A reliable, simultaneous analysis of palm oil polyol esters using capillary column GC is described. The polyol esters were esterified from palm oil methyl esters (POME) and palm kernel oil methyl esters (PKOME) with trimethylolpropane [2-ethyl-2-(hydroxymethyl)-1,3-propanediol; TMP] to produce the biodegradable base oil for lubricant production. Analysis was performed using a high-temperature capillary column, SGE HT5 operated at a temperature gradient of 6°C/min starting from 80 to 340°C. Before injection, the sample was derivatized with N,Obis(trimethylsilyl)trifluoroacetamide in ethyl acetate at 40°C for at least 10 min. This procedure provides a complete separation of reaction products: TMP, methyl esters, monoesters (ME), diesters (DE), and triesters (TE). As expected, the ME from palm kernel oil was resolved into five major peaks, DE into seven peaks, and TE into 10 peaks. Since no standard was available for this sample, the identities of the peaks were established by a secondary standard that was derived from pure methyl esters. This GC method has made possible the simultaneous determination of reaction product compositions in order to assess the extent of reaction.
The objectives of this research were to improve the low-temperature performance of palm oil products, with emphasis on non-food uses, and to find some additives (synthesized or commercially available) suitable to reduce the pour point and cloud point values of palm oil products. The samples studied in this research include palm olein (PO), super olein (SO), palm oil methyl esters (POME), palm kernel oil methyl esters (PKOME), a blend of POME and PO at a 2:1 ratio (POMEPO), a blend of POME and SO at a 2:1 ratio (POMESO), a blend of PKOME and PO at a 2:1 ratio (PKOMEPO) and a blend of PKOME and SO at a 2:1 ratio (PKOMESO). Among the additives studied in this research were Tween-80, dihydroxy fatty acid (DHFA), acrylated polyester pre-polymer, palm-based polyol (PP), a blend of DHFA and PP at a 1:1 ratio (DHFAPP), an additive synthesized using DHFA and ethyl hexanol (DHFAEH), and castor oil ricinoleate. All the additives used showed satisfactory results, with more significant reductions of pour point and cloud point values observed for POME, PKOME, POMEPO, POMESO and PKOMESO samples. The biggest reduction of the pour point value in this research was about 7.5 7C (by addition of 1.0% DHFA to POMEPO), while the biggest reduction of the cloud point value was about 10.5 7C (by addition of 1.0% DHFA 1 1.0% PP to POME). The significant reductions in pour point and cloud point values of POME, PKOME, POMEPO, POMESO and PKOMESO by the additives used indicate that the additives might be able to improve the low-temperature properties of palm oil products, for instance biodiesel.
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