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Upgrading of Jatropha-seed residue after mechanical extraction of oil via torrefaction

Author

Listed:
  • Hsu, Tsung-Chi
  • Chang, Chia-Chi
  • Yuan, Min-Hao
  • Chang, Ching-Yuan
  • Chen, Yi-Hung
  • Lin, Cheng-Fang
  • Ji, Dar-Ren
  • Shie, Je-Lueng
  • Manh, Do Van
  • Wu, Chao-Hsiung
  • Chiang, Sheng-Wei
  • Lin, Far-Ching
  • Lee, Duu-Jong
  • Huang, Michael
  • Chen, Yen-Hau

Abstract

This study examined the torrefaction performance of Jatropha-seed residue after mechanical screw-press extraction of oil (denoted as JME) at fixed torrefaction temperature (Tr) of 533, 553 and 573 K in the torrefaction time (tr) range of 10–60 min. The characteristics results of torrefied JME (JMET) indicated that the mass yield decreases while dry-basis high heating value (HHD) increases with increasing Tr and tr. At tr = 20 min or longer and Tr of 533–573 K, the HHD of obtained JMET is suitable for B1/B2/D Taiwan power industry fuel requirement. In addition, the H/C and O/C atomic ratios of JMET are better (i.e., lower) than those of torrefied wood and close to those of lignite and sub-bituminous coal. The satisfactory energy densification (ED) of about 1.3 can be achieved for Case 1 at higher Tr of 573 K and shorter tr of 30 min with log severity factor (logSF) of 7.37 or Case 2 at lower Tr of 553 K and longer tr of 50 min with logSF of 7.00. The results indicated that Case 2 exhibits a lower value of SF than Case 1 at the same level of satisfactory ED, which is more beneficial for the torrefaction of JME.

Suggested Citation

  • Hsu, Tsung-Chi & Chang, Chia-Chi & Yuan, Min-Hao & Chang, Ching-Yuan & Chen, Yi-Hung & Lin, Cheng-Fang & Ji, Dar-Ren & Shie, Je-Lueng & Manh, Do Van & Wu, Chao-Hsiung & Chiang, Sheng-Wei & Lin, Far-Ch, 2018. "Upgrading of Jatropha-seed residue after mechanical extraction of oil via torrefaction," Energy, Elsevier, vol. 142(C), pages 773-781.
    • Handle: RePEc:eee:energy:v:142:y:2018:i:c:p:773-781
    DOI: 10.1016/j.energy.2017.10.046
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    References listed on IDEAS

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    1. Chew, J.J. & Doshi, V., 2011. "Recent advances in biomass pretreatment – Torrefaction fundamentals and technology," Renewable and Sustainable Energy Reviews, Elsevier, vol. 15(8), pages 4212-4222.
    2. Michael Huang & Chia-Chi Chang & Min-Hao Yuan & Ching-Yuan Chang & Chao-Hsiung Wu & Je-Lueng Shie & Yen-Hau Chen & Yi-Hung Chen & Chungfang Ho & Wei-Ren Chang & Tzu-Yi Yang & Far-Ching Lin, 2017. "Production of Torrefied Solid Bio-Fuel from Pulp Industry Waste," Energies, MDPI, vol. 10(7), pages 1-13, July.
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    Cited by:

    1. Min-Hao Yuan & Chia-Chi Chang & Tsung-Chi Hsu & Je-Lueng Shie & Yi-Hung Chen & Ching-Yuan Chang & Cheng-Fang Lin & Chang-Ping Yu & Chao-Hsiung Wu & Manh Van Do & Far-Ching Lin & Duu-Jong Lee & Bo-Lian, 2021. "A Technical Analysis of Solid Recovered Fuel from Torrefied Jatropha Seed Residue via a Two-Stage Mechanical Screw Press and Solvent Extraction Process," Energies, MDPI, vol. 14(23), pages 1-13, November.
    2. Barskov, Stan & Zappi, Mark & Buchireddy, Prashanth & Dufreche, Stephen & Guillory, John & Gang, Daniel & Hernandez, Rafael & Bajpai, Rakesh & Baudier, Jeff & Cooper, Robbyn & Sharp, Richard, 2019. "Torrefaction of biomass: A review of production methods for biocoal from cultured and waste lignocellulosic feedstocks," Renewable Energy, Elsevier, vol. 142(C), pages 624-642.
    3. Sanjeet Mehariya & Rahul Kumar Goswami & Pradeep Verma & Roberto Lavecchia & Antonio Zuorro, 2021. "Integrated Approach for Wastewater Treatment and Biofuel Production in Microalgae Biorefineries," Energies, MDPI, vol. 14(8), pages 1-26, April.

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