水生バイオマス由来オイルのアップグレーディング技術の開発  [in Japanese] Development of Upgrading of Technology of Oil Derived from Algae  [in Japanese]

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Author(s)

    • 銭 衛華 QIAN Eika W.
    • 東京農工大学大学院工学研究院 Department of Chemical Engineering, Tokyo University of Agriculture and Technology

Abstract

Sustainable economic and industrial growth requires safe, sustainable resource of energy. The 'thirdgeneration' biofuel derived from algae, and/or microalgae is a promising alternative because their high growth rate, high productivity, and high photosynthesis efficiency. The advance in various upgrading technologies to provide high quality of biofuel is introduced. (1) Firstly, the recovery methods of biooil or lipids derived from microalgal biomass, including harvesting methods, and extraction methods, and the properties of the biooil are reviewed. (2) Then, various upgrading technologies, including pyrolysis, transesterification, and hydrotreating are reviewed.

Journal

  • Journal of the Japan Institute of Energy

    Journal of the Japan Institute of Energy 91(11), 1177-1183, 2012-11-20

    The Japan Institute of Energy

References:  39

  • <no title>

    BABICH I. V.

    Biomass Bioenergy 35, 3199-3207, 2011

    Cited by (1)

  • <no title>

    BRENNAN L.

    Renew. Sustain. Ener. Review 14, 557-577, 2010

    Cited by (1)

  • <no title>

    MOLINA GRIM E.

    Biotechnology Advances 20(7-8), 494-515, 2003

    Cited by (1)

  • <no title>

    BOSMA R.

    Ultrasound, J Appl Phyco 15(2), 143-153, 2003

    Cited by (1)

  • <no title>

    WANG B.

    Applied Microbiology and Biotechnology 79(5), 707-718, 2008

    Cited by (1)

  • <no title>

    HEASMAN M.

    Aquaculture Research 31(8), 637-59, 2000

    Cited by (1)

  • <no title>

    MOHN F. H.

    Algal biomass, 547-571, 1980

    Cited by (1)

  • <no title>

    SUALI E.

    Renew Sus Energy Rev 16, 4316-4342, 2012

    Cited by (1)

  • <no title>

    BECKER E. W.

    Microalgae biotechnology and microbiology, 1994

    Cited by (1)

  • <no title>

    DEMIRBAS A.

    Energy Conver Manag 52, 163-170, 2011

    Cited by (1)

  • <no title>

    MENDES R. L.

    Food Chem 53, 99-103, 1995

    Cited by (1)

  • <no title>

    SIALVE B.

    Biotechnology Advance 27(4), 409-416, 2009

    Cited by (1)

  • <no title>

    HALIM R.

    Biotech Adv. 30, 709-732, 2012

    Cited by (1)

  • <no title>

    SHEEHAN J.

    A look back at the US Department of Energy's Aquatic Species Program-biodiesel from algae, 1998

    Cited by (1)

  • <no title>

    DEMIRBAS A.

    Energy Sources Part A 31, 163-168, 2009

    Cited by (1)

  • <no title>

    MA F.

    Bioresour Technol 70, 1, 1999

    Cited by (1)

  • <no title>

    ATABANI A. E.

    Renew Sus Ener Rev 16, 2070-2093, 2012

    Cited by (1)

  • <no title>

    BALAT M.

    Appl Energy 87(6), 1815-1835, 2010

    Cited by (1)

  • <no title>

    PARAWIRA W.

    Sci Res Essays 5(14), 1796-808, 2010

    Cited by (1)

  • <no title>

    SCHWAB A. W.

    J Am Oil Chem Soc 65(11), 1781-1786, 1988

    Cited by (1)

  • <no title>

    SHAHID E. M.

    Renew Sustain Energy Rev 15(9), 4732-45, 2011

    Cited by (1)

  • <no title>

    DEMIRBAS A. H.

    Energy Convers Manage 48(8), 2386-98, 2007

    Cited by (1)

  • <no title>

    KABE T.

    Hydrodesulfurization and Hydrodenitrogenation - Chemistry and Engineering, 1999

    Cited by (1)

  • <no title>

    HUBER G. W.

    Chem. Rev. 106, 4044, 2006

    Cited by (1)

  • <no title>

    ALEXANDER G.

    Catal. Today 156, 38-43, 2010

    Cited by (1)

  • <no title>

    PAVEL S.

    Fuel 88, 145-149, 2009

    Cited by (1)

  • <no title>

    PAVEL S.

    Fuel 89, 611-615, 2010

    Cited by (1)

  • <no title>

    KUBICKA D.

    Appl. Catal. A 372, 199-208, 2010

    Cited by (1)

  • <no title>

    DAVID K.

    Appl. Catal. A 372, 199, 2010

    Cited by (1)

  • <no title>

    LUDEK K.

    Appl. Catal. A 326, 236-244, 2007

    Cited by (1)

  • <no title>

    MARTON K.

    Fuel Proc. Technol. 92, 886-892, 2011

    Cited by (1)

  • <no title>

    HANCSOK J.

    Micro. Meso. Mater. 101, 148-152, 2007

    Cited by (1)

  • <no title>

    GONG S.

    Energy Fuel 26, 2394-2399, 2012

    Cited by (1)

  • <no title>

    HANCSOK J.

    Stud. Surf. Sci. Catal. 170, 1605-1610, 2007

    Cited by (1)

  • <no title>

    PARK K. C.

    Appl. Cara. A 203, 201-209, 2000

    Cited by (1)

  • <no title>

    MILLS G. A.

    Ind. Eng. Chem. 45, 134-137, 1953

    Cited by (1)

  • <no title>

    CHU H. Y.

    J. Catal. 178, 352-362, 1998

    Cited by (1)

  • <no title>

    BAERLOCHER C.

    Atlas of zeolite framework types, 2007

    Cited by (1)

  • Development of Methods and Catalysts for Production of Biomaterials  [in Japanese]

    QIAN Eika W.

    Journal of the Japan Institute of Energy 90(6), 518-525, 2011-06-20

    References (77) Cited by (1)

Codes

  • NII Article ID (NAID)
    110009560466
  • NII NACSIS-CAT ID (NCID)
    AN10373883
  • Text Lang
    JPN
  • Article Type
    REV
  • ISSN
    09168753
  • NDL Article ID
    024104436
  • NDL Call No.
    Z17-119
  • Data Source
    CJP  NDL  NII-ELS 
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