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Integration of chemical catalysis with extractive fermentation to produce fuels

Author

Listed:
  • Pazhamalai Anbarasan

    (University of California
    Energy Biosciences Institute, University of California)

  • Zachary C. Baer

    (Energy Biosciences Institute, University of California
    University of California)

  • Sanil Sreekumar

    (University of California
    Energy Biosciences Institute, University of California)

  • Elad Gross

    (University of California
    Lawrence Berkeley National Laboratory, 1 Cyclotron Road, Berkeley, California 94720, USA)

  • Joseph B. Binder

    (Energy Biosciences Institute, University of California)

  • Harvey W. Blanch

    (Energy Biosciences Institute, University of California
    University of California)

  • Douglas S. Clark

    (Energy Biosciences Institute, University of California
    University of California)

  • F. Dean Toste

    (University of California
    Energy Biosciences Institute, University of California
    Lawrence Berkeley National Laboratory, 1 Cyclotron Road, Berkeley, California 94720, USA)

Abstract

The integration of biological and chemocatalytic routes can be used to convert acetone–butanol–ethanol fermentation products efficiently into ketones by palladium-catalysed alkylation, leading to a renewable method for the alternative production of petrol, jet and diesel blend stocks in high yield.

Suggested Citation

  • Pazhamalai Anbarasan & Zachary C. Baer & Sanil Sreekumar & Elad Gross & Joseph B. Binder & Harvey W. Blanch & Douglas S. Clark & F. Dean Toste, 2012. "Integration of chemical catalysis with extractive fermentation to produce fuels," Nature, Nature, vol. 491(7423), pages 235-239, November.
  • Handle: RePEc:nat:nature:v:491:y:2012:i:7423:d:10.1038_nature11594
    DOI: 10.1038/nature11594
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    Citations

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    Cited by:

    1. Xu, Xiwei & Jiang, Enchen & Li, Zhiyu & Zhu, Xiongfa & Sun, Yan & Tu, Ren, 2019. "Alkene and benzene derivate obtained from catalytic reforming of acetone-butanol-ethanol (ABE) from carbohydrates fermentation broth," Renewable Energy, Elsevier, vol. 135(C), pages 1213-1223.
    2. Ketabchi, Elham & Pastor-Pérez, Laura & Reina, Tomas Ramirez & Arellano-García, Harvey, 2020. "Catalytic upgrading of acetone, butanol and ethanol (ABE): A step ahead for the production of added value chemicals in bio-refineries," Renewable Energy, Elsevier, vol. 156(C), pages 1065-1075.
    3. Zhang, Rui & He, Yuting & Luo, Yuehui & Lou, DanFeng & Zhu, Rui & Zhu, Can & Li, Quanxin, 2023. "Selective preparation of jet fuels from low carbon alcohols and ABE at atmospheric pressure," Energy, Elsevier, vol. 281(C).
    4. Nogueira, Cleitiane da Costa & Padilha, Carlos Eduardo de Araújo & Dantas, Júlia Maria de Medeiros & Medeiros, Fábio Gonçalves Macêdo de & Guilherme, Alexandre de Araújo & Souza, Domingos Fabiano de S, 2021. "In-situ detoxification strategies to boost bioalcohol production from lignocellulosic biomass," Renewable Energy, Elsevier, vol. 180(C), pages 914-936.
    5. Sabarathinam Shanmugam & Anjana Hari & Arivalagan Pugazhendhi & Timo Kikas, 2023. "Integrated Catalytic Upgrading of Biomass-Derived Alcohols for Advanced Biofuel Production," Energies, MDPI, vol. 16(13), pages 1-24, June.
    6. Awasthi, Mukesh Kumar & Singh, Ekta & Binod, Parameswaran & Sindhu, Raveendran & Sarsaiya, Surendra & Kumar, Aman & Chen, Hongyu & Duan, Yumin & Pandey, Ashok & Kumar, Sunil & Taherzadeh, Mohammad J. , 2022. "Biotechnological strategies for bio-transforming biosolid into resources toward circular bio-economy: A review," Renewable and Sustainable Energy Reviews, Elsevier, vol. 156(C).
    7. Bao, Xiuchao & Jiang, Yizhou & Xu, Hongming & Wang, Chongming & Lattimore, Thomas & Tang, Lan, 2017. "Laminar flame characteristics of cyclopentanone at elevated temperatures," Applied Energy, Elsevier, vol. 195(C), pages 671-680.
    8. Wang, Wei-Cheng & Tao, Ling, 2016. "Bio-jet fuel conversion technologies," Renewable and Sustainable Energy Reviews, Elsevier, vol. 53(C), pages 801-822.

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