JP2009544810A - Alternative organic fuel formulations including vegetable oil and petroleum diesel - Google Patents

Abstract

  Fuel formulations can be produced from vegetable oils that do not require removal of glycerin from the vegetable oil prior to use. The fuel formulation may be used in diesel fuel vehicles and / or as home heating oil. The fuel formulation may include vegetable oil, petroleum diesel, fuel stabilizers, and cetane boost additives.

Description

(Explanation for related applications)
This application claims the benefit of US Provisional Application No. 60 / 833,272, filed July 26, 2006, and US Provisional Application No. 60 / 872,798, filed December 5, 2006.
The present invention relates to alternative fuel formulations comprising vegetable oils. In particular, the present invention relates to vegetable oil fuel formulations that do not require glycerin to be removed from crude vegetable oil.

Biodiesel is an alternative fuel derived from renewable resources, most commonly vegetable oil. Biodiesel itself does not contain petroleum, but is generally mixed with petroleum diesel to make a biodiesel blend.
The term biodiesel is commonly used to indicate the output of a thermodynamic process in which the glycerin component of the vegetable oil is separated and removed from the ethyl or methyl ester of the original oil. The glycerin component of vegetable oils is usually considered negative. The reason is that the presence increases the viscosity and flash point of vegetable oils to a level that is usually incompatible with second-hand diesel engines.
Biodiesel offers several benefits over typical fossil fuels. These benefits include cleaner combustion and the fact that it can be produced from renewable resources.

However, biodiesel also has many drawbacks. For example, the method of producing biodiesel is very expensive and time consuming. Biodiesel processes also have ecological disadvantages, mainly in the form of pollution by-products.
A typical biodiesel process begins, for example, by using 38 L (10 gallons) of spent vegetable oil. The oil is first filtered to remove food particles in the oil. Methanol and alkaline solution (lye) are then added to the oil. The mixture is heated for a while, often a few hours, generally 48-54 ° C. The solution is then allowed to cool, generally over 8 hours, during which time heavier glycerin components precipitate from the solution. The methyl ester (biodiesel) is then scooped from the top of the solution. Generally, over 60% by volume solution will be purified to biodiesel. The glycerin byproduct is approximately 8% by volume of the original oil volume. Next, the biodiesel is washed with water to remove the residual alkaline solution. If the alkaline liquid is not completely removed from the fuel, certain vehicle fuel lines can be corroded and potentially clog the fuel filter. Finally, the biodiesel is washed and dried in a manner that separates water and residual impurities from pure biodiesel. One of the contamination by-products in this method is water contaminated with alkaline liquid.

  Due to a number of drawbacks associated with biodiesel production and utilization, there is a need for a vegetable oil derived fuel formulation that does not require separation of glycerin from crude vegetable oil.

The present invention therefore consists of what is referred to as an alto-diesel fuel formulation and a method of producing an alto-diesel fuel formulation comprising vegetable oil in which glycerin may not be removed from the vegetable oil prior to use.
One aspect of the fuel formulation is 25 to 75% by volume vegetable oil from which glycerin has not been removed, 25 to 75% by volume petroleum diesel, 0.001 to 5% by volume fuel stabilizer, and a cetane boost additive. 0.01 to 5% by volume is contained.
The cetane boost additive may consist of octyl nitrate. The vegetable oil may be an edible or non-edible vegetable oil. The vegetable oil may comprise (but is not limited to), for example, jatropha oil, algae oil, soybean oil or peanut oil. The formulation may further comprise 1-20% by volume of terpentine. The fuel formulation may also include 25 to 75 volume percent petroleum diesel. The fuel formulation may be configured to be suitable for use as an automobile fuel.

Another aspect of the fuel formulation is 25 to 75 vol% vegetable oil from which glycerin has not been removed, 1 to 50 vol% petroleum diesel, 1 to 50 vol% turpentine, 0.001 to 5 vol% fuel stabilizer, and Contains 0.01-5% by volume of cetane boost additive.
Yet another embodiment of the fuel formulation comprises 70-98 vol% vegetable oil, 1-20 vol% petroleum diesel, and 1-20 vol% regular gasoline. Glycerin need not be removed from the vegetable oil. The formulation may include 0.01-5% by volume cetane boost additive and / or 0.001-5% by volume fuel stabilizer. The formulations of the present invention may also contain 1-20% by volume of terpentine. The fuel formulation may also include 1-20% by volume of kerosene.
Another embodiment of the fuel formulation includes 70-98 vol% vegetable oil, 1-40 vol% ethanol, 1-20 vol% petroleum diesel, and 0.01-40 vol% surfactant. Glycerin need not be removed from the vegetable oil. The formulation may include 0.01-5% by volume cetane boost additive and / or 0.001-5% by volume fuel stabilizer. The formulations of the present invention may also contain 1-20% by volume of terpentine. The fuel formulation may also include 1-20% by volume of kerosene.

A method of producing a fuel formulation includes mixing together 70-98 vol% vegetable oil from which glycerin has not been removed, 1-20 vol% petroleum diesel, and 1-20 vol% regular gasoline.
Another method for producing fuel blends is 70-98 vol% vegetable oil from which glycerin has not been removed, 1-40 vol% ethanol, 1-20 vol% petroleum diesel, and 0.01-40 vol% surfactant. Mixing together.
Yet another method of producing fuel blends is 25-75% by volume vegetable oil from which glycerin has not been removed, 1-50% by volume petroleum diesel, 1-50% by volume turpentine, 0.001-5 volumes by fuel stabilizer. %, And 0.01-5% by volume cetane boost additive.
Another method of producing fuel blends is 25-75% by volume vegetable oil from which glycerin has not been removed, 25-75% by volume petroleum diesel, 0.001-5% by volume fuel stabilizer, and 0 cetane boost additive. 0.01% to 5% by volume mixed together.
(Detailed description of the invention)

Alternative formulations of vegetable oil derived fuels (hereinafter referred to as Alt-diesel formulations) can be produced that overcome or alleviate some of the disadvantages of biodiesel. These formulations can be produced quickly and easily and have little or no cold weather sensitivity at low temperatures, typically in North America.
These Alt-diesel formulations can burn better than fossil fuels, such as # 2 diesel. Alt-diesel blends can burn at least 50% cleaner than fossil fuels, and even at least 80% more.
Because the Alt-diesel formulation is non-corrosive, there are no fuel line problems or clogged fuel filters. The vehicle can run on an Alt-diesel formulation without the need to improve the vehicle or vehicle components.
These Alt-diesel formulations are stable and can be stored for long periods of time without breaking down before use. Some Alt-diesel formulations can be stored for at least one month or more than one year before use.

In one embodiment, production of an Alt-diesel formulation begins with a vegetable oil, for example, 38 L (10 gallons) of used or fresh soybean oil. A wide variety of oils are suitable. In practice, non-animal vegetable oils can be used. The term “vegetable oil” as used herein will be used in reference to any non-animal vegetable oil suitable for use as a fuel. Preferred oils consist of jatropha, algae, soy, peanuts and various edible and non-edible oils. This method of utilizing oil from non-edible plant resources is particularly beneficial.
Preferably, the oil contains no shortening or only a small amount of shortening. Plant shortening will work, but the production of fuel will decrease and the production of by-products per gallon from the shortening will increase. In addition, due to the higher moisture content of shortening, shortening is a poor quality fuel for use in diesel engines.
Either fresh or used oil can be used. However, prior to use, the used oil is preferably separated. Spent oil can be collected, for example, from restaurants or manufacturing facilities. The spent oil can then be filtered and stored in a sedimentation tank. The oil is then preferably allowed to settle for at least 12 hours. This process separates moisture and fat from good quality oil. Moisture and fat will sink to the bottom of the tank, and moisture and fat can be drained. The good or fresh oil can then be filtered either before or after mixing with the one or more fossil fuels and / or additives.

Preferred amounts of vegetable oil in certain formulations may consist of 25-75%, 30-70%, and 40-60% by volume. Preferred amounts of vegetable oil in other formulations may consist of 70-98%, 75-95%, and 80-90% by volume.
The Alt-diesel blend may include petroleum diesel, such as # 2 diesel. Petroleum diesel can be added to reduce the viscosity of the oil. Preferred amounts of petroleum diesel in certain formulations may consist of 25-75%, 30-70%, and 40-60% by volume. Preferred amounts of petroleum diesel in another formulation may consist of 1-20%, 5-15%, and 7-12% by volume. A preferred amount of petroleum diesel in another formulation may consist of 1-50%, 10-40%, and 15-35% by volume.
The Alt-diesel blend may include kerosene in addition to or instead of some or all of the petroleum diesel. Preferred amounts of kerosene in certain formulations may consist of 25-75%, 30-70%, and 40-60% by volume. Preferred amounts of kerosene in another formulation may consist of 1-20%, 5-15%, and 7-12% by volume. Also, the preferred amount of kerosene in another formulation can consist of 1-50%, 10-40%, and 15-35% by volume.
The Alt-diesel formulation may include terpentine. Turpentine, like petroleum diesel and kerosene, can be added to reduce the viscosity of the oil. Turpentine has the additional advantage that it can be obtained from organic resources. Preferred amounts of terpentine in certain formulations may consist of 25-75%, 30-70%, and 40-60% by volume. A preferred amount of terpentine in another formulation may consist of 1-20%, 5-15%, and 7-12% by volume. Also, the preferred amount of terpentine in another formulation may consist of 1-50% by volume, 10-40% by volume, and 15-35% by volume.

The Alt-diesel formulation may include a fuel stabilizer. Fuel stabilizers are additives that help prevent the fuel from undergoing decomposition and oxidation, especially during long term storage. Fuel stabilizers can also be used to prevent glycerin in the fuel from clogging the inhalation system. An example of a preferred fuel stabilizer is DIESEL KLEAN manufactured by Share Corp. Another example of a preferred fuel stabilizer is the STA-BIL fuel stabilizer manufactured by Gold Eagle Co. Preferred amounts of fuel stabilizer in the formulation consist of 0.001-5% by volume, 0.01-1% by volume, and 0.05-0.10% by volume.
The Alt-diesel formulation may include regular gasoline to aid combustion. Preferred amounts of regular gasoline in the formulation consist of 1-20% by volume, 2-10% by volume, and 3-7% by volume.
The Alt-diesel formulation may include a cetane booster. Preferred cetane boosters consist of octyl nitrate alone or in combination with other cetane boost agents. An example of a preferred cetane booster is AMSOIL cetane boost additive. Preferred amounts of cetane booster in the formulation consist of 0.01-5% by volume, 0.05-3% by volume, and 0.1-2% by volume.

One method of producing an Alt-diesel formulation may include mixing vegetable oil, petroleum diesel, fuel stabilizer, regular gasoline and cetane booster. The mixture is then ready for use.
Another method of producing an Alt-diesel blend may include mixing vegetable oil, petroleum diesel, fuel stabilizers and cetane boosters. Yet another method of producing an Alt-diesel blend may include mixing vegetable oil, petroleum diesel, turpentine, fuel stabilizer and cetane booster.

The Alt-diesel formulation may include ethanol. Ethanol can neutralize the disadvantage characteristics of glycerin in vegetable oils. This is because glycerin is inactivated and burned off during the combustion process. In addition, when ethanol is used in the formulation, it is possible to reduce or even eliminate the amount of gasoline, petroleum diesel and / or kerosene used in the formulation. Ethanol may be pure ethanol or denatured ethanol. Preferred amounts of ethanol in the formulation consist of 1-40%, 5-25%, and 10-20% by volume.
Another advantage that ethanol brings to ethanol-containing alto-diesel formulations is the reduction or elimination of the need for fuel stabilizer components used in previous formulations (surfactant / fuel line antifreeze and Get similar results). The preferred amount of fuel stabilizer in the ethanol-containing formulation consists of 0.001-1% by volume, 0.005-0.75% by volume, 0.002-0.003% by volume.

The Alt-diesel formulation may include a surfactant. A surfactant component can be used to help ensure proper mixing of the oil and ethanol. This component can also be used to adjust viscosity. Currently, many suitable surfactants are used in fuel line anti-freeze products sold today. Preferred surfactants are toluene, acetone and
Including, but not limited to Stoddard solvents. Preferred amounts of surfactant in the formulation consist of 0.01 to 40% by volume, 0.1 to 10% by volume, and 0.5 to 5% by volume.

An example of a method for producing an ethanol-containing formulation includes vegetable oils, ethanol, surfactants, and optionally other ingredients to obtain operational and combustion characteristics of distillate petroleum fuels such as diesel and home heating oil. Including mixing.
The method can be accomplished using simple mixing and filtering equipment. The method preferably does not produce harmful by-products. Specifically, the method preferably only produces food particles and only when waste oil is used in the formulation. This can be sold, for example, to a dog food manufacturer. The fuel also preferably leaves little or no accumulation in the intake and exhaust manifolds of the engine. Alt-diesel blends can provide better lubrication than pure fossil diesel. In addition to functioning in diesel vehicles, the fuel can be used as a home heating oil without requiring the required burner improvements.

The oil or alto-diesel blend is preferably filtered to pass through a typical diesel vehicle fuel filter with 2 micron filtration. Preferably, the Alt-diesel formulation is filtered to remove particles greater than 1 micron in diameter.
The Alt-diesel blend can be produced by filtering the oil or blend using one or more filters. A filtration system for used oil may include screening the oil as it is poured into a sedimentation tank. The oil is then pumped from the sedimentation tank through a 10-30 μm (micron), more preferably a 15-20 μm (micron) filter, and then through a 1 μm (micron) carbon filter. Finally, to remove any remaining water, the oil is pumped through a 5-50 μm (micron), more preferably 10-30 μm (micron) drying filter. Water separators are used because water can be extremely harmful to diesel engines. The filtered oil can be mixed with fossil fuels and / or additives, if not mixed prior to filtration, and is ready to be pumped to the vehicle.
Filtering the fuel formulation using a series of filters can reduce the pressure required to move the high viscosity oil through the filter. If new oil is being used, the oil need only be pumped through a 10 micron drying filter and then mixed.

  The invention will be better understood with reference to the following, without being limited to the examples. The examples are intended to illustrate certain embodiments within the full scope of the invention.

38 L (10 gallons) of filtered oil was mixed with 4 L of kerosene (1 gallon) and 140 g (5 ounces) of STA-BIL fuel stabilizer. In order to run in cold weather, a regular amount of 10% kerosene is added to regular diesel fuel. 10% kerosene also seemed to give the oil a viscosity similar to regular diesel. STA-BIL fuel stabilizer was added to attach minute water droplets in oil. 28 g (1 ounce) of fuel stabilizer was added to 9.5 L (2.5 gallons) of fuel.
Fuel was used on a diesel John Deere tractor. Initially, the tractor did not move, but eventually it could be moved using ether to promote initial combustion. The engine worked very roughly until it warmed to normal operating temperature. Once warmed up, the engine worked well. This test indicated that additional components should be added to the formulation during engine startup to provide a flash point commonly used to initiate combustion. Therefore, 5% regular gasoline was added to the mixture to provide the flash point required for combustion. With this sophisticated formulation, the engine started and ran without ether.

DIESEL KLEAN along with cetane booster was added to the formulation described in Example 1 with regular gasoline to help prevent residue buildup and raise the cetane level of the fuel. This mixture was then tested on a used 1997 Volkswagen Passat TDI. Prior to testing the mixture at Passat, the engine inlet was removed. The air inlet was completely clogged with soot. In addition, the EGR valve was clogged like a water preheater (this is a common problem with diesel engines operating in the northeastern United States). Therefore, these parts were cleaned as much as possible before the fuel test.
This Alt-diesel formulation was used to test 16093 km (10000 miles) at Passat. During the test, the passat was exposed to low temperatures overnight (the morning temperature recorded was -20 ° C (-4 ° F)). The passat was moved without using a regenerative heater and without ether. Passat was unlikely to move with regular diesel under these conditions.
After 16093 km (10000 miles), the Passat intake manifold was removed and soot accumulation was measured. Not only did it accumulate, but soot residues that were not easily removed began to be cleaned cleanly. The Alt-diesel formulation not only worked clean, but also cleaned out the old residues of the engine.

The alt-diesel fuel is then used in an unmodified 1986 Volvo Diesel, unmodified 1980 Mercedes 300SD to confirm that the formulation works on various vehicles without modification. , Unmodified 2005 Jeep Liberty Diesel and Mercedes E300 diesel. The Alt-diesel fuel worked successfully on all these vehicles without any improvement.
2005 Jeep Liberty Diesel has one of the most sophisticated diesel management systems for diesel vehicles traveling in North America, and therefore, for the use of the Alt-diesel formulation in this application. Provide good test cases. Jeep was purchased in North Carolina and then drove to New York. The seller noted that the jeep may not run well with the dirty diesel fuel sold in the northeast. The jeep was operated with southern standard diesel fuel to New York, followed by the alto-diesel blend. The jeep ran quieter with the alto-diesel blend. Next, after putting a New York standard diesel into a jeep and starting to move, the check engine light turned on. The conclusion is that Jeep rejected New York standard diesel fuel, but ran alto-diesel formulation without any problems.

Finally, the Alt-diesel formulation was used as a home heating oil. Old oil baked in a hot air oven was used for testing. The same filtration process as described above for the car was used, but the Alt-diesel formulation was modified. Since the oil burner had an ignition system, gasoline was removed from the mixture. The fuel burned completely without changing the nozzle size.
Therefore, the aspect of the Alt-diesel blend for a car is as follows.
Used vegetable oil or used peanut oil 38L (10 gallons)
Kerosene 4L (1 gal)
Regular gasoline 1.9L (1/2 gallon)
STA-BIL Fuel Stabilizer 43g (1.5oz)
Diesel Klean with cetane boost or 198g diesel fuel supplement with cetane boost (7oz)
The same formulation, whether containing regular gasoline, can be used as home heating oil. The fuel formulation was then tested for compliance with ASTM standards for # 2 diesel and biodiesel. The results of these tests are shown in Table 1.

  Ethanol-containing alto-diesel blend with 38 L (10 gal) spent vegetable oil, 4 L (1 gal) denatured ethanol, 1.9 L (1/2 gal) kerosene, 198 g Diesel Klean (7 oz) and 43 g toluene Prepared by mixing (1.5 ounces).

  An Alt-diesel formulation was prepared by mixing 500 ml vegetable oil, 500 ml kerosene, 5 ml Diesel Kleen and 3 ml cetane boost additive. The fuel formulation was then tested for compliance with ASTM standards for # 2 diesel and biodiesel. The results of these tests are shown in Table 1. Preferably, the Alt-diesel formulation is a choice that meets or exceeds one or more of these standards. As shown in Table 1, this formulation met or exceeded the requirements for # 2 diesel and biodiesel.

  An Alt-diesel formulation was prepared by mixing 500 ml vegetable oil, 250 ml kerosene, 250 ml turpentine, 5 ml Diesel Kleen and 10 ml cetane boost additive. The fuel formulation was then tested for compliance with ASTM standards for # 2 diesel and biodiesel. The results of these tests are shown in Table 2.

  Alto-diesel blends for cars are used vegetable oil or used peanut oil 38L (10 gal), # 2 diesel 4L (1 gal), regular gasoline 1.9L (1/2 gal), STA-BIL 43 g (1.5 oz) fuel stabilizer, Diesel Klean with cetane boost or 198 g (7 oz) diesel fuel adjunct with cetane boost. The same formulation, whether containing regular gasoline, can be used as home heating oil.

  Another ethanol-containing alto-diesel blend was used with 38 L (10 gallons) of used vegetable oil, 4 liters of denatured ethanol (1.9 gallons), 1.9 L (1/2 gallons) of # 2 diesel, 198 g Diesel Klean (7 oz) , And 43 g (1.5 oz) of toluene. This formulation can be used as an automobile fuel.

  An Alt-diesel formulation is prepared by mixing 500 ml vegetable oil, 500 ml # 2 diesel, 5 ml Diesel Kleen and 3 ml cetane boost additive.

  Yet another Alt-diesel formulation is prepared by mixing 500 ml vegetable oil, 250 ml # 2 diesel, 5 ml Diesel Kleen and 10 ml cetane boost additive.

表１（つづき） Easily meet or exceed standards: ^***
Slightly meet / do not meet standards: ^**
Does not meet standards: ^*
An alternative test method was used: Alt.
Table 1

Table 1 (continued)

（１）＃１ＤＦ及び＃２ＤＦは、ＡＳＴＭ Ｄ９７５においてそれぞれグレードＮｏ．１−Ｄ及びグレードＮｏ．２−Ｄの定義に記載されるのと同じ用途での使用を企図される。
（２）ＡＳＴＭ試験Ｄ２６２２はＥＭＡによって推奨され、一方、試験Ｄ５４５３はカリフォルニア大気調査局（ＣＡＲＢ）によって使用される。
（３）ＥＭＡは、潤滑性レベルをＡＳＴＭ Ｄ６０７８、かじり荷重磨耗試験(Scuffing Load Wear Test)（ＳＢＯＣＬＥ）により測定することを推奨する。代わりに、潤滑性を高振動往復運動リグ(High Frequency Reciprocating Rig)（ＨＦＲＲ）、ＡＳＴＭ Ｄ６０７９を使用して測定してもよい。この試験を使用することによる、６０℃における４５ｍｍの磨耗傷は、ＳＢＯＣＬＥでの３１００ｇという結果と同等である。
（４）ディーゼル燃料は、使用温度において、曇り点（Ｄ２５００）又は低温フロー試験（Ｄ４５３９）に合格しなければならない。低温フロー性能には小売燃料に対する燃料供給者の責任がある。それは局地気候次第で、冬の間毎月調整される。前もってエンジン製造業者によって特に推奨、又は燃料供給者と話し合われない限り、アフターマーケット燃料添加剤を使用している燃料のワックス性(waxing property)の改良は、低温操作性要件を満たすための選択肢として推奨されない。
（５）ＥＭＡは微生物増殖に関しての推奨を含まないが、微生物増殖が操作上の問題、ディーゼルエンジン燃料システム内での腐食及び堆積物の蓄積を引き起こし得ることに注意すべきである。燃料貯蔵タンク及び車両／装置燃料タンク内での微生物増殖は、流通ルート、保管技術及び時間と関連すると考えられ、燃料規格中で十分に扱われることができない。
（６）蒸留方法はバイオディーゼル及びハイブリッドバイオディーゼル試験に対して企画されない。
表２

(1) # 1DF and # 2DF are grade Nos. In ASTM D975. 1-D and grade no. Contemplated for use in the same applications described in the 2-D definition.
(2) ASTM test D2622 is recommended by EMA, while test D5453 is used by the California Atmospheric Research Bureau (CARB).
(3) EMA recommends that the lubricity level be measured by ASTM D6078, Scuffing Load Wear Test (SBOCLE). Alternatively, lubricity may be measured using a High Frequency Reciprocating Rig (HFRR), ASTM D6079. Using this test, a 45 mm wear scar at 60 ° C. is equivalent to a 3100 g result with SBOCLE.
(4) Diesel fuel must pass the cloud point (D2500) or cold flow test (D4539) at the operating temperature. Cold flow performance is the responsibility of the fuel supplier for retail fuel. It depends on the local climate and is adjusted monthly during the winter. Unless specifically recommended by the engine manufacturer in advance or discussed with the fuel supplier, improving waxing properties of fuels using aftermarket fuel additives are an option to meet low temperature operability requirements. Not recommended.
(5) Although EMA does not include recommendations for microbial growth, it should be noted that microbial growth can cause operational problems, corrosion and deposit buildup in diesel engine fuel systems. Microbial growth in fuel storage tanks and vehicle / device fuel tanks is thought to be related to distribution routes, storage technology and time and cannot be adequately addressed in fuel standards.
(6) No distillation method is planned for biodiesel and hybrid biodiesel tests.
Table 2

実施例５配合物の試験結果

Example 5 Formulation Test Results

This application discloses several numerical ranges. The disclosed numerical ranges are intended to support ranges or values within the disclosed numerical ranges, although no exact range limitation is worded in the specification. This is because the present invention can be implemented over the entire disclosed numerical range. It should also be understood that all numerical values and numerical ranges set forth in this application are necessarily approximate. Also within these ranges, Alt-diesel blends are ASTM standards for a wide range of petroleum fuels in the diesel family including, but not limited to, number 1-5 standard diesel, home heating oil, and aviation jet fuel. It should be understood that it can be tailored to meet.
The above description is presented to enable one of ordinary skill in the art to make and use the invention and is provided in the context of a particular application and its requirements. Various modifications to the preferred embodiment will be readily apparent to those skilled in the art. The general principles defined herein may then be applied to other aspects and applications that do not depart from the spirit and scope of the present invention. Accordingly, the present invention is not intended to be limited to the embodiments shown, but is to be accorded the widest scope consistent with the principles and features disclosed herein.

Claims (37)

25 to 75 vol% vegetable oil from which glycerin has not been removed,
Petroleum diesel 25-75 vol%,
0.001-5% by volume of fuel stabilizer and 0.01-5% by volume of cetane boost additive
A fuel blend characterized by comprising:   The formulation of claim 1, wherein the cetane boost additive comprises octyl nitrate.   The formulation of claim 1, wherein the vegetable oil is a non-edible vegetable oil.   The formulation according to claim 1, wherein the vegetable oil consists of jatropha oil, algae oil, soybean oil or peanut oil.   The formulation of claim 1 further comprising 1-20% by volume of terpentine.   2. A fuel formulation according to claim 1 adapted for use as an automotive fuel.   The fuel formulation according to claim 1, further comprising 25-75% by volume of kerosene. 25 to 75 vol% vegetable oil from which glycerin has not been removed,
1-50% by volume of petroleum diesel,
1 to 50% by volume of turpentine,
0.001-5% by volume of fuel stabilizer and 0.01-5% by volume of cetane boost additive
A fuel blend characterized by comprising:   The formulation of claim 8, wherein the cetane boost additive comprises octyl nitrate.   9. A formulation according to claim 8, wherein the vegetable oil is a non-edible vegetable oil.   9. A formulation according to claim 8, wherein the vegetable oil consists of jatropha oil, algae oil, soybean oil or peanut oil.   9. The fuel formulation according to claim 8, adapted for use as an automobile fuel.   The fuel formulation according to claim 8, further comprising 1 to 50% by volume of kerosene. 70-98% by volume of vegetable oil,
Petroleum diesel 1-20% by volume and regular gasoline 1-20% by volume
A fuel blend characterized by comprising:   15. A formulation according to claim 14, wherein glycerin has not been removed from the vegetable oil.   15. The formulation of claim 14, further comprising 0.01 to 5% by volume cetane boost additive.   The formulation of claim 16, wherein the cetane boost additive comprises octyl nitrate.   The formulation according to claim 14, further comprising 0.001 to 5% by volume of a fuel stabilizer.   15. A formulation according to claim 14, wherein the vegetable oil is a non-edible vegetable oil.   15. A formulation according to claim 14, wherein the vegetable oil consists of jatropha oil, algae oil, soybean oil or peanut oil.   The formulation of claim 14, further comprising 1-20% by volume of terpentine.   15. A fuel formulation according to claim 14 adapted for use as an automobile fuel.   The fuel formulation according to claim 14, further comprising 1-20% by volume of kerosene. 70-98% by volume of vegetable oil,
1-40% by volume of ethanol,
Petroleum diesel 1-20% by volume and surfactant 0.01-40% by volume
A fuel blend characterized by comprising:   25. The formulation of claim 24, wherein glycerin has not been removed from the vegetable oil.   25. The formulation of claim 24, further comprising 0.01-5% by volume cetane boost additive.   27. The formulation of claim 26, wherein the cetane boost additive comprises octyl nitrate.   25. The formulation of claim 24, further comprising 0.001-5% by volume of a fuel stabilizer.   25. A formulation according to claim 24, wherein the surfactant comprises toluene.   25. The formulation of claim 24, wherein the vegetable oil is a non-edible vegetable oil.   25. A formulation according to claim 24, wherein the vegetable oil consists of jatropha oil, algae oil, soybean oil or peanut oil.   25. The formulation of claim 24, further comprising 1-20% by volume terpentine.   25. The fuel formulation according to claim 24, adapted for use as an automobile fuel.   A method of producing a fuel blend comprising mixing together 70-98 vol% vegetable oil from which glycerin has not been removed, 1-20 vol% petroleum diesel, and 1-20 vol% regular gasoline.   Fuel formulation comprising mixing together 70-98 vol% vegetable oil from which glycerin has not been removed, 1-40 vol% ethanol, 1-20 vol% petroleum diesel, and 0.01-40 vol% surfactant. How to produce things.   25 to 75 vol% vegetable oil from which glycerin has not been removed, 1 to 50 vol% petroleum diesel, 1 to 50 vol% turpentine, 0.001 to 5 vol% fuel stabilizer, and 0.01 to 5 cetane boost additive A method of producing a fuel formulation comprising mixing volume percent together.   Mixing together 25-75 vol% vegetable oil from which glycerin has not been removed, 25-75 vol% petroleum diesel, 0.001-5 vol% fuel stabilizer, and 0.01-5 vol% cetane boost additive. A method for producing a fuel formulation comprising: