf Diesel's is. But Diesel worked hard to make it that way. Historian Linwood Bryant tells us that Diesel saw himself as a scientific genius and the James Watt of the late 19th century.

Diesel started his education in Paris and spent most of his time in the museum of arts and crafts. The outbreak of the Franco-Prussian War forced him to leave Paris and go to London. He later studied in Munich under the German chemist Carl Von Linde. He invented the refrigeration system used now in many electrical refrigerators. Diesel grew to become a very important engineer and inventor.

He attempted to find better ways to use steam as the working fluid in heat engines. His patents in 1892 and 1893 were not for the engine but for the cycle of an engine employing the compression-ignition technique. In this cycle there were four phases. He did not have one fully rolling until 1897. Diesel attacked the problem of the compression-ignition engine not as a new concept but as a refinement of the petrol engine inventd by Nikolaus Otto in 1876. He spent the rest of his life introducing his invention to the world. He had many problems with manufacturing, licensing and financial stability. On Sept. 29, 1913, Diesel vanished off the Harwich-Antwerp ferry crossing the channel to England and his body was never found. Since his death the diesel engine has been very helpful in manufacturing and transportation.

He originally designed the diesel engine to run on peanut oil. Only later did petroleum become the standard. In a 1912 speech, Diesel said “the use of vegetable oils for engine fuels may seem insignificant today, but such oils may become, in the course of time, as important as petroleum and the coal tar products of the present time.”

Diesel revised his original model and on February 17, 1894 the new engine ran for over a minute. It took nearly three years to produce a viable working model. The engine he produced had a mechanical efficency of over 75% where the steam engines of the time were operating on less than 10%.

Once the engine had been proven, Diesel became a rich man. By 1898 he was a millionaire from sales of the rights to his engine. The U.S. rights went to a Missouri beer manufacturer, Adolphus Busch. His results and sales were so impressive that they were used in nearly all US submarines during WWI.

The Vickers company modified the pump and in 1914 William T. Price managed to successfully reduce the compression ratio in the engine.

NOTES
Macquarie Library, History of Ideas (1983); W. R. Nitske and C. M. Wilson, Rudolf Diesel (1965); A. W. Judge, High Speed Diesel Engine (1967); S. D. Haddad and N. Watson, ed., Design and Applications in Diesel Engineering (1984); L. R. Lilly, Diesel Engine Reference Book (1984).