open access publication

Article, 2024

A Network of Processes for Biorefining Burdock Seeds and Roots

Molecules, ISSN 1420-3049, 1431-5157, Volume 29, 5, Page 937, 10.3390/molecules29050937

Contributors

Di Bitonto, Luigi 0000-0003-0864-4268 [1] Scelsi, Enrico 0000-0001-9924-0781 [1] Errico, Massimiliano 0000-0002-2172-2921 [2] Reynel-Ávila, Hilda Elizabeth 0000-0002-4102-2252 [3] [4] Mendoza-Castillo, Didilia Ileana 0000-0002-8047-9116 [3] [4] Bonilla-Petriciolet, Adrián 0000-0002-0197-3539 [4] Corazza, Marcos Lúcio 0000-0003-2305-1989 [5] Kanda, Luis Ricardo Shigueyuki 0000-0001-9426-6042 [5] Hájek, Martin [6] Stateva, Roumiana P 0000-0002-4834-8183 [7] Pastore, Carlo 0000-0003-0266-6570 (Corresponding author) [1]

Affiliations

  1. [1] Water Research Institute
  2. [NORA names: Italy; Europe, EU; OECD];
  3. [2] University of Southern Denmark
  4. [NORA names: SDU University of Southern Denmark; University; Denmark; Europe, EU; Nordic; OECD];
  5. [3] Consejo Nacional de Humanidades, Ciencias y Tecnologías
  6. [NORA names: Mexico; America, Central; OECD];
  7. [4] Instituto Tecnológico de Aguascalientes
  8. [NORA names: Mexico; America, Central; OECD];
  9. [5] Federal University of Paraná
  10. [NORA names: Brazil; America, South];

Abstract

In this work, a novel sustainable approach was proposed for the integral valorisation of Arctium lappa (burdock) seeds and roots. Firstly, a preliminary recovery of bioactive compounds, including unsaturated fatty acids, was performed. Then, simple sugars (i.e., fructose and sucrose) and phenolic compounds were extracted by using compressed fluids (supercritical CO2 and propane). Consequently, a complete characterisation of raw biomass and extraction residues was carried out to determine the starting chemical composition in terms of residual lipids, proteins, hemicellulose, cellulose, lignin, and ash content. Subsequently, three alternative ways to utilise extraction residues were proposed and successfully tested: (i) enzymatic hydrolysis operated by Cellulases (Thricoderma resei) of raw and residual biomass to glucose, (ii) direct ethanolysis to produce ethyl levulinate; and (iii) pyrolysis to obtain biochar to be used as supports for the synthesis of sulfonated magnetic iron-carbon catalysts (Fe-SMCC) to be applied in the dehydration of fructose for the synthesis of 5-hydroxymethylfurfural (5-HMF). The development of these advanced approaches enabled the full utilisation of this resource through the production of fine chemicals and value-added compounds in line with the principles of the circular economy.

Keywords

acid, advanced approach, alternative way, approach, ash, ash content, bioactive compounds, biochar, biomass, biorefining, burdock, burdock seeds, catalyst, cellulase, cellulose, characterisation, chemical, chemical composition, circular economy, composition, compounds, compressible fluid, content, dehydration, dehydration of fructose, development, economy, enzymatic hydrolysis, ethanolysis, ethyl, ethyl levulinate, extraction, extraction residue, fatty acids, fluid, fructose, glucose, hemicellulose, hydrolysis, integral valorisation, levulinate, lignin, lipid, phenolic compounds, preliminary recovery, production, protein, pyrolysis, raw biomass, recovery of bioactive compounds, residual biomass, residual lipids, residues, resources, root, seed, sugar, sustainable approach, synthesis, synthesis of 5-hydroxymethylfurfural, unsaturated fatty acids, utilisation, valorisation, value-added compounds, way

Funders

  • European Commission

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