Green Biorefinery Side Stream as a Source of Chlorophyll Pigments, Lignin, and Cellulose for Textile Fibers
Journal article, 2025

Green biorefineries are key to a biobased economy and to reducing the carbon footprint of several supply chains. Achieving this goal requires utilizing as many material streams as possible while focusing on value-added products that offer economic benefits. Herein, we investigate the potential of a fibrous byproduct from protein extraction of green perennial biomasses (press cake) as an alternative raw material to pigments and wood-based products. We propose an integrated process that further refines and valorizes the press cake to obtain chlorophyll pigments, lignin, and cellulosic pulp. First, the chlorophyll extraction from grass-clover press cake was optimized, and its impact on the subsequent pulping step was evaluated, revealing that the extraction with ethanol and acetone did not affect the pulping step, while DMSO presented several issues. Pulping conditions were then optimized to maximize the cellulose content in the pulp without compromising the quality of the lignin stream or the recovery yields. The resulting high-cellulose pulps, approaching a cellulose content of 90 wt %, were successfully spun into textile fibers through wet-spinning, as one example of added-value application. Our results present a proof-of-concept for optimizing green biorefineries to obtain four added-value products from renewable grass-clover biomass: proteins, chlorophyll pigments, cellulose pulp, and lignin.

press cake

NMRspectroscopy

grass-clover

spun-fibers

pretreatment

dissolving pulp

Author

Leandro Cid Gomes

Chalmers, Chemistry and Chemical Engineering, Chemical Technology

Andrieli da Rosa Garcia

Chalmers, Chemistry and Chemical Engineering, Chemical Technology

Ferdows Raeisi

Chalmers, Chemistry and Chemical Engineering, Chemical Technology

Lívia Cristina de Oliveira Barbosa

Chalmers, Chemistry and Chemical Engineering, Chemical Technology

Devsara Wasalabandara

Chalmers, Chemistry and Chemical Engineering, Chemical Technology

Anju Panakkal Manuel

Chalmers, Life Sciences, Systems and Synthetic Biology

Nanna Lindgaard Skovborg

Aarhus University

Emma Thonesen Hostrup

Aarhus University

Joanna Wojtasz

TreeToTextile AB

Maria Gunnarsson

TreeToTextile AB

Morten Ambye-Jensen

Aarhus University

Diana Bernin

Chalmers, Chemistry and Chemical Engineering, Applied Chemistry

ACS Sustainable Chemistry & Engineering

2168-0485 (eISSN)

Vol. 13 40 16946-16957

BioPlastEco - Smart cirkulär biobaserad plastekonomi genom skräddarsydd design, tillverkning och återvinning av plast

Formas (2021-02509), 2021-12-01 -- 2025-11-30.

Subject Categories (SSIF 2025)

Bioprocess Technology

Paper, Pulp and Fiber Technology

Infrastructure

Chalmers Materials Analysis Laboratory

DOI

10.1021/acssuschemeng.5c06653

More information

Latest update

10/24/2025