Biovalorizing felled oil palm trunk as a sole feedstock for lactic acid production through efficient simultaneous saccharification and fermentation

Q1 Environmental Science Bioresource Technology Reports Pub Date : 2024-08-08 DOI:10.1016/j.biteb.2024.101930

Asma Billateh , Benjamas Cheirsilp , Sirasit Srinuanpan

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Abstract

This study aimed to develop practical biorefinery process for bio-valorizing felled oil palm trunk (OPT) as a sole feedstock for lactic acid (LA) production. OPT was separated into oil palm sap (OPS), vascular bundle (OPT-VB), and parenchyma (OPT-PA) fractions. OPS containing high amounts of sugars (38.69 g/L) and nitrogen (0.63 g/L), could be used directly for LA production by Lactobacillus acidophilus and also as base medium for simultaneous saccharification and fermentation (SSF) of OTP-VB and OPT-PA. The repeated SSF efficiently utilized cellulosic OPT-VB and produced LA up to 50–71 g/L during five cycles. Due to high water-absorbing and swelling properties of OPT-PA, it could not be initially added at high loadings. It was then intermittently added through fed-batch SSF, which effectively produced LA of 72.85 ± 1.61 g/L. These strategies have shown the efficient biorefinery process for biovalorization of OPT and may also be applicable to other similar agricultural wastes.

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通过高效的同步糖化和发酵，将砍伐的油棕树干作为生产乳酸的唯一原料进行生物酵解

本研究旨在开发实用的生物精炼工艺，将砍伐的油棕榈树干（OPT）作为生产乳酸（LA）的唯一原料进行生物缬化处理。油棕树干被分离成油棕树液（OPS）、维管束（OPT-VB）和实质（OPT-PA）部分。OPS 含有大量的糖（38.69 克/升）和氮（0.63 克/升），可直接用于嗜酸乳杆菌生产 LA，也可作为 OTP-VB 和 OPT-PA 同步糖化和发酵（SSF）的基础培养基。重复 SSF 能有效利用纤维素 OPT-VB，并在五个周期内产生高达 50-71 克/升的 LA。由于 OPT-PA 具有较高的吸水性和溶胀性，因此最初不能以高添加量添加。然后通过喂料-批次 SSF 间歇添加，有效生产出 72.85 ± 1.61 克/升的 LA。这些策略显示了对 OPT 进行生物硼化的高效生物炼制过程，也可能适用于其他类似的农业废弃物。

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