Litcius/Paper detail

Biorefining of pine cone forest waste: Ultrasound assisted extraction followed with thermal degradation for a zero waste process

Ravi Kumar, Gaurav A. Bhaduri

2024Industrial Crops and Products7 citationsDOIOpen Access PDF

Abstract

Pine cones tend to form a high amount of waste in the Himalayan region of India that is covered with dense pine forests. It is therefore important to develop an economical biorefinary model for utilisation of pine cone waste towards sustainable circular economy. In the current study ultrasound assisted extraction (UAE) followed by pyrolysis was studied and optimised for extracting maximum value added products from waste pine cones. In UAE parameters like soild-to-solvent ratio, temperature and ultrasound power was studied and optimised. The UAE was also compared with maceration and soxhelt extraction. The solid pine cone powder were characterised using scanning electron microscopy before and after extraction. The chemical analysis of extract showed a compositional change in ultrasound as compared to maceration. Peleg’s mathematical model was used for describing the extraction kinetics and to calculate the initial rate constant and equilibrium concentration for all investigational results. The activation energy of ultrasound extraction was 48.23 kJ mol −1 . The thermal degradation of the solid biomass after extraction was studied using thermogravimetric analyser. The results do not show any significant difference in the volatile matter content of the biomass before and after extraction using ultrasound or maceration. The treatment tends to enhance the volatile matter content of the pinecones. The char residue may be further used for soil enhancement applications leading to a sustainable zero waste process. • Sustainable zero-waste strategy for bio-refining to pine cone waste biomass. • Ultrasound Assisted Extraction was optimised for high yield of phytochemicals. • Phytochemicals were identified applicable for health-care applications. • Thermal degradation of residual extracted biomass for zero waste process.

Topics & Concepts

BiorefiningExtraction (chemistry)Degradation (telecommunications)Zero wastePulp and paper industryWaste managementProcess (computing)Environmental scienceZero (linguistics)ChemistryBiofuelChromatographyBiorefineryEngineeringComputer sciencePhilosophyOperating systemLinguisticsTelecommunicationsThermochemical Biomass Conversion ProcessesLignin and Wood ChemistryEnzyme-mediated dye degradation
Biorefining of pine cone forest waste: Ultrasound assisted extraction followed with thermal degradation for a zero waste process | Litcius