Vegetable oil used as fuel

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This article is about vegetable oil used as fuel. For other uses of vegetable oil, see vegetable oil.

Waste Vegetable Oil which has been filtered.

Many vegetable oils have similar fuel properties to Diesel fuel, except for higher viscosity and lower oxidative stability. If these differences can be overcome, vegetable oil may substitute for #2 Diesel fuel, most signicantly as engine fuel or home heating oil.

For engines designed to burn #2 diesel fuel, the viscosity of vegetable oil must be lowered to prevent poor atomization of fuel, incomplete combustion, carbon buildup and ultimately damage to the engine. Many enthusiasts refer to vegetable oil used as fuel as Waste Vegetable Oil (WVO) if it is oil that was discarded from a restaurant or Straight Vegetable Oil (SVO) to distinguish it from Biodiesel.

[edit] History

The first known use of vegetable oil as fuel for a diesel engine was a demonstration of an engine built by the Otto company and designed to burn mineral oil, which was run off of pure peanut oil at the 1900 World's Fair. While there is no record of Rudolph Diesel, himself, ever experimenting with the use of vegetable oil as a fuel for his engines, he was certainly aware of the possibility. In a 1912 presentation to the British Institute of Mechanical Engineers, he cited a number of efforts in this area and remarked, "The fact that fat oils from vegetable sources can be used may seem insignificant today, but such oils may perhaps become in course of time of the same importance as some natural mineral oils and the tar products are now."^[1]

[edit] Application and usability

While engineers and enthusiasts have been experimenting with using vegetable oil as fuel for a diesel engine since at least 1900, in all the literature, only one peer reviewed study exists that compares long term use of vegetable oil and #2 Diesel as a fuels which shows no noticeable difference in rate of deterioration of the engine burning vegetable oil, for one particular model of engine, the German Deutz F3l912W .^[2]

Most diesel car engines are suitable for the use of SVO with modifications. Principally, the viscosity of the SVO must be reduced by preheating it, typically by using heat from the engine or electricity, otherwise poor atomization, incomplete combustion and carbonization may result. One common solution is to add an additional fuel tank for "normal" diesel fuel (petrodiesel or biodiesel) and a three way valve to switch between this additional tank and the main tank of SVO. The engine is started on diesel, switched over to vegetable oil as soon as it is warmed up and switched back to diesel shortly before being switched off to ensure it has no vegetable oil in the engine or fuel lines when it is started from cold again. In colder climates it is often necessary to heat the vegetable oil fuel lines and tank as it can become very viscous and even solidify. Another common solution (the one-tank system) is to add electric pre-heating of the fuel and if necessary upgrade the injection pumps and glow-plugs to allow SVO fuel use with one tank. One tank conversions are most viable in hot climates.

With unmodified engines the unfavourable effects may be reduced by blending, or "cutting", the SVO with diesel fuel; however, opinions vary as to the efficacy of this. Some WVO mechanics have found higher rates of wear and failure in fuel pumps and piston rings due to partially-combusted WVO/SVO droplets carbonizing in those components. For normal use, without either blending or a second tank and associated modifications in a petrodiesel engine, vegetable oil has to be transesterified to biodiesel.

Many cars powered by indirect injection engines supplied by inline injection pumps, or mechanical Bosch injection pumps are capable to run on pure svo in all but winter temperatures.* Turbo diesels tend to run better due to the increased pressure in the injectors. Pre-CDI Mercedes-Benz vehicles and cars featuring the PSA XUD engine tend to perform well too, especially as the latter is normally equipped with a coolant heated fuel filter.

[edit] Properties

The main form of SVO used in the UK is rapeseed oil which has a freezing point of -10°C. However the use of sunflower oil, which freezes at -17°C, is currently being investigated as a means of improving cold weather starting. Unfortunately oils with lower gelling points tend to be less saturated (leading to a higher iodine number) and polymerize more easily in the presence of atmospheric oxygen.

Cetane number (combustion quality) is highest with coconut oil, palm stearine, palm kernel, palm oil, palm oleine, lard and tallow. Coconut oil, palm oil, palm stearine, tallow and lard have the lowest iodine numbers.

[edit] Examples

Some Pacific island nations are using coconut oil as fuel to reduce their expenses and their dependence on imported fuels while helping stabilize the coconut oil market. Coconut oil is only usable where temperatures do not drop below 17 degrees Celsius (62 degrees Fahrenheit), unless two-tank SVO kits or other tank-heating accessories, etc. are used. Fortunately, the same techniques developed to use, for example, Canola and other oils in cold climates can be implemented to make coconut oil useable in temperatures lower than 17 degrees Celsius.

[edit] Taxation of fuel

Taxation on SVO as a road fuel varies from country to country, and it is possible the revenue departments in many countries are even unaware of its use, or feel it sufficiently insignificant to legislate. Germany offers 0% taxation, resulting in their leading on most developments of the fuel use. There seems to be no clear taxation system in the USA, however given the low rate of fuel taxation, it is unlikely to face anything unfavourable, although charges could vary from state to state. The Government of Canada exempted biodiesel from the federal excise tax on diesel in the March 2003 budget. In Ireland a pilot scheme is currently running (as of April 2006) whereby eight suppliers have been approved to sell SVO for use as a fuel without the payment of excise duty (VAT at 21% still applies, SVO from any other source still attracts exise duty at 36.8058 cents per litre plus 21% VAT). Despite its use being common in France, it would appear there has been no legislation to cover this.

In the UK, drivers using SVO have been prosecuted for failure to pay duty to Her Majesty's Revenue and Customs. The rate of taxation on SVO was originally set at a reduced rate of 27.1p per litre, but in late 2005, HMRC started to enforce the full diesel excise rate of 47.1p per litre. HMRC argued that SVOs on the market from small producers did not meet the official definition of "biodiesel" in Section 2AA of The Hydrocarbon Oil Duties Act 1979 (HODA), and consequently was merely a "fuel substitute" chargeable at the normal diesel rate. Such a policy seemed to contradict the UK Government's commitments to the Kyoto Protocol and to many EU directives and had many consequences, including an attempt to make the increase retroactive, with one organisation being presented with a £16,000 back tax bill. Such a change in the interpretation of excise duty effectively makes use of SVO in the UK nonviable commercially, whatever its viability on environmental grounds, as the combined price of SVO and taxation for its use considerably exceeds the price of mineral diesel. HMRC's interpretation is being widely challenged by the SVO industry and the UK pure Plant Oil Association (UKPPOA)has been formed to represent the interests of people using vegetable oil as fuel and to lobby parliament. http://www.ukppoa.org.uk/ ^[3]

[edit] Home heating

With often minimal modification, most residential furnaces and boilers which are designed to burn No. 2 heating oil can be made to burn either biodiesel or filtered, preheated waste vegetable oil. These are generally not as clean-burning as petroleum fuel oil, but if processed at home, by the consumer, can result in considerable savings. Many restaurants will give away their used cooking oil either free or at minimal cost, and processing to biodiesel is fairly simple and inexpensive. Burning filtered WVO directly is somewhat more problematic, since it is much more viscous, but with suitable preheating, it can be accomplished with a bit of ingenuity. WVO can be a very economical heating option for those with a mechanical inclination and the drive to put a little work into it.

[edit] Availability of Fuel

[edit] Waste Vegetable Oil

As of 2000, the United States was producing in excess of 11 billion liters of waste vegetable oil annually, mainly from industrial deep fryers in potato processing plants, snack food factories and fast food restaurants. If all those 11 billion liters could be collected and used to replace the energetically equivalent amount of petroleum (a rather utopical case), almost 1% of US oil consumption could be offset. ^{[citation needed]} However, usage of waste vegetable oil as a fuel competes with already established usages.

[edit] Pure Vegetable Oil

Pure vegetable oil, in contrast to waste vegetable oil, is not a byproduct of other industries, and thus its prospects for use as fuel are not limited by the capacities of other industries. The production of vegetable oils for the purpose of fuels is theoretically limited only by the agricultural capacity of a given economy.

[edit] Legal Implications

The conversion of an automobile engine to burn vegetable oil is not currently legal under US Environmental Protection Agency guidelines. The EPA has not fined anyone for doing so, but certain laws may have to change - or a certification process may need to be established - before VO conversions become more popular in the United States.

In the UK it is Legal once duty has been paid on the fuel. The current duty on fuel can be found here:

UK Fuel Duty Rates

[edit] Further reading

• From the Fryer to the Fuel Tank by Joshua Tickell ISBN 0-9707227-0-2 Published by Greenteach.

[edit] References

1. ^ Knothe, Gerhard. "Historical Perspectives on Vegetable Oil-Based Diesel Fuels." Inform. 12, 11 (2001): 1103-1107. http://www.biodiesel.org/resources/reportsdatabase/reports/gen/20011101_gen-346.pdf
2. ^ Hawkins, C.S.; Fuls, J.; and F.J.C. Hugo. "Engine Durability Tests with Sunflower Oil in an Indirect Injection Diesel Engine." SAE Paper 831357.
3. ^ Source: http://www.biomotors.co.uk/fuel-duty.html

[edit] External links

• From Fields to Fuel
• Golden Fuel Systems Kits, Formely GREASEL Conversions
• SLIDING HOME by Ray Holan Excellent resource that explains the "ins" and "outs" of the SVO world
• LIQUID GOLD Learn the Do’s and Don’t's of Gathering and using Waste Vegetable oil as a fuel
• PlantDrive Kits, components, extensive FAQ
• Elsbett
• DMOZ's list of Vegetable oil fuel links
• The Global Vegetable Fuel Resources Map - Google map mashup
• Southern Grease - Beginner's tutorials on Straight Vegetable Oil as Fuel
• BBC2 'Working Lunch' video on Gloucestershire's leading vegetable oil enthusiast, Sebastian Rasch
• Details in of SVO and WVO use in the UK
• Fuel-Duty and VAT on Pure Vegetable Oil (UK)
• biofuel-uk Info and forum for veg oil fuel use in the UK
• GreaseON Vegetable Oil Conversion Kits (Specializing in Mercedes Vehicles)
• Greasy Rider website and film
• Green-Trust.org Fry Guys - The story of running on grease.
• InfoPOP Straight Vegetable Oil as Fuel Forum
• Organic Mechanic - GreaseBeast Filtration Unit, SuVO Conversion Kits, & Pro Climate heaters
• SVO yields
• SVO characteristics
• Vegcar.net - One man's recovery from petroleum dependence.
• WVO Fuels
• Vegenergy Fuels - A good resource for bio-fuel conversion of vehicles in the Atlanta, Georgia area.
• Journey to Forever - Covers some of the controversy over running cold-start with blended VO and diesel.
• Big rigs and buses how-to for building a system that can filter on the road.

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