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WAX COMPOSITIONS FOR USE IN CANDLES AND METHODS OF PREPARING WAX COMPOSITIONS

20230027101 · 2023-01-26

    Inventors

    Cpc classification

    International classification

    Abstract

    A wax composition is disclosed, comprising at least 70% triacylglycerols, wherein the triacylglycerols comprise 0.5 to 50 wt. % of C22 fatty acid. A method of preparing a wax composition is disclosed. A candle comprising the wax composition and a method of preparing a candle are also disclosed.

    Claims

    1-22. (canceled)

    23. A wax composition, comprising at least 70 wt. % triacylglycerols based on the total weight of the composition, wherein the triacylglycerols comprise 0.5 to 50 wt. % of C22 fatty acid based on the total weight of the triacylglycerols.

    24. The wax composition according to claim 23, wherein the triacylglycerols comprise 0.5 to 100 wt. % of partially hydrogenated high erucic rapeseed oil.

    25. The wax composition according to claim 24, wherein the wax composition comprises at least 90 wt. % of triacylglycerols based on the total weight of the composition, and wherein the triacylglycerols comprise 0.5 to 49 wt. % of partially hydrogenated high erucic rapeseed oil and 0.5 to 26 wt. % of C22 fatty acid based on the total weight of the triacylglycerols.

    26. The wax composition according to claim 23, wherein the triacylglycerols comprise up to 20 wt. % of C22:0 fatty acid and 0.5 to 25 wt. %. of C22:1 fatty acid.

    27. The wax composition according to claim 23, wherein the triacylglycerols comprise 2 to 29 wt. % of partially hydrogenated high erucic rapeseed oil and 1 to 15 wt. % of C22 fatty acid.

    28. The wax composition according to claim 23, wherein the triacylglycerols comprise up to 8 wt. % of C22:0 fatty acid and 1 to 15 wt. %. of C22:1 fatty acid.

    29. The wax composition according to claim 23, wherein the wax composition has a melting point of 35° C. to 52° C.

    30. The wax composition according to claim 24, wherein the partially hydrogenated high erucic rapeseed oil has an iodine value of 6 to 75.

    31. The wax composition according to claim 23, further comprising at least a one oil selected from the group consisting of soybean oil, palm oil, coconut oil, and rapeseed oil.

    32. The wax composition according to claim 31, wherein said oils are subsequently partially hydrogenated after blending.

    33. The wax composition according to claim 23, wherein the wax composition further comprises at least one polyol-based material, selected from the group consisting of a sorbitan tristearate, monoacylglycerol, sorbitan monostearate, polyglycerol stearate, propyleneglycol stearate and polyglycerol polyricinolates or combinations thereof.

    34. The wax composition according to claim 23, wherein the wax composition further comprises a paraffin.

    35. The wax composition according to claim 24 wherein the partially hydrogenated high erucic rapeseed oil is blended to a fully hydrogenated high erucic rapeseed oil to a final concentration of 1-100 wt. %.

    36. The wax composition according to claim 23, wherein the triacylglycerols comprise an interesterified triacylglycerol.

    37. A method of preparing a wax composition comprising the steps of: a) providing a triacylglycerol comprising 0.5 to 50 wt. % of C22 fatty acid; b) mixing the triacylglycerol with at least one oil, selected from the group consisting of soybean oil, palm oil, coconut oil and rapeseed oil; and c) obtaining the wax composition.

    38. The method according to claim 37, wherein the triacylglycerol comprising 0.5 to 50 wt. % of C22 fatty acid is obtained from a high erucic rapeseed oil.

    39. The method according to claim 37, wherein at least one of the oils is a partially hydrogenated oil.

    40. The method according to claim 37, further comprising a step of interesterification of triacylglycerols.

    41. The method according to claim 37, further comprising adding at least one polyol-based material, selected from the group consisting of sorbitan tristearate, monoacylglycerol, sorbitan monostearate, polyglycerol stearate, propyleneglycol stearate and polyglycerol polyricinolates or combinations thereof.

    42. The method according to claim 37, further comprising a step of mixing paraffin to the wax composition.

    43. A candle comprising a wax composition according to claim 23.

    44. The candle according to claim 43, prepared by a method of preparing a wax composition comprising the steps of: a) providing a triacylglycerol comprising 0.5 to 50 wt. % of C22 fatty acid; b) mixing the triacylglycerol with at least one oil, selected from the group consisting of soybean oil, palm oil, coconut oil and rapeseed oil; and c) obtaining the wax composition.

    Description

    DETAILED DESCRIPTION

    [0011] One object of the invention is to provide a candle with reduced or absent frosting effect, i.e., ensuring a nice appearance even when used. Another object of the invention is to provide a wax composition that produces a candle with good burn rate. The composition disclosed in the application can be regarded as safer since a lower temperature is needed during the manufacture of candles. Moreover, the composition can be regarded as having a good energy saving rate during manufacturing of candles. Another object of the invention is that the disclosed wax composition can be combined with cheaper waxes, therefore generating an improved or more stable and low-cost candle.

    [0012] Thus, the invention relates to providing a wax composition comprising at least 70 wt. % of triacylglycerols (based on the total weight of the composition), wherein the triacylglycerols comprise 0.5 to 50 wt. % of C22 fatty acid (based on the total weight of the triacylglycerols). In one embodiment the invention relates to providing a wax composition comprising at least 70 wt. % of triacylglycerol and below 5% of monoacylglycerols (based on the total weight of the composition), wherein the triacylglycerols comprise 0.5 to 50 wt. % of C22 fatty acid (based on the total weight of the triacylglycerols). The triacylglycerols may be obtained from partly hydrogenated oils, fully hydrogenated oils or non-hydrogenated oils. The triacylglycerols may be obtained from a combination of partly hydrogenated oils, fully hydrogenated oils or non-hydrogenated oils. The wax composition may comprise a triacylglycerol comprising 0.5 to 100 wt. % of partially hydrogenated high erucic rapeseed oil. The wax composition may comprise a triacylglycerol comprising 0.5 to 100 wt. % of fully hydrogenated or non-hydrogenated high erucic rapeseed oil.

    [0013] Fully hydrogenated oil refers to an oil which has been hydrogenated to an Iodine Value of no more than about 4. Partially hydrogenated oil refers to an oil which has been partially hydrogenated to an iodine value of 4-75.

    [0014] In addition to varieties of rape seed oil, palm oil, soy bean oil and palm oil, also other oils such as sunflower, corn oil, cottonseed oil, rhea butter, cocoa butter, sal butter, mango butter, olive oil, safflower oil, palm kernel oil and other vegetable oils are suitable as part of a wax composition.

    [0015] The vegetable oil used in the wax composition is typically refined, bleached and/or deodorized. The vegetable oil may be subjected to refining, fractioning and/or hydrogenation prior to use.

    [0016] In one exemplary embodiment, the wax composition comprises at least 90 wt. % of triacylglycerols (based on the total weight of the composition), wherein the triacylglycerols comprises 0.5 to 49 wt. % of partially hydrogenated high erucic rapeseed oil and 0.5 to 26 wt. % of C22 fatty acid (based on the total weight of the triacylglycerols). In another embodiment, the triacylglycerols comprise up to 20 wt. % of C22:0 fatty acid and 0.5 to 25% wt. of C22:1 fatty acid.

    [0017] By using the nomenclature CX means that the fatty acid comprises X carbon atoms, e.g. a C22 fatty acid has 22 carbon atoms while a C8 fatty acid has 8 carbon atoms.

    [0018] By using the nomenclature CX:Y means that the fatty acid comprises X carbon atoms and Y double bonds, e.g. a C22:0 fatty acid has 22 carbon atoms and 0 double bonds while a C22:1 fatty acid has 22 carbon atoms and 1 double bond.

    [0019] The C22:0 fatty acids are saturated fatty acids having 22 carbons with formula C.sub.21H.sub.43COOH. C22:0 fatty acids can be called behenic acid or docosanoic acid.

    [0020] The C22:1 fatty acids are unsaturated fatty acids having 22 carbons and formula CH.sub.3(CH.sub.2).sub.7CH═CH(CH.sub.2).sub.11COOH. C22:1 fatty acids can be called erucic acid.

    [0021] In another exemplary embodiment, the wax composition may comprise triacylglycerols comprising 2 to 29 wt. % of partially hydrogenated high erucic rapeseed oil and 1 to 15 wt. % of C22 fatty acid. In yet another exemplary embodiment, the wax composition may comprise triacylglycerols comprising up to 8 wt. % of C22:0 fatty acid and 1 to 15% wt. of C22:1 fatty acid, preferably up to 8 wt. % of C22:0 fatty acid and 2.5 to 15 wt. % of C22:1 fatty acid.

    [0022] In yet another exemplary embodiment, the wax composition may comprise triacylglycerols comprising up to 10 wt. % of C22:0 fatty acid and 0.5 to 34% wt. of C22:1 fatty acid, preferably up to 10 wt. % of C22:0 fatty acid and 1.1 to 34 wt. % of C22:1 fatty acid, preferably up to 10 wt. % of C22:0 fatty acid and 2 to 34 wt. % of C22:1 fatty acid, preferably up to 10 wt. % of C22:0 fatty acid and 4 to 34 wt. % of C22:1 fatty acid, preferably up to 10 wt. % of C22:0 fatty acid and 5 to 34 wt. % of C22:1 fatty acid, preferably up to 10 wt. % of C22:0 fatty acid and 16 to 34 wt. % of C22:1 fatty acid.

    [0023] In yet another exemplary embodiment, the wax composition may comprise triacylglycerols comprising up to 10 wt. % of C22:0 fatty acid and 0.5 to 34% wt. of C22:1 fatty acid, preferably up to 5 wt. % of C22:0 fatty acid and 0.5 to 5 wt. % of C22:1 fatty acid, preferably up to 5 wt. % of C22:0 fatty acid and 2 to 20 wt. % of C22:1 fatty acid.

    [0024] From the Examples it is clear that a minimum of 0.5 wt. % C22:1 is beneficial for the overall appearance and efficacy of burning of said candles. Thus, in a preferred embodiment at least 0.5 wt. % of the C22 is in the form of C22:1.

    [0025] In some embodiments, the wax composition has a melting point of 35° C. to 52° C. It is known in the art that the melting point of a wax composition may depend on the amount of saturated and unsaturated fatty acids. Typically, an increasing concentration of saturated fatty acids is followed by an increase in the melting point of the wax composition. On the other hand, an increase in the unsaturated fatty acid concentration may lead to a decrease in the melting point of the wax composition.

    [0026] In another exemplary embodiment, the partially hydrogenated high erucic rapeseed oil has an iodine value of 6 to 75. Measuring the iodine value of a wax composition is known in the art. The iodine value is a measure of the unsaturation of the fatty acids present in a triacylglycerol. The higher the level of unsaturation, the higher the iodine value.

    [0027] In one exemplary embodiment, the wax composition may comprise a second oil, preferably soybean oil, palm oil, coconut oil or rapeseed oil. The oils may be subsequently partially hydrogenated after blending. In another embodiment, at least one of the oils may be partially hydrogenated before blending.

    [0028] One advantage of the disclosed invention is to provide a wax composition that may be blended with a second oil. The wax composition may be blended with a cheaper oil, therefore improving the composition by, for instance, increasing the stabilization of the wax composition, and generating a cheaper wax composition or candle. The wax composition can be blended with another oil in a concentration ranging from 10 to 100 wt. %, preferably 10 to 15 wt. %. The wax composition may be partially or fully hydrogenated before blending with a second oil. The wax composition may be partially or fully hydrogenated after blending with a second oil. A partially hydrogenated high erucic rape seed oil can be used alone or in a blend to make the wax composition.

    [0029] The wax composition may further comprise at least one polyol-based material, preferably sorbitan tristearate, sorbitan monostearate, monoacylglycerol, polyglycerol stearate, propyleneglycol stearate or polyglycerol polyricinolates and combinations thereof. The skilled person knows that any combination of those polyol-based materials and their variants can be used in the wax composition. The wax composition may also further comprise paraffin.

    [0030] The wax composition may comprise a partially hydrogenated high erucic rapeseed oil blended with a fully hydrogenated high erucic rapeseed oil to a final concentration of 1-100 wt. %.

    [0031] In some embodiments, the wax composition may comprise triacylglycerols comprising an interesterified triacylglycerol. Triacylglycerols can be subjected to a process of interesterification, which can be defined as a rearrangement of the fatty acids in an oil. The interesterification process can be enzymatically or chemically driven.

    [0032] Another embodiment of the invention is to provide a method of preparing a wax composition comprising the steps of: [0033] a. providing a triacylglycerol comprising 0.5 to 50 wt. % of C22 fatty acid; [0034] b. mixing the triacylglycerol with at least one oil, preferably soybean oil, palm oil, coconut oil or rapeseed oil; and [0035] c. obtaining the wax composition.

    [0036] In addition to varieties of rape seed oil, palm oil, soy bean oil and palm oil, also other oils such as sunflower, corn oil, cottonseed oil, rhea butter, cocoa butter, sal butter, mango butter, olive oil, safflower oil, palm kernel oil and other vegetable oils are suitable as part of a method of preparing a wax composition.

    [0037] A triacylglycerol provided in this method may comprise 0.5 to 26 wt. % of C22 fatty acid, preferably 1 to 26 wt. %, even more preferably 2 to 20 wt. %.

    [0038] Surprisingly, it was found that the obtained wax composition can be handled at safer temperatures, with less or no risk of severe burning during the manufacture of candles. The wax composition showed reduced or absent frosting effects, ensuring a nice appearance for the customer—even when used—and with good burn rate.

    [0039] One advantage of the invention is to provide a wax composition that generates a candle with less or no cracks, i.e., the candle is less prone to break during the manufacturing process or after extinguishing the flame from the candle.

    [0040] Another advantage of the invention is to provide a wax composition that generates a candle with good burn rate. The burn rate can be defined as the amount of candle substrate consumed per hour when the candle is in use. For instance, the burn rate can be measured by grams/hour.

    [0041] Another advantage of the invention is to provide a wax composition that generates a candle having a good height of the flame. It is known by the skilled person in the art that the higher the height of the flame, the more volume is illuminated. It is desirable to have a candle having a good ratio of average flame height per consumed material per time (mm/g/h). A ratio of at least 5 mm/g/h can be regarded as a good ratio.

    [0042] Yet another advantage of the invention is to provide a wax composition that generates a candle with a smooth surface. The smooth surface is related to the visual aspect of the surface of the candle, where a smooth shiny surface is preferred.

    [0043] Another exemplary embodiment of the method of preparing a wax composition comprises obtaining 0.5 to 50 wt. % of C22 fatty acid from a high erucic rapeseed oil. In another embodiment, at least one of the oils may be a partially hydrogenated oil. The method of preparing a wax composition may further comprise a step of interesterification of triacylglycerols.

    [0044] The method of preparing a wax composition may further comprise adding at least one polyol-based material to the wax composition, preferably sorbitan tristearate, monoacylglycerol sorbitan monostearate, polyglycerol stearate, propyleneglycol stearate or polyglycerol polyricinolates and combinations thereof. In another embodiment, the method may further comprise mixing paraffin to the wax composition.

    [0045] Another exemplary embodiment of the invention is to provide a candle comprising a wax composition according to previous embodiments. The candle may be prepared according to method of preparing a wax composition from previous embodiments.

    [0046] Surprisingly, it was found that the candle according to the disclosed embodiments may have a reduced or absent frosting effect, i.e., the candle keeps a nice appearance even when used. Another advantage of the invention is to provide a candle with good burn rate. The candle disclosed in the application can be regarded as safer since a lower temperature is needed during manufacture of candles. Moreover, the method of preparing a wax composition can be regarded as having a good energy saving rate due to the lower temperature needed. Another advantage of the invention is that the disclosed candle can be produced by combining the disclosed wax composition with cheaper waxes, therefore generating an improved or more stable and low-cost candle.

    THE INVENTION IS FURTHER DESCRIBED IN FOLLOWING NON-LIMITING ITEMS

    [0047] Item 1: A wax composition, comprising at least 70 wt. % triacylglycerols based on the total weight of the composition, wherein the triacylglycerols comprise 0.5 to 50 wt. % of C22 fatty acid based on the total weight of the triacylglycerols.

    [0048] Item 2: The wax composition according to item 1, wherein the triacylglycerols comprise 0.5 to 100 wt. % of partially hydrogenated high erucic rapeseed oil.

    [0049] Item 3: The wax composition according to item 2, wherein the wax comprises at least 90 wt % of triacylglycerols based on the total weight of the composition, and wherein the triacylglycerols comprise 0.5 to 49 wt. % of partially hydrogenated high erucic rapeseed oil and 0.5 to 26 wt. % of C22 fatty acid based on the total weight of the triacylglycerols.

    [0050] Item 4: The wax composition according to any one of items 1-3, wherein the triacylglycerols comprise up to 20 wt. % of C22:0 fatty acid and 0.5 to 25 wt. %. of C22:1 fatty acid.

    [0051] Item 5: The wax composition according to any one of items 1-4, wherein the triacylglycerols comprise 2 to 29 wt. % of partially hydrogenated high erucic rapeseed oil and 1 to 15 wt. % of C22 fatty acid.

    [0052] Item 6: The wax composition according to any one of items 1-5, wherein the triacylglycerols comprise up to 8 wt. % of C22:0 fatty acid and 1 to 15 wt. %. of C22:1 fatty acid, preferably up to 8 wt. % of C22:0 fatty acid and 2.5 to 15 wt. % of C22:1 fatty acid.

    [0053] Item 7: The wax composition according to any one of items 1-6, wherein the wax composition comprises at least 70 wt. % of triacylglycerol and below 5% of monoacylglycerols based on the total weight of the composition, wherein the triacylglycerols comprise 0.5 to 50 wt. % of C22 fatty acid based on the total weight of the triglycerides.

    [0054] Item 8: The wax composition according to any one of items 1-7, wherein at least 0.5 wt. % of the C22 is in the form of C22:1.

    [0055] Item 98: The wax composition according to any one of items 1-8, wherein the wax has a melting point of 35° C. to 52° C.

    [0056] Item 10: The wax composition according to any one of items 2-9, wherein the partially hydrogenated high erucic rapeseed oil has an iodine value of 6 to 75.

    [0057] Item 11: The wax composition according to any one items 1-10, further comprising at least a second oil, preferably soybean oil, palm oil, coconut oil or rapeseed oil.

    [0058] Item 12: The wax composition according to item 11, wherein said oils are subsequently partially hydrogenated after blending.

    [0059] Item 13: The wax composition according to any one of items 1-112, wherein the wax further comprises at least one polyol-based material, preferably a sorbitan tristearate, monoacylglycerol, sorbitan monostearate, polyglycerol stearate, propyleneglycol stearate or polyglycerol polyricinolates and combinations thereof.

    [0060] Item 14: The wax composition according to any one of items 1-13, wherein the wax further comprises a paraffin.

    [0061] Item 15: The wax composition according to any of items 2-14, wherein the partially hydrogenated high erucic rapeseed oil is blended to a fully hydrogenated high erucic rapeseed oil to a final concentration of 1-100 wt. %.

    [0062] Item 16: The wax composition according to any of items 1-15, wherein the triacylglycerols comprise an interesterified triacylglycerol.

    [0063] Item 17: A method of preparing a wax composition comprising the steps of: [0064] a. providing a triacylglycerol comprising 0.5 to 50 wt. % of C22 fatty acid; [0065] b. mixing the triacylglycerol with at least one oil, preferably soybean oil, palm oil, coconut oil or rapeseed oil; and [0066] c. obtaining the wax composition.

    [0067] Item 18: The method according to item 17, wherein the triacylglycerol comprising 0.5 to 50 wt. % of C22 fatty acid is obtained from a high erucic rapeseed oil.

    [0068] Item 19: The method according to items 17 or 18, wherein at least one of the oils is a partially hydrogenated oil.

    [0069] Item 20: The method according to any one of items 17-19, further comprising a step of interesterification of triacylglycerols.

    [0070] Item 21: The method according to any of items 17-20, further comprising adding at least one polyol-based material, preferably sorbitan tristearate, monoacylglycerol, sorbitan monostearate, polyglycerol stearate, propyleneglycol stearate or polyglycerol polyricinolates and combinations thereof.

    [0071] Item 22: The method according to any of items 17-21, further comprising a step of mixing paraffin to the wax composition.

    [0072] Item 23: A candle comprising a wax composition according to any one of items 1 to 16.

    [0073] Item 24: The candle according to claim 23, prepared by a method according to any one of items 17 to 22.

    EXAMPLES

    [0074] The iodine value in the below examples was calculated based on fatty acid composition according to AOCS Cd 1c-85.

    [0075] The fatty acid composition in the below examples was analyzed according to IUPAC 2.304.

    [0076] Raw Material:

    [0077] One example of a high erucic rapeseed oil composition can be found on Table 1:

    TABLE-US-00001 TABLE 1 Iodine Value 100 Fatty acid composition C16:0 4% C18:0 1% C18:1 14%  C18:2 13%  C18:3 9% C20:1 9% C22:0 <0.5% .sup.   C22:1 48%  Other 2%

    Example 1: (E1)

    [0078] 1150 grams of a palm oil and 3850 grams of a low erucic rape seed oil was blended and partially hydrogenated, then bleached and deodorized. The composition was characterised as set in Table 2. The triacylglycerol level was above 99%.

    TABLE-US-00002 TABLE 2 Melting point ° C. 66 Iodine Value 11 Fatty acid composition C16:0 17%  C18:0 68%  C18:1 9% C18:2 2% C22:0 1% C22:1 <0.5% .sup.   Other 4%

    Example 2: (E2)

    [0079] 1 kg of bleached and deodorized wax composition of a palm oil fraction with the characterization as set in Table 3. The triacylglycerol level was above 99%.

    TABLE-US-00003 TABLE 3 Melting point ° C. 55 Iodine Value 31 Fatty acid composition C16:0 57%  C18:0 5% C18:1 29%  C18:2 6% C22:0 <0.5% .sup.   C22:1 <0.5% .sup.   Other 3%

    Example 3: (E3)

    [0080] 5 kg of wax composition of a partially hydrogenated, fractionated, bleached and deodorized palm oil with the characterization as set in Table 4. The triacylglycerol level was above 99%.

    TABLE-US-00004 TABLE 4 Melting point ° C. 42 Iodine Value 41 Fatty acid composition C16:0 50%  C18:0 6% C18:1 37%  C18:2 5% C22:0 <0.5% .sup.   C22:1 <0.5% .sup.   Other 1%

    Example 4: (E4)

    [0081] 1 kg of wax composition of a bleached and deodorized blend of palm oil (30%) and fully hydrogenated soy bean oil (70%) with the characterization as set in Table 5. The triacylglycerol level was above 99%.

    TABLE-US-00005 TABLE 5 Melting point ° C. 43 Iodine Value 16 Fatty acid composition C16:0 23% C18:0 60% C18:1 12% C18:2  3% C22:0 <0.5%.sup.  C22:1 <0.5%.sup.  Other  1%

    Example 5: (E5)

    [0082] 1 kg of wax composition of bleached and deodorized palm oil fraction with the characterization as set in Table 6. The triacylglycerol level was above 99%.

    TABLE-US-00006 TABLE 6 Melting point ° C. 45 Iodine Value 43 Fatty acid composition C16:0 51%  C18:0 5% C18:1 34%  C18:2 8% C22:0 <0.5% .sup.   C22:1 <0.5% .sup.   Other 2%

    Example 6: (E6)

    [0083] 5 kg of a high erucic oil were partially hydrogenated, bleached and deodorized. The partially hydrogenated High erucic wax composition was characterized as set in Table 7 below. The triacylglycerol level was above 99%.

    TABLE-US-00007 TABLE 7 Iodine Value 62 Fatty acid composition C16:0  4% C18:0  5% C18:1 33% C18:2  4% C22:0 10% C22:1 35% Other 11%

    Example 7: (E7)

    [0084] Akofine R is a commercially available fully hydrogenated rapeseed oil characterized by the triacylglycerols as in table 8 below and by having <2 in iodine value.

    TABLE-US-00008 TABLE 8 Melting point ° C. 60 Iodine Value  0 Fatty acid composition C16:0  .sup.  4% C18:0 .sup. 40% C18:1 <0.5% C18:2 <0.5% C22:0 .sup. 45% C22:1 <0.5% Other .sup. 11%

    Example 8: (E8)

    [0085] 5 kg of a rape seed oil, low in erucic acid was partially hydrogenated, bleached and deodorized. The partially hydrogenated wax composition was characterized as set in Table 9 below. The triacylglycerol level was above 99%.

    TABLE-US-00009 TABLE 9 Iodine Value 61 Fatty acid composition C16:0 4% C18:0 25%  C18:1 67%  C18:2 2% C22:0 <0.5% .sup.   C22:1 <0.5% .sup.   Other 2%

    Example 9: (E9)

    [0086] 116 grams of example 6, 40 grams of example 7 and 744 g of Example 8 was blended creating a wax composition with the characterization as set in Table 10 below. The triacylglycerol level was above 99%.

    TABLE-US-00010 TABLE 10 Melting point ° C. 45 Iodine Value 59 Fatty acid composition C16:0 4% C18:0 24%  C18:1 63%  C18:2 2% C22:0 3% C22:1 4% Other 3%

    Example 10 (E10)

    [0087] 120 gram of Example 9 and 880 grams of Example 5 was blended giving the total wax composition as characterized in Table 11 below. The triacylglycerol level was above 99%.

    TABLE-US-00011 TABLE 11 Melting point ° C. 44 Iodine Value 44 Fatty acid composition C16:0 46%  C18:0 8% C18:1 37%  C18:2 7% C22:0 <0.5% .sup.   C22:1 0.5%.sup.  Other 2%

    Example 11

    [0088] The compositions E1 and E2 were melted to 80° C. and kept at 80° C. for 30 minutes. E3-E5, E9 and E10 were melted to 50° C. and kept at 50° C. for 30 minutes. 250 grams of each composition (E1-E5, E9 and E10) were added to glass jars including a wicket, respectively. The wicket used was Wick/TLR 15/50/23-NST-7. The filled jars were cooled to room temperature under ambient conditions. After two weeks of storage the samples were evaluated as seen in Table 12 below.

    TABLE-US-00012 TABLE 12 E1 E2 E3 E4 E5 E9 E10 Smooth 1 1 2 1 2 5 4.5 surface Cracking 5 4 5 1 5 4.5 4.5 surface Frosting 1 3 3 3 4 5 3 Cracking on 1 5 5 1 5 5 5 the side Surface on 3 3 4 4 2 4.5 4 the bottom Total 11 16 19 10 18 24 21

    [0089] Smooth surface represents the visual aspect of the surface, where a smooth shiny surface is wished for resulting in a score of 5. A score of one (1) is a rough and not attractive surface.

    [0090] Cracks are not wished for. No cracks results in a score of 5 while a score of 1 represent several large cracks.

    [0091] Frosting is related to the appearance of white patches on the top or side of the candles. They appear very quickly after the cooling process and is not considered nice. A score of 5 means no sign of white patches which a score of one is full coverage of white patches.

    [0092] Scores which is 4 and 5 are acceptable levels for all parameters evaluated.

    [0093] Example E1 and E2 required much higher handling temperatures (80° C.) than the samples E9 and E10 due to the high melting point of the wax composition. Samples E9 and E10 required a lower and safer temperature of 50° C. Therefore, this ensures a safer working environment and is thus an advantage.

    [0094] In addition, the surfaces of E1 and E2 were not smooth. Especially for sample E1, the frosting parameter were extremely poor.

    [0095] E3 and E4 resulted in poor surface appearances as well as low frosting scores.

    [0096] E5 had a rather reasonable frosting effect but the surface was not smooth at all hence ended in an overall less desirable appearance.

    [0097] E9 was the only sample reaching acceptable levels in all criteria. It was shown (E10) that a small addition of high erucic rapeseed oil (resulting in 0.5% of C22:1 fatty acids) was enough to improve the overall appearance of E5 and especially the surface appearance.

    Example 12 (E12)

    [0098] A partially hydrogenated rape seed oil followed by bleaching and deodorization was made. The created wax composition was characterized as set in Table 13 below. The triacylglycerol level was above 99%.

    TABLE-US-00013 TABLE 13 Iodine Value 75 Fatty acid composition C16:0 5% C18:0 1% C18:1 83%  C18:2 2% C22:0 <0.5% .sup.   C22:1 <0.5% .sup.   Other 3%

    Example 13 (E13)

    [0099] A partially hydrogenated blend of rape seed oil (19%) and palm oil (81%) followed by bleaching and deodorization was made. The created wax composition was characterized as set in Table 14 below. The triacylglycerol level was above 99%.

    TABLE-US-00014 TABLE 14 Iodine Value 49 Fatty acid composition C16:0 37% C18:0 11% C18:1 43% C18:2  7% C22:0 <0.5%.sup.  C22:1 <0.5%.sup.  Other  2%

    Example 14 (E14)

    [0100] A partially hydrogenated rape seed oil followed by bleaching and deodorization was made. The created wax composition was characterized as set in Table 15 below. The triacylglycerol level was above 99%.

    TABLE-US-00015 TABLE 15 Iodine Value 69 Fatty acid composition C16:0 5% C18:0 15%  C18:1 74%  C18:2 3% C22:0 <0.5% .sup.   C22:1 <0.5% .sup.   Other 3%

    Example 15 (E15)

    [0101] 5 kg of wax composition of a blend of palm oil (10%), coco nut oil (10%) and rape seed oil (80%) were partially hydrogenated, bleached and deodorized characterized as set in Table 16 below. The triacylglycerol level was above 99%.

    TABLE-US-00016 TABLE 16 Iodine Value 43 Fatty acid composition C12:0 5% C16:0 7% C18:0 35%  C18:1 46%  C18:2 2% C22:0 <0.5% .sup.   C22:1 <0.5% .sup.   Other 5%

    Example 16 (E16)

    [0102] 970 grams of Example 15 and 30 grams of sorbitan tristearate (STS, CAS 26658-19-5) blended giving the total wax composition as characterized in Table 17 below. The triacylglycerol level was above 97%. STS is a polyolester.

    TABLE-US-00017 TABLE 17 Iodine Value 42 Fatty acid composition C12:0 5% C16:0 7% C18:0 35%  C18:1 46%  C18:2 2% C22:0 <0.5% .sup.   C22:1 <0.5% .sup.   Other 5%

    Example 17 (E17)

    [0103] 120 grams of example 6 and 880 grams of example 12 was blended resulting in a wax composition characterized as set in Table 18 below. The triacylglycerol level was above 99%.

    TABLE-US-00018 TABLE 18 Iodine Value 79 Fatty acid composition C16:0 5% C18:0 0.5%.sup.  C18:1 83%  C18:2 2% C22:0 1.5%.sup.  C22:1 4% Other 4%

    Example 18 (E18)

    [0104] 470 grams of example 6 and 530 grams of example 13 was blended resulting in a wax composition characterized as set in Table 19 below. The triacylglycerol level was above 99%.

    TABLE-US-00019 TABLE 19 Iodine Value 52 Fatty acid composition C16:0 20% C18:0 10% C18:1 39% C18:2  4% C22:0  5% C22:1 16% Other  2%

    Example 19 (E19)

    [0105] 350 grams of example 6 and 650 grams of example 14 were blended giving a wax composition characterized as set in Table 20 below. The triacylglycerol level was above 99%.

    TABLE-US-00020 TABLE 20 Iodine Value 67 Fatty acid composition C16:0 4.5%.sup.  C18:0 14%  C18:1 68%  C18:2 3% C22:0 1.5%.sup.  C22:1 5% Other 2%

    Example 20 (E20)

    [0106] 60 grams of example 6 and 940 grams of example 16 was blended resulting in a wax composition characterized as set in Table 21 below. The triacylglycerol level was above 97% and 3% of a polyol (STS)

    TABLE-US-00021 TABLE 21 Iodine Value 44 Fatty acid composition C12:0 5% C16:0 7% C18:0 33%  C18:1 45%  C18:2 2% C22:0 2% C22:1 2% Other 5%

    Example 21 (E21)

    [0107] A blend of High erucic rape seed oil (25%) and low erucic rape seed oil (75%) were partially hydrogenated, bleached and deodorized resulting in a wax composition characterized as set in Table 22 below. The triacylglycerol level was above 99%.

    TABLE-US-00022 TABLE 22 Iodine Value 73 Fatty acid composition C16:0 4% C18:0 6% C18:1 72%  C18:2 3% C22:0 4% C22:1 8% Other 3%

    Example 22 (E22)

    [0108] A partial hydrogenation of a low erucic rape seed oil followed by bleaching and deodorization resulting in a wax composition characterized as set in Table 23 below. The triacylglycerol level was above 99%.

    TABLE-US-00023 TABLE 23 Iodine Value 83 Fatty acid composition C16:0 5% C18:0 2% C18:1 88%  C18:2 4% C22:0 <0.5% .sup.   C22:1 <0.5% .sup.   Other 1%

    Example 23 (E23)

    [0109] 490 grams of E21 and 510 grams of E22 were blended resulting in a wax composition characterized as set in Table 24 below. The triacylglycerol level was above 99%.

    TABLE-US-00024 TABLE 24 Iodine Value 77 Fatty acid composition C16:0 5% C18:0 3% C18:1 82%  C18:2 2% C22:0 2% C22:1 4% Other 2%

    Example 24

    [0110] The compositions E17-E20 and E23 were melted to 55° C. and kept at 55° C. for 30 minutes. After that, 250 grams of each components were added into glass jars, separately. The filled jars were cooled to room temperature. After two weeks of storage, the samples were evaluated. The result of this evaluation is summarized in the Table 25 below.

    TABLE-US-00025 TABLE 25 E17 E18 E19 E20 E23 Smooth surface 5 5 5 5 5 Cracking surface 4 4.5 5 4.5 4 Frosting 5 5 5 5 5 Cracking on the side 4 5 5 4.5 4 Surface on the bottom 4 5 5 5 4.5 Total 22 24.5 25 24 22.5

    [0111] Those parameters were previously described on Example 11. The acceptable scores 4 and 5 were achieved on all compositions evaluated.

    Example 25

    [0112] The burning of the compositions in examples E1-E5, E9 and E10 were evaluated.

    [0113] The height of the flame was measured every 15 minutes for four continuous hours of burning.

    TABLE-US-00026 TABLE 26 Flame height (mm) Average Composition 15 min 30 min 45 min 60 min 90 min 120 min 180 min 240 min (mm) E1 22 22 22 22 22 22 22 22 22 E2 27 27 27 27 27 27 26 26 27 E3 29 29 29 30 29 29 29 29 29 E4 27 27 27 27 28 28 27 27 27 E5 30 30 29 29 29 29 29 30 29 E9 33 31 32 32 32 33 32 32 32 E10 30 31 31 30 30 30 30 30 30

    [0114] The numbers represent the height of the flames in millimeters. The wicket used was Wick/TLR 15/50/23—NST 7.

    [0115] The examples E9 and E10 generated larger clearer flames than the examples E1-E5.

    [0116] The examples E9 and E10 resulted in stable flames of above 30 mm while E1-E5 all generated flames having an average height below 30 mm.

    [0117] The jars were weighed before and after 240 minutes of burning, resulting in the amount of burned material, as seen bellow:

    TABLE-US-00027 TABLE 27 Consumed Average material after consumption Composition 240 min [g] [g/h] E1 20.16 5.04 E2 21.94 5.49 E3 23.73 5.93 E4 20.26 5.07 E5 25.11 6.28 E9 23.31 5.83 E10 21.8 5.45

    [0118] The lowest amount of consumed material after 4 hours of burning was found on composition E1. The composition E5 showed a larger amount of consumed material.

    [0119] The yield can be defined as the flame height per consumed material per hour. This indicates how much light can one gram of the wax composition produce every hour while burning.

    TABLE-US-00028 TABLE 28 Example Yield [mm/g/h] E1 4.4 E2 4.9 E3 4.9 E4 5.4 E5 4.7 E9 5.5 E10 5.6

    [0120] The examples E9 and E10 showed the highest and clearest flames per gram consumed material per hour. The composition E4 also achieved a reasonable yield of above 5, but as the flame height was the second lowest, it does not reach a positive total score.

    Example 26: (E26)

    [0121] 5 kg of a high erucic oil were partially hydrogenated, bleached and deodorized. The partially hydrogenated High erucic wax composition was characterized as set in Table 29 below. The triacylglycerol level was above 99%.

    TABLE-US-00029 TABLE 29 Melting point ° C. 60 Iodine Value  6 Fatty acid composition C16:0 4% C18:0 38%  C18:1 5% C18:2 <0.5% .sup.   C22:0 43%  C22:1 3% Other 8%

    Example 27 (E27)

    [0122] 5 kg of a high erucic oil were partially hydrogenated, bleached and deodorized. The partially hydrogenated High erucic wax composition was characterized as set in Table 30 below. The triacylglycerol level was above 99%.

    TABLE-US-00030 TABLE 30 Melting point ° C. 38 Iodine Value 64 Fatty acid composition C16:0 4% C18:0 8% C18:1 34%  C18:2 3% C22:0 6% C22:1 38%  Other 7%

    Example 28 (E28)

    [0123] 900 grams of E27 and 100 grams of E7 were blended. The wax composition was characterized as set in the Table 31 below. The triacylglycerol level was above 99%.

    TABLE-US-00031 TABLE 31 Iodine Value 67 Fatty acid composition C16:0  4% C18:0 12% C18:1 31% C18:2  3% C22:0 10% C22:1 34% Other  6%

    Example 29 (E29)

    [0124] 150 grams of E26 and 850 grams of E8 was blended. The wax composition was characterized as set in the Table 32 below. The triacylglycerol level was above 99%.

    TABLE-US-00032 TABLE 32 Iodine Value 53 Fatty acid composition C16:0 5% C18:0 27%  C18:1 57%  C18:2 2% C22:0 6% C22:1 0.5%.sup.  Other 3%

    Example 30 (E30)

    [0125] 280 grams of E9 and 720 grams of E5 was blended giving the total wax composition as characterized in the Table 33 below. The triacylglycerol level was above 99%.

    TABLE-US-00033 TABLE 33 Iodine Value 47 Fatty acid composition C16:0 38% C18:0 10% C18:1 41% C18:2  6% C22:0 0.8%  C22:1 1.1%  Other  3%

    Example 31

    [0126] The compositions E6 and E28-E30 were melted to 55° C. and kept at 55° C. for 30 minutes. 250 grams of each composition were added into glass jars, separately. The filled jars were cooled to room temperature. After two weeks of storage, the samples were evaluated. The result of this evaluation is summarized in the Table 34 below.

    TABLE-US-00034 TABLE 34 E6 E28 E29 E30 Smooth surface 5 4 5 4.5 Cracking surface 5 5 4 4.5 Frosting 5 5 4 4 Cracking on the side 4.5 5 4.5 5 Surface on the bottom 5 5 4 4.5 Total 24.5 24 21.5 22.5

    [0127] Those parameters were previously described on Example 11. The acceptable scores 4 and 5 were achieved on all compositions evaluated.

    Example 32 (E32)

    [0128] A blend of High erucic rape seed oil (25%) and low erucic rape seed oil (75%) were interesterifed followed by partially hydrogenation. The wax was further bleached and deodorized resulting in a wax composition characterized as set in the Table 35 below. The triacylglycerol level was above 98%.

    TABLE-US-00035 TABLE 35 Iodine Value 71 Fatty acid composition C16:0 4% C18:0 6% C18:1 70%  C18:2 3% C22:0 5% C22:1 7% Other 5%

    Example 33: (E33)

    [0129] 5 kg of a high erucic oil were partially hydrogenated followed by bleaching and deodorization. The partially hydrogenated high erucic oil was interesterified creating a wax composition characterized as set in Table 36 below. The triacylglycerol level was above 98%.

    TABLE-US-00036 TABLE 36 Iodine Value 59 Fatty acid composition C16:0  4% C18:0 10% C18:1 31% C18:2  3% C22:0 15% C22:1 31% Other 10%

    Example 34 (E34)

    [0130] 940 grams of Example 15, 30 grams of sorbitan tristearate (STS, CAS 26658-19-5) and 30 grams of a monoglyceride (CAS 31566-31-1) were blended, giving the total wax composition as characterized in the Table 37 below. The triacylglycerol level was above 94%. Both glyceryl monostearate and STS are polyol esters.

    TABLE-US-00037 TABLE 37 Iodine Value 41 Fatty acid composition C12:0 5% C16:0 7% C18:0 36%  C18:1 45%  C18:2 2% C22:0 <0.5% .sup.   C22:1 <0.5% .sup.   Other 5%

    Example 35: (E35)

    [0131] 750 grams of example 9 and 250 grams of a commercial paraffin wax, named Paraffin wax SW 5803, were melted at 80° C. and blended creating a wax composition with the fatty acid composition characterized as set in the Table 38 below. The triacylglycerol level was 75%.

    TABLE-US-00038 TABLE 38 Melting point ° C. 45 Iodine Value 59 Fatty acid composition C16:0 4% C18:0 24%  C18:1 63%  C18:2 2% C22:0 3% C22:1 4% Other 3%

    Example 36 (E36)

    [0132] 960 grams of Example 19 and 40 grams of a monoglyceride (CAS 31566-31-1) was blended giving the total wax composition as characterized in Table 39. The triglyceride level was above 95%. Glyceryl monostearate is a polyol ester.

    TABLE-US-00039 TABLE 39 Iodine Value 67 Fatty acid composition C16:0 4.5%.sup.  C18:0 14%  C18:1 68%  C18:2 3% C22:0 1.5%.sup.  C22:1 5% Other 2%

    Example 37 (E37)

    [0133] 200 gram of the blend in example 19 and 36 respectively were melted completely and poured in a see through glass jar. The pull away from the glass was studied, see Table 40. The addition of the monoglyceride improved the pull away further.

    TABLE-US-00040 TABLE 40 4 and 5 are acceptable results E 19 E37 Smooth surface 5 5 Cracking surface 5 5 Frosting 5 5 Cracking on the side 5 5 Surface on the bottom 5 5 Pull away 4 5 29 30