Chemical apparatus and process disinfecting – deodorizing – preser – Chemical reactor – With means applying electromagnetic wave energy or...
Reexamination Certificate
1999-03-18
2001-01-16
Beck, Shrive (Department: 1764)
Chemical apparatus and process disinfecting, deodorizing, preser
Chemical reactor
With means applying electromagnetic wave energy or...
C422S186220
Reexamination Certificate
active
06174501
ABSTRACT:
TECHNICAL FIELD
The present invention is related to oxygenated fuels, and more particularly to an oxygenated biodiesel fuel with a cloud-point below 32 degrees Fahrenheit, and systems and processes for producing said oxygenated biodiesel fuel with a cloud-point below 32 degrees Fahrenheit, said oxygenated biodiesel fuel consisting of a mixture of transesterified triglycerides and a cloud-point reducing amount of etherified glycerol, which crude glycerol is produced as a by-product of a triglyceride transesterification process.
BACKGROUND
Since the introduction of biodiesel fuel in South Africa prior to World War II, work has proceeded to increase its viability as a fuel substitute. In more recent years, environmental and economic pressures, (eg. events such as Oil Embargoes, and laws such as the Clean Air Act of 1990), have provided impetus for continued development. Goals include production of biodiesel with cleaner burning properties and improved cold-temperature flow characteristics, however, most effort to date has been focused on waste minimization, by-product separation technology, and/or by-product utilization. The reason for this is best demonstrated by noting that production of Biodiesel fuel by a methyl-esterification process as applied to soy oil, produces an effluent stream with twenty (20%) percent crude glycerol content, which crude glycerol content must typically be disposed of. In view thereof, it can be readily appreciated that a method which would reduce disposal requirements while improving biodiesel fuel burning and cold-temperature flow properties, would be of value.
It is noted that Biodiesel fuel has been reported by Clark et al., in an article titled “Methyl and Ethyl Soybean Esters As Renewable Fuels For Diesel Engines”, JAOCS, Vol. 61, No. Oct. 10, 1984, to produce NO
x
emissions higher than produced by petroleum based Diesel fuel. Additional related discussion is found in an article titled “Diesel Fuel Derived From Vegetable Oils, III. Emission Tests Using Methyl Esters Of Used Frying Oil”, by Mittelbach et al., JAOCS, Vol. 65, No. Jul. 7, 1988.
It is also noted that the use of biodiesel fuel, (i.e. conventionally methyl esters of triglycerides), is limited in practice as it demonstrates a “Cloud Point” of near zero (0.0) degrees centigrade, (i.e. thirty-two (32) degrees Fahrenheit), while the Cloud point of Diesel #2 is near negative sixteen (−16) degrees centigrade. A similar disparity exists with respect to the “Pour Point”, which for Biodiesel fuels is near negative two (−2) degrees centigrade, while that for Diesel fuel is near negative twenty-seven (−27) degrees centigrade. This is discussed in an article titled “Low-Temperature Properties Of Triglyceride-Based Diesel Fuels: Transesterified Methyl Esters and Petroleum Middle Distillate/Ester Blends”, by Dunn et al, JAOCS, Vol. 72, No. 8, 1995. These adverse cold temperature flow properties of Biodiesel fuel as compared to Diesel fuel, with accompanying reduced viscosity and low temperature flow lead to problems such as truck fuel filter plugging below thirty-two (32) degrees Fahrenheit. The use of Biodiesel fuels can not become widespread unless this problem is overcome. Suggested solutions include Methyl Ester “winterization”, which is discussed in an article titled “Reducing The Crystallization Temperature Of Biodiesel By Winterizing Methyl Soyate”, by Lee et al., JAOCS, Vol. 73, No. 5, 1996; and application of biotechnology to produce biodiesel with improved specifications, as discussed in an article titled “Vegetable Oils: From Table To Gas Tank”, by Chowdhury et al., Chem. Eng. February 1993. Such avenues of investigation might prove successful but as yet are of questionable industrial value.
As mentioned, transesterification of soy oil to form Biodiesel produces approximately twenty (20%) crude glycerol as a by-product, and while uses for crude glycerol have been pursued, mostly in Europe, costly purification steps must typically be performed to produce even a low grade product of questionable value. Uses for said low grade product include mixing with animal manure to form a fertilizer, and mixing with feed for animals. This is discussed in an article titled “A Low Waste Process For The Production Of Biodiesel”, Ahn et al., Sep. Sci. & Tech., 30(7-9) 1995. Research has shown that potential exists for use of bacteriologically transformed crude glycerol to form products useful in plastics production, (“Vegetable Oils: From Table To Gas Tank”, by Chowdhury et al., Chem. Eng. February 1993). The most promising and economically viable use for crude glycerol might be, however, conversion into mono and di-fatty acid esters of crude glycerol. This is discussed in an article titled “Technical Uses Of Fatty Acid Esters”, by Meffert, JAOCS, Vol. 61, No. 2, February 1984. This alternative might prove to be most beneficial in the economics of Biodiesel fuel production. To understand why this is the case, it must be understood that crude glycerol produced as a by-product in production of Biodiesel fuel via transesterification of triglycerides is inherently insoluble in the Biodiesel Fuel.
Another article which describes transesterification is titled “Transesterification Kinetics Of Soybean Oil”, Friedman et al., JAOCS, Vol. 63, No. 10, (October 1986).
Papers authored by the Inventor, which are predated by the filing date of the parent Application hereto, are “Production Of Ethers Of Glycerol From Crude Glycerol—The Byproduct Of Biodiesel Production”, Noureddini et al., Advances in Environmental Research, 2 (2), (1998); and “A Continuous Process For The Conversion Of Vegetable Oils Into Methyl Esters Of Fatty Acids”, Noureddini et al., JAOCS, Vol. 75, No. 1, (1998). Said papers are incorporated herewithin by reference.
As the present invention can be practiced utilizing any alcohol in the fatty acid esterification process, (including renewable source ethanol), two additional papers are cited herein. The first is “Ethanol”, Wyman, App. Biochem. & Biotech., Vol 24/25, (1990), and the second is “Ethanol Production From Agricultural Biomass Substrates”, Bothast et al., Advances in Applied Microbiology, Vol. 44, (1997).
Also disclosed is a handbook titled “Biomass Handbook”, Kitani & Hall, published by Gordon and Breach, (1989).
Patents of which the inventor is aware are:
U.S. Pat. No. 5,308,365 to Kesling Jr. et al.;
U.S. Pat. No. 5,578,090 to Bradin;
U.S. Pat. No. 5,520,708 to Johnson et al.;
U.S. Pat. No. 5,476,971 to Gupta;
U.S. Pat. No. 5,413,634 to Shawl et al.;
U.S. Pat. No. 5,160,506 to Schur et al.;
U.S. Pat. No. 3,168,385 to Giammaria et al.; and
U.S. Pat. No. 5,145,563 to Culbreth III et al.
The 708 Patent to Johnson et al. describes reaction of triglycerides with methanol in the presence of base to produce fatty acid methyl esters, and then describes a specific treatment to reduce “Cloud-Point”. However, no mention of the use of ethers of glycerol as an agent to reduce “Cloud-Point” is found therein. The 971 Patent to Gupta describes reacting pure glycerol with isobutylene in the presence of an acid catalyst in a two phase reaction to produce mono-, di- and tri-tertiary butyl ethers of glycerol. The 090 Patent to Bradin describes to reduce fatty acid methyl ester content, and the 365 Patent to Kesling describes the use of Glycerol ethers mixed with Biodiesel fuels to improve emissions content, although no indication of improved Cloud-point or viscosity properties were noted. Said 365 Patent describes reduction of particulate, hydrocarbon, carbon monoxide and unregulated aldehyde content in tests on diesel fuel in which ethers of glycerol were present. The use of ethers of glycerol as extractive distillation agent is described in the 563 Patent to Culbreth III et al., and the 634 Patent to Shawl et al. describes use of ethers of glycerol as an additive to enhance physical properties of cement. The 506 Patent to Schur et al. describes a fuel for use in two stroke engines and comprises oils or ester oils. The 385 Patent to Giammaria et al. describes an anti-knock “appreciator
Beck Shrive
Doroshenk Alexa A.
The Board of Regents of the University of Nebraska
Welch James D.
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