CD2I - Chimie Durable - Industries - Innovation

Lignocellulosic biorefinery for the production of cellulose and pentoses for the production of green surface active agents – SUCROL

Extraction of sugars from wood for the production of surface active agents

The objective of this study is to optimise both the extraction of sugars from hardwood chips (xylose and its oligomers) and the extraction of cellulose, to obtain a sugar flow that could be valorised into surface active agents and cellulose of good quality. Synthesis of non ionic surface active agents (here alkylpolyxylosides) from xylose and its oligomers and possibly other sugars will have to be adapted.
Two issues will have to be solved : the extraction process should maximize the sugar concentration without degrading the sugars, and without any detrimental effect on the cellulose that is remaining in the wood chips. The second issue is whether the surface active agent synthesis will be possible despite the fact that a mixture of sugars in monomeric and oligomeric form is present as well as some other wood constituents.

Results

Results obtained during the SUCROL project have shown that it was possible to extract a significant amount of sugars from hardwood species, while enabling the production of a cellulose of good quality. Furthermore it was found that the sugar extraction from wood facilitates the process of extraction of cellulose from wood, which represents a additional advantage for the industry.
The liquors extracted from wood, containing mainly sugars in their monomeric and oligomeric forms, were used to synthetisesurface active agents, provided that the synthesis process is adapted.
The expertise gained in this project has led two of the partners to participate in a wider project financed by FUI, the Polywood project, in the frame of AXELERA.

Prospects

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Scientific productions and patents

Results of this sudy has been presented at four international scientific conferences (European Workshop on Lignocellulosics and Pulp (Helsinki), Nordic Wood Biorefinery Conference (Helsinki), Wood Chem Conference (Nancy) et International Symposium on Lignocellulosics, Fibers and Pulp (Vancouver)), at a technical workshop organized by AXELERA. One scientific paper has been published in a peer-reviewed journal (Holzforschung) and one popularization article has been published in “Actualité Chimique”.

Submission summary

Summary
The French pulp industry is competing against South American (Brazilian) and Asian (Indonesian) companies which are capable of producing wood pulp at a much lower price, thanks to the availability of a cheaper raw material (eucalyptus, acacia). The definition of a new economical model is the only way to stay alive in this competition. The model which seems the most appropriate today is the paper biorefinery in which all the main wood chemical components are extracted and used in a most valuable manner. This project aims at defining an extraction process for the hemicelluloses present in hardwoods, which will take place before kraft cooking and which will give a flow of pentoses in an appropriate form for chemical purposes, without affecting the quality of the kraft cellulose.
The use of pentoses has been investigated to a much lesser extent than that of hexoses. This is due to the fact that the latter are dominant in the agro-materials used today as sugar sources. However the situation is different in hardwood trees and most of the agricultural residues (straw…) in which they may represent more than 30% in weight.
The surface active agents industry has recently developed new families of biomass based products (like the alkylpolyglycosides -APG). Their potential is very high but their development is slowed by their relatively high cost. The availability of new sources of xylose at a cheaper price will represent a real breakthrough for the development of new applications for the APG. The synthesis and properties of the xylose-based APG will be investigated.

Christine Chirat (INSTITUT POLYTECHNIQUE DE GRENOBLE) – Christine.Chirat@pagora.grenoble-inp.fr

The author of this summary is the project coordinator, who is responsible for the content of this summary. The ANR declines any responsibility as for its contents.

GRENOBLE INP INSTITUT POLYTECHNIQUE DE GRENOBLE
FIBRE EXCELLENCE R&D KRAFT FIBRE EXCELLENCE R&D KRAFT
SEPPIC SOC EXPLOIT PRODUITS INDUSTR CHIMIQUES

Help of the ANR 268,922 euros
Beginning and duration of the scientific project: - 36 Months

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