棕榈表面活性剂基椰壳热解液烟研究

Shafira Nurfadhila, E. Hambali
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引用次数: 1

摘要

已开始避免使用合成抗菌液洗手液,如三氯生。因此,有必要寻找一种对皮肤安全且对环境友好的抗菌替代品。一种环境友好的抗菌替代品是由椰子壳热解过程产生的液体烟。本研究的目的是为棕榈MES表面活性剂和甘油制成的洗手液获得合适的液烟浓度。研究阶段为原料分析、液皂配方(表面活性剂甲酯磺酸盐7.5%、表面活性剂二乙醇酰胺5%、棕榈甘油9%、氯化钠1%、一级液烟、蒸馏水)。本研究的处理是添加1、3和5%的一级液体烟。下一阶段是对所得液皂产品的理化性质进行分析,根据SNI 2588: 2017进行质量测试,并进行产品有效性测试。液烟添加量为1%的液皂效果最佳,其密度值为1.037 g cm-3,比重为1.04,粘度为11,560 cP,表面张力为29.08 dyne cm-1, pH值为7.2,游离脂肪酸0.27%,不溶性乙醇成分0.14%,总有效成分12.52%,培养皿数为990 CFU g-1,菌落还原率为61.13%,刺激性气味最小。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Liquid Smoke from Coconut Shell Pyrolysis Process on Palm Surfactant Based Liquid Hand Soap
The use of synthetic antibacterial liquid hand soap such as triclosan has begun to be avoided. Therefore it is necessary to find an antibacterial alternative that is safe for the skin and friendly to the environment. One of the environmentally friendly antibacterial alternatives is liquid smoke resulting from the pyrolysis process from coconut shells. The purpose of this study was to obtain the right concentration of liquid smoke for liquid hand soap made from palm MES surfactants and glycerol. The stages of the research were raw material analysis, liquid soap formulation (surfactant methyl ester sulfonate 7.5%, surfactant diethanolamide 5%, palm glycerol 9%, sodium chloride 1%, liquid smoke grade I, and distilled water). The treatments in this study were the addition of 1, 3, and 5% grade I liquid smoke. The next stage is an analysis of the physicochemical properties of the resulting liquid soap product, quality test was carried out based on SNI 2588: 2017, and a product effectiveness test. Liquid soap with the addition of 1% liquid smoke showed the best results with a density value of 1.037 g cm-3, specific gravity 1.04, viscosity 11,560 cP, surface tension 29.08 dyne cm-1, pH 7.2, free fatty acids 0.27%, ingredients insoluble in ethanol 0.14%, the total active ingredient is 12.52%, the number of plates is 990 CFU g-1, the colony reduction is 61.13%, and has the minimal pungent aroma.
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