A. O. Mustapha, Aishat Babatunde, Omowumi Aki̇nola, Henry Olododo, Y. Afolabi̇, Tijani Abdulfatai̇
{"title":"以甜杏仁(Prunusamygdalus dulcis)籽油为原料合成汽车用三甲基丙烷基生物润滑剂。","authors":"A. O. Mustapha, Aishat Babatunde, Omowumi Aki̇nola, Henry Olododo, Y. Afolabi̇, Tijani Abdulfatai̇","doi":"10.18596/jotcsa.1178460","DOIUrl":null,"url":null,"abstract":"This paper presents a synthesis of a sweet almond oil-based trimethylolpropane biolubricant and the evaluation of its temperature-dependent viscosity properties. The oil was converted into biodiesel by the transesterification process after extraction, refining, and acid-alkaline transesterification. After that, biolubricant was produced by further transesterifying biodiesel with trimethylolpropane at 105 oC at a ratio of 3.9:1 for a 60-minute reaction time with a potassium hydroxide catalyst concentration of 1 wt. %. According to the American Standard Test Methods (ASTM), the biolubricant's pour point and index of viscosity were determined to be 267.50 and -4 oC, respectively. The measured viscosities were 42.80, 30.18, 21.39, 12.25, and 8.90 cSt. cSt at 30, 40, 60, 80, and 100 °C, demonstrating an inverse relationship between temperature and lubricant viscosity. The difference between the FTIR spectra of the biodiesel and the biolubricant—1755.74 cm-1 versus 1743.96 cm-1—verifies the ester group. Sweet almond oil has a higher iodine content than unsaturated glycerides (9.52 g of iodine per 100 g of oil sample) and includes 53.478 % more unsaturated fatty acids than saturated fatty acids, and 71.725 % unsaturated fatty acids for biolubricant according to gas chromatographic data. Linoleic acid made up the majority of the fatty acids in the oil and synthetic biolubricant, with percentages of 31.44 and 45.93 %, respectively. Sweet almond biolubricant and oil contained palmitic, linoleic, and oleic acids. The biolubricant has the potential to function as light gear oil for automobiles because its characterization results correlate favorably with the ISO VG-32 criteria","PeriodicalId":17299,"journal":{"name":"Journal of the Turkish Chemical Society Section A: Chemistry","volume":"13 1","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2023-05-31","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"1","resultStr":"{\"title\":\"Trimethylolpropane based biolubricant synthesis from sweet almond (Prunusamygdalus dulcis) seed oil for use in automotive applications.\",\"authors\":\"A. O. Mustapha, Aishat Babatunde, Omowumi Aki̇nola, Henry Olododo, Y. Afolabi̇, Tijani Abdulfatai̇\",\"doi\":\"10.18596/jotcsa.1178460\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"This paper presents a synthesis of a sweet almond oil-based trimethylolpropane biolubricant and the evaluation of its temperature-dependent viscosity properties. The oil was converted into biodiesel by the transesterification process after extraction, refining, and acid-alkaline transesterification. After that, biolubricant was produced by further transesterifying biodiesel with trimethylolpropane at 105 oC at a ratio of 3.9:1 for a 60-minute reaction time with a potassium hydroxide catalyst concentration of 1 wt. %. According to the American Standard Test Methods (ASTM), the biolubricant's pour point and index of viscosity were determined to be 267.50 and -4 oC, respectively. The measured viscosities were 42.80, 30.18, 21.39, 12.25, and 8.90 cSt. cSt at 30, 40, 60, 80, and 100 °C, demonstrating an inverse relationship between temperature and lubricant viscosity. The difference between the FTIR spectra of the biodiesel and the biolubricant—1755.74 cm-1 versus 1743.96 cm-1—verifies the ester group. Sweet almond oil has a higher iodine content than unsaturated glycerides (9.52 g of iodine per 100 g of oil sample) and includes 53.478 % more unsaturated fatty acids than saturated fatty acids, and 71.725 % unsaturated fatty acids for biolubricant according to gas chromatographic data. Linoleic acid made up the majority of the fatty acids in the oil and synthetic biolubricant, with percentages of 31.44 and 45.93 %, respectively. Sweet almond biolubricant and oil contained palmitic, linoleic, and oleic acids. 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Trimethylolpropane based biolubricant synthesis from sweet almond (Prunusamygdalus dulcis) seed oil for use in automotive applications.
This paper presents a synthesis of a sweet almond oil-based trimethylolpropane biolubricant and the evaluation of its temperature-dependent viscosity properties. The oil was converted into biodiesel by the transesterification process after extraction, refining, and acid-alkaline transesterification. After that, biolubricant was produced by further transesterifying biodiesel with trimethylolpropane at 105 oC at a ratio of 3.9:1 for a 60-minute reaction time with a potassium hydroxide catalyst concentration of 1 wt. %. According to the American Standard Test Methods (ASTM), the biolubricant's pour point and index of viscosity were determined to be 267.50 and -4 oC, respectively. The measured viscosities were 42.80, 30.18, 21.39, 12.25, and 8.90 cSt. cSt at 30, 40, 60, 80, and 100 °C, demonstrating an inverse relationship between temperature and lubricant viscosity. The difference between the FTIR spectra of the biodiesel and the biolubricant—1755.74 cm-1 versus 1743.96 cm-1—verifies the ester group. Sweet almond oil has a higher iodine content than unsaturated glycerides (9.52 g of iodine per 100 g of oil sample) and includes 53.478 % more unsaturated fatty acids than saturated fatty acids, and 71.725 % unsaturated fatty acids for biolubricant according to gas chromatographic data. Linoleic acid made up the majority of the fatty acids in the oil and synthetic biolubricant, with percentages of 31.44 and 45.93 %, respectively. Sweet almond biolubricant and oil contained palmitic, linoleic, and oleic acids. The biolubricant has the potential to function as light gear oil for automobiles because its characterization results correlate favorably with the ISO VG-32 criteria