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Exploring Alternative Fuels

Exploring Alternative Fuels. Dr. Gary Mahoney Dr. Petros Katsioloudis Berea College Berea, Kentucky. ITEA's 70th Annual Conference Salt Lake City, Utah February 21-23, 2008. Goals.

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Exploring Alternative Fuels

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  1. Exploring Alternative Fuels Dr. Gary Mahoney Dr. Petros Katsioloudis Berea CollegeBerea, Kentucky ITEA's 70th Annual ConferenceSalt Lake City, UtahFebruary 21-23, 2008

  2. Goals • This presentation will discuss the lessons learned in producing and testing ethanol fuel in internal combustion engines. Engine redesign and modification will be discussed. • to provide experiences and activities related to the Designed World; specifically Agriculture and Related Biotechnologies, Energy and Power Technologies, and Transportation Technologies.

  3. Goals cont. • to gain experience and insight into Technology and Society; to provide hands-on experiences in the effects of Technology on the Environment, the role of society in the development and use of technology and the influence of technology on history. • to provide experiences in the production of renewable alternative fuels, testing of the fuels, and modification of engine design to better utilize the alternative fuels.

  4. The process of obtaining a Federal license to own and operate a distillation device • Form TTB F 5110.74 • http://www.ttb.gov/forms/f511074.pdf

  5. Instruction Sheet for formTTB F 5110.74

  6. Page #1 ofTTB F 5110.74

  7. Page #2 ofTTB F 5110.74

  8. Page #3 ofTTB F 5110.74

  9. History

  10. History • The first evidence of distillation comes from Babylonia and dates from the 2nd millennium BC. • Specially shaped clay pots were used to extract small amounts of distilled alcohol through natural cooling for use in perfumes. • http://en.wikipedia.org/wiki/Distilled_beverage

  11. History • By the 3rd century AD, alchemists in Alexandria, Egypt, may have used an early form of distillation to produce alcohol for sublimation or for coloring metal • http://en.wikipedia.org/wiki/Distilled_beverage

  12. History • Alcohol was fully purified for the first time by Muslim chemists in the 8th and 9th centuries. • http://en.wikipedia.org/wiki/Distilled_beverage

  13. History • Freeze distillation, the "Mongolian still", are known to have been in use in Central Asia sometime in the early Middle Ages. • http://en.wikipedia.org/wiki/Distilled_beverage

  14. History • Distilled alcohol beverages first appeared in Europe in the mid-12th century among alchemists, who were more interested in medical "elixirs" than making gold from lead. • http://en.wikipedia.org/wiki/Distilled_beverage

  15. History: London 1651 http://www.moonshine-still.com/page5.htm

  16. History: Corty’s Still

  17. History: Adam’s Still http://www.moonshine-still.com/page6.htm

  18. History: Irish Still http://www.moonshine-still.com/page5.htm

  19. History: Appalachian Still (caught) http://www.moonshine-still.com/page5.htm

  20. History: Modern Distillation Plant

  21. Process of producing fuel grade ethanol • The still used in this project was a Column Reflux Still. • The plans are available at http://www.moonshine-still.com/ http://www.moonshine-still.com/page22.htm

  22. Processes • Mashing: converting starches to sugars. • Fermentation: converting sugars to alcohol and carbon dioxide. • Distillation: separating the alcohol from the beer.

  23. Equipment: • 34-40L pot with lid • A large stirring spoon • A floating thermometer • Hydrometer • Immersion chiller • Scale

  24. Ingredients: • Corn mash: • 23L of soft tap water • 8L (4Kg or 8.8 lbs) cornmeal • 1 ½ L (3/4 Kg or 1.65 lbs) crushed 2-row pale barley malt

  25. Mashing • Grain is ground into smaller components to facilitate the chemical reaction. • At least 10% of the grain bill should be sprouted (malted) grain to provide the enzymes necessary to convert starches to sugar. • Alpha and Beta amylase enzymes are used.

  26. Mashing: shelling grain

  27. Mashing: grinding grain

  28. Mashing: malted barley

  29. Mashing: cooking the mash.

  30. Thin mash: • 23L of water • 3.6Kg of table sugar  • 2 packets of Champaign yeast

  31. Process: • Heat the water to 73C (163F) • Turn off the heat and stir in the cornmeal • The temperature should rest at about 66C (151F) and the mash will thicken • Make sure the temp is under 71F (160F) • Stir in 100ml of crushed barley malt • Cover the pot and leave for 20 minutes (stir every few minutes)

  32. Mashing

  33. Turn the heat back on high and stir continually until the mash comes to a boil. • Turn the heat off and continue to stir for five minutes. • Cover the pot and allow it to cool (or use an immersion chiller) to 66.5C (152F)

  34. Mashing: rest

  35. Stir in the remainder of the crushed barley malt • The temp should rest at about 65C (149F) • Cover and let rest for 90 minutes (stir every 15 minutes) • (At this point it would be cooled with an immersion chiller to under 100F, oxygenated and the yeast would be pitched)

  36. Our process will be “thin-mashing”. In order to gain more alcohol we will add water and table sugar. • Add 30L of water • Check the specific gravity

  37. Mashing: thin mash

  38. Add table sugar until the SG reads between 1.060 and 1.070. (about 3.6 Kg) • This will lower the temperature and oxygenate the mash • Two packets of dry Champaign yeast will be added and the fermentation vessel will be capped

  39. Mashing: measuring the specific gravity

  40. Alternative Methods • Sour Mashing is a method that eliminated the cooking step. • Initially, it is very inefficient, however the same grains are used over and over until a complete conversion is obtained.

  41. Sour Mash Recipe • For a 5 gallon mash: • 5 gallons soft, filtered water. • 7 lbs cracked corn. 6-8 pieces/kernel is the proper crack. • 7 lbs of granulated sugar. • 1 tbsp yeast (distillers yeast if available.) • January 2, 2008:http://homedistiller.org/wiki/index.php/Uncle_Jesse's_Simple_Sour_Mash_Method

  42. Theory • The conversion of starches to sugars is a natural process, accelerated by cooking. An uncooked mash will convert starches to sugars but much more slowly and less efficiently. The added sugar will ferment easily and will provide most of the alcohol in the beer. • January 2, 2008:http://homedistiller.org/wiki/index.php/Uncle_Jesse's_Simple_Sour_Mash_Method

  43. The first distillation run will be a "sweet" run since there will not be any backset to use for sour mashing. It is recommend that the spirits collected in the first run be used as feints for the next run. • January 2, 2008:http://homedistiller.org/wiki/index.php/Uncle_Jesse's_Simple_Sour_Mash_Method

  44. First Fermentation • Put ingredients into the fermenter in the order listed • Fermentation should start in 6 to 12 hours. • It should take 3 or 4 days for the ebullition to end. • Siphon your beer out of the fermenter with a racking cane and charge your still. • January 2, 2008:http://homedistiller.org/wiki/index.php/Uncle_Jesse's_Simple_Sour_Mash_Method

  45. Start with 25% backset (liquid left in the boiler after distillation). • This means that for a 5 gallon mash you will use 1-1/4 gallons of backset and 3-3/4 gallons of water. • January 2, 2008:http://homedistiller.org/wiki/index.php/Uncle_Jesse's_Simple_Sour_Mash_Method

  46. Put 3-3/4 gallons of water back into the fermenter so the yeast won't die. • Scoop off the spend corn and replace with an equal volume of new corn. • Add 1-1/4 gallons of backset and 7 more pounds of granulated sugar. • January 2, 2008:http://homedistiller.org/wiki/index.php/Uncle_Jesse's_Simple_Sour_Mash_Method

  47. Fermentation • Krauskopf,K.(2003).The Physical Universe,11th edition.McGraw-Hill: Boston. Yeast is used to convert sugar to alcohol. The byproduct is carbon dioxide.

  48. Fermentation

  49. Fermentation: check specific gravity

  50. Fermentation: pitching the yeast

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