Optimasi Kondisi Proses Sintesis Biodiesel Berbasis Reaksi Esterifikasi Palm Fatty Acid Distillate Dengan Katalis Cu-Hidroksiapatit Dari Limbah Tulang Ikan

Muhammad Rahman, Yelmida '. Aziz, Panca Setia Utama
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Abstract

Biodiesel is an alternative fuel to a diesel engine that can replace or reduce the use of petroleum diesel. PFAD (Palm Fatty Acid Distillate) is a by-product of physical refining of crude palm oil products and is contained of free fatty acid (FFA) more than 85 wt.%. Esterification is a chemical reaction used to produce biodiesel from feedstocks with high FFA. Hydroxyapatite derived from waste fish bones has been effectively utilized as a support for preparation of the heterogeneous copper acid catalyst. The Copper- Hydroxyapatite catalyst has been prepared through wet-impregnation.This study intends to produce biodiesel with Cu- Hydroxyapatite catalyst derived from fishbone waste in esterification of PFAD and methanol. Esterification reaction parameters were varied to obtain the maximum yield of biodiesel. Optimization of esterification reaction parameters such as methanol to PFAD ratio, catalyst loading, and reaction temperature was carried out by Response Surface Methodology-Central Composite Design (RSM-CCD). The optimum yield obtained using regression models were found to be reaction temperature 62oC, catalyst to PFAD weight 1,82 wt.%, and PFAD to methanol molar ratio 1:8,28. The reaction under the optimum condition predicted at 92,52% of biodiesel yield.
优化以棕榈肥乙酸蒸馏为基础的生物柴油合成过程的条件
生物柴油是柴油发动机的替代燃料,可以替代或减少石油柴油的使用。PFAD(棕榈脂肪酸馏出物)是天然棕榈油产品物理精炼的副产物,其游离脂肪酸(FFA)含量超过85%。酯化反应是一种用于从高游离脂肪酸的原料中生产生物柴油的化学反应。利用废鱼骨提取的羟基磷灰石作为载体,制备了非均相铜酸催化剂。采用湿浸渍法制备了铜-羟基磷灰石催化剂。以鱼骨废料为原料,经PFAD和甲醇酯化反应,制备了Cu-羟基磷灰石催化剂制备生物柴油。通过改变酯化反应参数来获得生物柴油的最大产率。采用响应面法-中心复合设计(RSM-CCD)对甲醇与PFAD的配比、催化剂负载、反应温度等酯化反应参数进行了优化。通过回归模型得到的最佳产率为:反应温度62℃,催化剂与PFAD的质量为1.82 wt.%, PFAD与甲醇的摩尔比为1:8,28。在最优条件下的反应预估产率为92.52%。
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