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Enhanced microwave assisted pyrolysis of waste rice straw through lipid extraction with supercritical carbon dioxide.
Sikhom, Chanettee; Attard, Thomas M; Winotapun, Weerapath; Supanchaiyamat, Nontipa; Farmer, Thomas J; Budarin, Vitaliy; Clark, James H; Hunt, Andrew J.
Affiliation
  • Sikhom C; Green Chemistry Centre of Excellence, Department of Chemistry, University of York Heslington York YO10 5DD UK.
  • Attard TM; Department of Alternative Energy Development and Efficiency, Ministry of Energy 17 Rama I Road, Kasatsuk Bridge, Pathumwan Bangkok 10330 Thailand.
  • Winotapun W; Green Chemistry Centre of Excellence, Department of Chemistry, University of York Heslington York YO10 5DD UK.
  • Supanchaiyamat N; RX Extraction Ltd. Unit 10, Rowen Trade Estate Neville Road Bradford BD4 8TQ UK.
  • Farmer TJ; Research and Development Institute, The Government Pharmaceutical Organization Bangkok 10400 Thailand.
  • Budarin V; Materials Chemistry Research Center, Department of Chemistry and Center of Excellence for Innovation in Chemistry, Faculty of Science, Khon Kaen University Khon Kaen 40002 Thailand andrew@kku.ac.th.
  • Clark JH; Green Chemistry Centre of Excellence, Department of Chemistry, University of York Heslington York YO10 5DD UK.
  • Hunt AJ; Green Chemistry Centre of Excellence, Department of Chemistry, University of York Heslington York YO10 5DD UK.
RSC Adv ; 14(1): 29-45, 2024 Jan 02.
Article in En | MEDLINE | ID: mdl-38173606
ABSTRACT
A combination of supercritical carbon dioxide (scCO2) extraction and microwave-assisted pyrolysis (MAP) have been investigated for the valorisation of waste rice straw. ScCO2 extraction of rice straw led to a 0.7% dry weight yield of lipophilic molecules, at elevated temperatures of 65 °C and pressures of 400 bar. Lipid compositions (fatty acids, fatty alcohol, fatty aldehydes, steroid ketones, phytosterols, n-alkanes and wax esters) of the waxes obtained by scCO2 were comparable to those obtained Soxhlet extraction using the potentially toxic solvent n-hexane. ScCO2 extraction positively influenced the pyrolysis heating rate, with a rate of 420 K min-1 for particles of 500-2000 µm, compared to 240 K min-1 for the same particle size of untreated straw. Particle size significantly affected cellulose decomposition and the distribution of pyrolysis products (gaseous, liquid and char), highlighting the importance of selecting an adequate physical pre-treatment. TG and DTG of the original rice straw and resulting biochar produced indicated that cellulose was completely decomposed during the MAP. While a rapid pressure change occurred at ∼120 °C (size > 2000 µm) and ∼130 °C (size 500-2000 µm) during MAP and was associated with the production of incondensable gas during cellulose decomposition, this takes place at significantly lower temperatures than those observed with conventional pyrolysis, 320 °C. Wax removal by scCO2 influences the dielectric properties of the straw, enhancing microwave absorption with rapid heating rates and elevated final pyrolysis temperatures, illustrating the benefits of combining these sustainable technologies within a holistic rice straw biorefinery.

Full text: 1 Collection: 01-internacional Database: MEDLINE Language: En Journal: RSC Adv Year: 2024 Document type: Article Country of publication:

Full text: 1 Collection: 01-internacional Database: MEDLINE Language: En Journal: RSC Adv Year: 2024 Document type: Article Country of publication: