A. Buasri, Kanitta Jetchamnong, Nattapat Veingdow, V. Loryuenyong
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引用次数: 0
摘要
为了利用废棕榈油(WPO)生产生物柴油,我们利用废粉末白垩开发了一种氧化钙(CaO)催化剂,并将其作为生物燃料工艺的酯交换催化剂进行了测试。生成 CaO 催化剂需要采用煅烧方法,在 900 °C 煅烧 3 小时。酯交换过程采用了基于盒-贝肯设计(BBD)的响应面方法(RSM)。采用 BBD 实验设计,研究了催化剂浓度(3-5 wt.%)、甲醇/油摩尔比(12-18)和反应时间(60-120 分钟)这三个工艺参数。在最佳条件下进行的实验预测产率超过 97%,与预期值非常吻合(误差相对较小)。这项研究表明,作为低成本原料的 WPO 和废白垩是生产生物柴油的绝佳原料来源,而且可以通过优化工艺变量实现生物柴油的可持续生成。
Powder Chalk as a Solid Base Heterogeneous Catalyst for Biodiesel Generation: Process Optimization via Box-Behnken Model
In order to produce biodiesel from waste palm oil (WPO), a calcium oxide (CaO) catalyst was developed using waste powder chalk and tested as a transesterification catalyst for the biofuel process. Generating CaO catalyst required a calcination method that was carried out at 900 °C for 3 h. Further investigation was conducted using X-ray diffraction (XRD), scanning electron microscopy (SEM), and energy dispersive X-ray spectroscopy (EDX). The transesterification procedure was carried out applying response surface methodology (RSM) based on box-Behnken design (BBD). The BBD experimental design was employed, and the 3 process parameters investigated were catalyst concentration (3-5 wt.%), methanol/oil mole ratio (12-18), and reaction time (60-120 min). Experiments conducted under the optimal conditions predicted yielded over 97%, which was in excellent agreement with the expected value (a relatively small margin of error). This study demonstrates that WPO and waste chalk as low-cost feedstock are excellent sources of raw material for biodiesel production, and that a sustainable generation of biodiesel can be accomplished by optimizing process variables.
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