Volatile fatty acid extraction from fermentation broth using hydrophobic ionic liquid and in-situ enzymatic esterification

Ramkrishna Singh, Nikhil Kumar, Prathap Parameswaran, Blake A. Simmons, Kenneth L Sale, Ning Sun
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Abstract

Efficient recovery of volatile fatty acids (VFAs) from fermentation broth is a challenge due to low VFA titers and thus limit the commercialization of VFA production using biological routes. Liquid-liquid extraction using hydrophobic ionic liquids (ILs) shows great promise for the extraction and esterification of hydrophilic VFAs. In this study, several ILs were evaluated to select a water-immiscible and efficient extraction solvent. The selected IL: trihexyltetradecyl phosphonium dibutylphosphate ([P666,14][DBP]) gave a cumulative VFA extraction of around 842.8 mg/g IL. The predicted excess enthalpy (HE) and logarithmic activity coefficients ln(γ) using the COSMO-RS model were validated with the experimentally obtained VFA recovery from fermentation broth. To understand the extraction mechanism of VFAs, quantum theory of atoms in molecules (QTAIM) and noncovalent interaction (NCI) were performed. The results suggest that long chain fatty acids exhibit strong Van der Waals interaction with DBP anion leading to higher VFA extraction. The enzymatic esterification of VFAs with ethanol in [P666,14][DBP] was optimized using the Box-Behnken response surface design of experiment. Under the optimized conditions, up to 83.7 % of hexanoic acid was converted to ethyl esters, while other shorter chain VFAs has lower conversion efficiency (38.3%-63.2%).
利用疏水性离子液体和原位酶法酯化从发酵液中提取挥发性脂肪酸
从发酵液中高效回收挥发性脂肪酸(VFAs)是一项挑战,因为挥发性脂肪酸滴度低,从而限制了利用生物途径生产挥发性脂肪酸的商业化。使用疏水性离子液体(ILs)进行液液萃取在亲水性挥发性脂肪酸的萃取和酯化方面前景广阔。本研究对几种离子液体进行了评估,以选择一种不溶于水的高效萃取溶剂。所选的三己基十四烷基磷酰二丁基磷酸酯([P666,14][DBP])的累积 VFA 萃取率约为 842.8 mg/g。利用 COSMO-RS 模型预测的过量热焓(HE)和对数活性系数 ln(γ)与实验获得的发酵液中的 VFA 回收率进行了验证。为了解 VFAs 的萃取机理,对分子中原子的量子理论(QTAIM)和非共价相互作用(NCI)进行了研究。结果表明,长链脂肪酸与 DBP 阴离子之间具有很强的范德华相互作用,从而提高了 VFA 的提取率。采用 Box-Behnken 响应面设计实验优化了 VFA 与乙醇在 [P666,14][DBP] 中的酶法酯化反应。在优化条件下,高达 83.7% 的己酸被转化为乙酯,而其他较短链的 VFA 转化率较低(38.3%-63.2%)。
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