Extraction by ionic liquids for the case of detoxification of lignocellulosic hydrolysates

IF 3.4 3区 化学 Q2 CHEMISTRY, MULTIDISCIPLINARY
Konstantza Tonova, Svetlana Zhivkova, Madlena Lazarova and Ahmad Mustafa
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Abstract

This study deals with hydrophobic phosphonium ionic liquids (ILs), phosphinate and neodecanoate, used in liquid–liquid extraction for the purpose of complex detoxification of lignocellulosic hydrolysates from inhibitors, whilst preserving the sugar content. The topic is considered from two aspects, a theoretical one in which extraction from a model multicomponent solution composed of acids, furan, phenolics, and sugars is investigated, and practically by employing a real rice straw hydrolysate. Using the model solution in cross-current extraction mode, the main process parameters, pH and concentration of the ILs, are studied. The extraction mechanisms of acids (sulfuric, gallic, acetic and levulinic acids) and aldehydes (vanillin and furfural) are established. Extraction of the acids in both ILs proceeds by a competitive mechanism until the two reactive H-bonding sites located at the two oxygen atoms in the IL's anion are occupied. In addition to H-bonding, extraction of the phenolic acid is substantially assisted by hydrophobic interactions, while the sulfuric acid is readily extracted by protonation of the IL's anion. An above-stoichiometric extraction of acids by phosphonium phosphinate has been found, which occurs by acid–acid H-bonds between phenolic and organic acids. Co-extraction between phenolic acid and phenolic and furanic aldehydes is observed which is based on the H-bonds that exist in acidic media and the staking interactions of the aromatic rings. The extraction of real rice straw hydrolysate carried out in three runs reaches a high removal of organic acids (over 63%), furans (over 80%) and phenolic compounds (over 97%) in each run.

Abstract Image

用离子液体萃取木质纤维素水解物的解毒剂
本研究涉及疏水性膦离子液体(ILs)、膦酸盐和新癸酸盐,用于液-液萃取,目的是对木质纤维素水解物进行复合解毒,去除抑制剂,同时保留糖分含量。本课题从两个方面进行了研究,一是理论方面,研究了从由酸、呋喃、酚类和糖组成的多组分模型溶液中萃取的方法;二是实际方面,采用了真正的稻草水解物。利用横流萃取模式下的模型溶液,研究了主要工艺参数、pH 值和离子交换树脂的浓度。确定了酸(硫酸、没食子酸、乙酸和乙酰丙酸)和醛(香兰素和糠醛)的萃取机理。酸在两种惰性离子中的萃取都是通过竞争机制进行的,直到位于惰性离子阴离子中两个氧原子上的两个活性 H 键位点被占据为止。除了 H 键作用外,疏水作用也对酚酸的萃取有很大帮助,而硫酸则很容易通过 IL 阴离子的质子化作用被萃取出来。研究发现,膦酸对酸的萃取超过了化学计量,这是通过酚酸和有机酸之间的酸-酸 H 键实现的。酚酸与酚醛和呋喃醛之间的共萃取是基于存在于酸性介质中的 H 键和芳香环的固定作用。对真正的稻草水解物进行了三次萃取,每次萃取的有机酸去除率(超过 63%)、呋喃去除率(超过 80%)和酚类化合物去除率(超过 97%)都很高。
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来源期刊
Reaction Chemistry & Engineering
Reaction Chemistry & Engineering Chemistry-Chemistry (miscellaneous)
CiteScore
6.60
自引率
7.70%
发文量
227
期刊介绍: Reaction Chemistry & Engineering is a new journal reporting cutting edge research into all aspects of making molecules for the benefit of fundamental research, applied processes and wider society. From fundamental, molecular-level chemistry to large scale chemical production, Reaction Chemistry & Engineering brings together communities of chemists and chemical engineers working to ensure the crucial role of reaction chemistry in today’s world.
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