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Summary & Details

The Issues in Microalgae Biofuel Production and Efforts to Solve Them (2nd Report) A Study on the Production of Gasoline Alternative Fuels, Maximization of CO₂ Reduction Efficiency, Improvement of Lipid Productivity

微細藻類バイオ燃料生産の課題と解決に向けた取組み（第2報）ガソリン代替燃料生産検討，CO₂削減率の最大化，油脂生産効率の向上

Delivery: Available on this site

Format: PDF

Price: Non-members (tax incl.)：￥1,100 Members (tax incl.)：￥880

Publication code: 20265368

Paper/Info type: Proceedings (Spring)

No.85-26

Pages: 1-6(Total 6 p)

Date of publication: May 2026

Publisher: JSAE

Language: Japanese

Event: 2026 JSAE Annual Congress (Spring)

Detailed Information

Author(J)	1) 前田真一郎, 2) 興梠武久, 3) 岡崎久美子, 4) 栗田朋和, 5) 岩井雅子, 6) 太田啓之, 7) 西山佳孝, 8) 山本卓, 9) 坂本敦, 10) 山下洋幸
Author(E)	1) Shinichiro Maeda, 2) Takehisa Koroki, 3) Kumiko Okazaki, 4) Tomokazu Kurita, 5) Masako Iwai, 6) Hiroyuki Ohta, 7) Yoshitaka Nishiyama, 8) Takashi Yamamoto, 9) Atsushi Sakamoto, 10) Hiroyuki Yamashita
Affiliation(J)	1) マツダ, 2) マツダ, 3) 広島大学, 4) 広島大学, 5) ファイトリピッド･テクノロジーズ, 6) 東京科学大学／ファイトリピッド･テクノロジーズ, 7) 埼玉大学, 8) 広島大学, 9) 広島大学, 10) マツダ
Affiliation(E)	1) Mazda, 2) Mazda, 3) Hiroshima University, 4) Hiroshima University, 5) Phytolipid Technologies, 6) Institute of Science Tokyo/Phytolipid Technologies, 7) Saitama University, 8) Hiroshima University, 9) Hiroshima University, 10) Mazda
Abstract(J)	生産性が高く食糧競合が無い微細藻類バイオ燃料は，カーボンニュートラルな次世代液体燃料の有力候補である．マツダでは海産性微細藻類ナンノクロロプシスによる燃料生産の研究に産学連携で取組んでいる．これまで，培養～燃料製造プロセスのモデル化によるボトルネック領域の明確化と，解決に向けた取組みについて報告したが，本報告ではCO₂排出削減のボトルネック領域の明確化と，解決のための廃エネルギー/物質を利用した取組みを報告する． Translation
Abstract(E)	Microalgae biofuels, characterized by high productivity and non-competition with food resources, are regarded as promising candidates for next-generation carbon-neutral liquid fuels. Mazda has been conducting research on fuel production using the marine microalga Nannochloropsis through industry–academia collaboration. Previous reports have described the modeling of processes from cultivation to fuel production, the identification of bottleneck areas, and efforts undertaken to resolve them. This paper reports on the identification of bottleneck areas in CO₂ emission reduction and presents initiatives that utilize waste energy and waste materials to address these challenges.

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