Oil palm empty fruit bunch fiber (OPEFB) is a lignocellulosic waste from palm oil mills. It contains mainly cellulose from which glucose can be derived to serve as raw materials for valuable chemicals such as succinic acid. A three-level Box-Behnken design combined with the canonical and ridge analysis was employed to optimize the process parameters for glucose production from OPEFB cellulose using enzymatic hydrolysis. Organosolv pretreatment was used to extract cellulose from OPEFB using ethanol and water as the solvents. The extracted cellulose was characterized by thermogravimetric analysis, FTIR spectroscopy, and field emission scanning electron microscopy. Hydrolysis parameters including amount of enzyme, amount of cellulose, and reaction time were investigated. The experimental results were fitted with a second-order polynomial equation by a multiple regression analysis and found that more than 97% of the variations could be predicted by the models. Using the ridge analysis, the optimal conditions reaction time found for the production of glucose was 76 hours and 30 min, whereas the optimum amount of enzyme and cellulose was 0.5 mL and 0.9 g, respectively. Under these optimal conditions, the corresponding response value predicted for glucose concentration was 169.34 g/L, which was confirmed by validation experiments.
Abstract. Succinic acid is a common metabolite in plants, animals and microorganisms. It has been used widely in agricultural, food and pharmaceutical industries. Enzymatic hydrolysate glucose from oil palm empty fruit bunch (OPEFB) cellulose was used as a substrate for succinic acid production using Actinobacillus succinogenes. Using cellulose extraction from OPEFB can enhance the production of glucose as a main substrate for succinic acid production. The highest concentration of glucose produced from enzymatic hydrolysis is 167 mg/mL and the sugar recovery is 0.73 g/g of OPEFB. By optimizing the culture medium for succinic acid fermentation with enzymatic hydrolysate of OPEFB cellulose, the nitrogen sources could be reduced to just only 2.5 g yeast extract and 2.5 g corn step liquor. Batch fermentation was carried out using enzymatic hydrolysate of OPEFB cellulose with yeast extract, corn steep liquor and the salts mixture, 23.5 g/L succinic acid was obtained with consumption of 72 g/L glucose in enzymatic hydrolysate of OPEFB cellulose at 38 hours and 37 o C. This study suggests that enzymatic hydrolysate of OPEFB cellulose maybe an alternative substrate for the efficient production of succinic acid by Actinobacillus succinogenes.
Enzymatic degradation products of lignin, having potential for added value, were obtained by extraction and subsequent enzymatic treatments of oil palm empty fruit bunch (OPEFB). The objective was to optimize the production of OPEFB lignin degradation products and study the effects of different enzymes and reaction media. Powder of OPEFB lignin was recovered from organsolv black liquor by using methanol, acidified water, and deionized water, respectively. OPEFB lignin was later subjected to enzymatic hydrolysis in an incubator shaker for 24 h using laccase and cutinase in various reaction media, including phenol, water, and acetate buffer. Nine compounds were recovered as OPEFB lignin degradation products, namely hydroxybenzoic acid, hydroxybenzaldehyde, vanillic acid, vanillin, syringic acid, syringaldehyde, coumaric acid, ferulic acid, and guaiacyl alcohol. When laccase was used in water, the product with the highest concentration was syringaldehyde (4061.1 ± 89.9 mg/L), and followed by hydroxybenzoic acid (1029.8 ± 50.2 mg/L). Vanillic acid was the product with the highest concentration (126 ± 97.5 g/L) found when laccase was used in phenol. When cutinase was used in water, products with the highest concentrations in the medium were syringaldehyde (4837.6 ± 156.4 mg/L) and syringic acid (2387.7 ± 105.3 mg/L). High performance liquid chromatography (HPLC) was used to quantify the OPEFB lignin degradation products.
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