Vanillin from Kraft Lignin

A green method for obtaining vanillin from technical lignin produced from pulp

Huge amounts of technical or Kraft lignin are formed during pulp production. This lignin is difficult to process and so is usually just incinerated for heat production. A team of researchers, reporting in the journal Angewandte Chemie, have now succeeded in developing a green method for recovering the flavoring agent vanillin from this raw material. The materials used in this method are all recycled from papermaking processes, and only power and heat need to be added.

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Lignin and cellulose are essential components of wood. The molecular structure of lignin contains the structure of vanillin, the main flavoring substance from the vanilla plant, meaning that vanillin can be produced from lignin, although the process is laborious. At present, lignosulfonate, a substance also formed in some papermaking methods, is used for the industrial production of vanillin.

In order to make paper from wood fibers, all lignin has to be removed, otherwise the paper will take on the brown color of the lignin. However, the waste product in the most commonly used pulping method for industrial papermaking, the Kraft method, is not lignosulfonate but rather a technical lignin referred to as Kraft lignin. Kraft lignin is much harder to oxidize and depolymerize than other lignins and so at present cannot be used as a raw material. Instead, it is simply burnt as fuel for papermaking processes.

Siegfried Waldvogel and a team of researchers at the University of Mainz, Germany, have now discovered a method for producing vanillin from Kraft lignin. They say the method is environmentally friendly as it does not use any harmful chemicals, and it is convenient as it uses the raw materials present in pulp production. A key step in this new method is the production of the oxidizer by electrolysis of sodium carbonate.

“The idea started many years ago when playing around with innovative electrode materials that make it possible to take simple carbonates and make an oxidizer from them,” explains Waldvogel.

One of these electrode materials was boron-doped diamond, and the researchers observed that, when carrying out electrolysis using this electrode material, the sodium carbonate was readily oxidized to peroxodicarbonate. The team then found out that this oxidizer was strong enough to degrade stubborn Kraft lignin.

The team report that, when freshly produced, the peroxodicarbonate depolymerizes and oxidizes Kraft lignin with similar effectiveness to traditional methods. However, in a departure from these conventional methods, no environmentally harmful chemicals are used or produced in the process.

The need for vanillin is high: “Most people only know of it from vanilla flavoring, but it is present in most chocolates and perfumes as well,” explains Waldvogel.

Vanillin is also a precursor material for pharmaceuticals. All these uses mean that around twenty thousand tons of vanillin are needed every year, and the vanilla plant alone cannot keep up with this demand. Until now it wasn’t possible to utilize Kraft lignin to meet demand, but the first steps are being made. Waldvogel and the team are already working on a pilot plant to test scaling up.

About the Author

Prof. Dr. Siegfried Waldvogel is a Professor at the Department of Chemistry of the University of Mainz, Germany. The research interests of his research group are new electrochemical conversions of biobased raw materials, among others, with the goal to use electric current as a “reagent” to make previously difficult conversions sustainable and to upcycle chemicals.

Source

Angewandte Chemie, press release 2023-02-23.

Supplier

Angewandte Chemie (Journal)
Universität Mainz

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