Upgrading Algae Biocrude for a Low-Nitrogen-Containing Biofuel: Compositions, Intermediates, and Reaction Routes

Bingwei Zhao; Ze Shi; Xiaoyi Yang

doi:10.1021/acs.iecr.7b01405

Upgrading Algae Biocrude for a Low-Nitrogen-Containing Biofuel: Compositions, Intermediates, and Reaction Routes

Bingwei Zhao
, Ze Shi
, Xiaoyi Yang^*

^*Corresponding author for this work

School of Energy and Power Engineering

Beihang University

Research output: Contribution to journal › Article › peer-review

21 Scopus citations

Abstract

The upgrading of algae biocrude (obtained by hydrothermal liquefaction) was studied under mild conditions. Here we adopted a guard catalyst to protect the core catalyst and obtained algae biofuel with low heteroatom content at 350°C. The nitrogen content of biofuel is 0.016 wt %, and the calculated oxygen content is less than 0.51 wt %. Furthermore, the effective yield from biocrude to a low-heteroatom-containing biofuel was close to the theoretical yield. Through a detailed study of the upgrading process, the content variation trend of biocrude and biofuel compositions and their potential reaction pathways were revealed. The results indicated that hydrogenation reactions almost finished after upgrading at 350°C for 15-30 min. (Figure Presented).

Original language	English
Pages (from-to)	6378-6390
Number of pages	13
Journal	Industrial and Engineering Chemistry Research
Volume	56
Issue number	22
DOIs	https://doi.org/10.1021/acs.iecr.7b01405
State	Published - 7 Jun 2017

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title = "Upgrading Algae Biocrude for a Low-Nitrogen-Containing Biofuel: Compositions, Intermediates, and Reaction Routes",

abstract = "The upgrading of algae biocrude (obtained by hydrothermal liquefaction) was studied under mild conditions. Here we adopted a guard catalyst to protect the core catalyst and obtained algae biofuel with low heteroatom content at 350°C. The nitrogen content of biofuel is 0.016 wt \%, and the calculated oxygen content is less than 0.51 wt \%. Furthermore, the effective yield from biocrude to a low-heteroatom-containing biofuel was close to the theoretical yield. Through a detailed study of the upgrading process, the content variation trend of biocrude and biofuel compositions and their potential reaction pathways were revealed. The results indicated that hydrogenation reactions almost finished after upgrading at 350°C for 15-30 min. (Figure Presented).",

author = "Bingwei Zhao and Ze Shi and Xiaoyi Yang",

note = "Publisher Copyright: {\textcopyright} 2017 American Chemical Society.",

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T1 - Upgrading Algae Biocrude for a Low-Nitrogen-Containing Biofuel

T2 - Compositions, Intermediates, and Reaction Routes

AU - Zhao, Bingwei

AU - Shi, Ze

AU - Yang, Xiaoyi

PY - 2017/6/7

Y1 - 2017/6/7

N2 - The upgrading of algae biocrude (obtained by hydrothermal liquefaction) was studied under mild conditions. Here we adopted a guard catalyst to protect the core catalyst and obtained algae biofuel with low heteroatom content at 350°C. The nitrogen content of biofuel is 0.016 wt %, and the calculated oxygen content is less than 0.51 wt %. Furthermore, the effective yield from biocrude to a low-heteroatom-containing biofuel was close to the theoretical yield. Through a detailed study of the upgrading process, the content variation trend of biocrude and biofuel compositions and their potential reaction pathways were revealed. The results indicated that hydrogenation reactions almost finished after upgrading at 350°C for 15-30 min. (Figure Presented).

AB - The upgrading of algae biocrude (obtained by hydrothermal liquefaction) was studied under mild conditions. Here we adopted a guard catalyst to protect the core catalyst and obtained algae biofuel with low heteroatom content at 350°C. The nitrogen content of biofuel is 0.016 wt %, and the calculated oxygen content is less than 0.51 wt %. Furthermore, the effective yield from biocrude to a low-heteroatom-containing biofuel was close to the theoretical yield. Through a detailed study of the upgrading process, the content variation trend of biocrude and biofuel compositions and their potential reaction pathways were revealed. The results indicated that hydrogenation reactions almost finished after upgrading at 350°C for 15-30 min. (Figure Presented).

UR - https://www.scopus.com/pages/publications/85021109174

U2 - 10.1021/acs.iecr.7b01405

DO - 10.1021/acs.iecr.7b01405

M3 - 文章

AN - SCOPUS:85021109174

SN - 0888-5885

VL - 56

SP - 6378

EP - 6390

JO - Industrial and Engineering Chemistry Research

JF - Industrial and Engineering Chemistry Research

IS - 22

ER -

Upgrading Algae Biocrude for a Low-Nitrogen-Containing Biofuel: Compositions, Intermediates, and Reaction Routes

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