Pretreatment of Oil Palm Empty Fruit Fiber (OPEFB) with Aquaeous Ammonia for High Production of Sugar

Nursyafiqah Zulkiple, Mohamad Yusuf Maskat, Osman Hassan
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引用次数: 46

Abstract

Corncob Oil Palm Empty Fruit Bunch (OPEFB) is an agricultural residue that has the potential to become a good source for renewable feedstock for production of sugar. This work evaluated the effectiveness of aqueous ammonia as pretreatment at low (soaking, SAA) and elevated temperature (Pressurized Chamber) to deconstruct the lignocellulosic feedstock, prior to enzymatic hydrolysis. The ammonia pretreatments were compared against the standard NaOH method. The best tested Pressurized Chamber method conditions were at 100 °C with 3 hour retention time, 12.5% Ammonium hydroxide and 1:30 solid loading. The digestibility of the feedstock is determined with enzymatic hydrolysis using Cellic Ctech2 and Cellic Htech2. The sugars produced by Pressurized Chamber method within 24 hour of enzyme hydrolysis are similar to that produced by NaOH method which is 439.90 mg/ml and 351.61 mg/ml, respectively. Compared with optimum SAA method (24 hour, 6.25% of ammonium hydroxide at room temperature), Pressurized Chamber method was capable of producing enhanced delignification and higher production of sugar upon hydrolysis. These findings were supported by the disappearance peak at 1732, 1512 and 1243 on Fourier Transform Infrared (FTIR spectrum) of treated OPEFB by Pressurized Chamber method. XRD determination showed reduced crystallinity of OPEFB (37.23%) after treatment by Pressurized Chamber, suggesting higher accessibility toward enzyme hydrolysis. The data obtained suggest that the Pressurized Chamber pre-treatment method are suitable for OPEFB deconstruction to produce high yield of sugar.

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含水氨预处理油棕空果纤维高产糖研究
玉米芯油棕榈空果束(OPEFB)是一种农业残留物,有潜力成为生产糖的可再生原料的良好来源。本研究评估了氨水作为低(浸泡,SAA)和高温(加压室)预处理在酶解前解构木质纤维素原料的有效性。将氨预处理与标准NaOH法进行了比较。加压室法的最佳测试条件为:温度100℃,保留时间3小时,氢氧化铵含量为12.5%,固体负荷为1:30。原料的消化率用Cellic Ctech2和Cellic Htech2酶解测定。加压室法酶解24h内产糖量与NaOH法相似,分别为439.90 mg/ml和351.61 mg/ml。与最佳的SAA法(24小时,6.25%的氢氧化铵在室温下)相比,加压室法能够增强脱木质素和更高的水解糖产量。加压室法处理后的OPEFB的傅里叶变换红外(FTIR)光谱在1732、1512和1243处出现消失峰,支持了上述发现。XRD测定结果表明,加压室处理后的OPEFB结晶度降低(37.23%),具有较高的酶解亲和力。所得数据表明,加压室预处理方法适用于OPEFB的解构,以获得高得率的糖。
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