Bio-oil upgrading by emulsification/microemulsification: A review

Lijian Leng; Hui Li; Xingzhong Yuan; Wenguang Zhou; Huajun Huang

doi:10.1016/j.energy.2018.07.117

Bio-oil upgrading by emulsification/microemulsification: A review

Lijian Leng, Hui Li, Xingzhong Yuan, Wenguang Zhou, Huajun Huang

Bioproducts and Biosystems Engineering

Research output: Contribution to journal › Review article › peer-review

131 Scopus citations

Abstract

Bio-oil, which is produced from pyrolysis and hydrothermal liquefaction of biomass, is becoming one of the most promising renewable and sustainable fuels to replace fossil fuels. It is clean and environmentally benign with some fuel properties similar to petrodiesel. However, the poor fuel properties of bio-oil such as high water content, low pH, and high viscosity challenge its direct application as a fuel in diesel engines. This paper presents the fuel properties of bio-oil from different biomass produced by pyrolysis or hydrothermal liquefaction under varied conditions. Then a comprehensive review and discussion is provided on upgrading of bio-oil by emulsification/microemulsification with diesel and biodiesel or their mixtures. The review finds that most fuel properties of bio-oil can be improved considerably after upgradation, and the resultant emulsion/microemulsion hybrid fuel can be used on diesel engines with reduced emissions of some pollutants. However, there are still many issues remain to be resolved, e.g., the stability and acidity (corrosivity) of the fuel system, before this bio-oil upgrading technology can be scaled up and commercialized. Strategies such as pretreatment of bio-oil, optimization of the use of base oil, surfactant, co-surfactant, and additives, and the selection of emulsion/microemulsion preparation methods should be further investigated for enhancing bio-oil upgrading by emulsification/microemulsification.

Original language	English (US)
Pages (from-to)	214-232
Number of pages	19
Journal	Energy
Volume	161
DOIs	https://doi.org/10.1016/j.energy.2018.07.117
State	Published - Oct 15 2018

Bibliographical note

Funding Information:
The study was supported by the National Natural Science Foundation of China (Nos. 51668044 , 21707056 , and 21276069 ), the Key Research Development Program of the Jiangxi Province of China (Nos. 20161BBH80029 and 20171BBG70036 ), the Talent Program for Distinguished Young Scholars of Jiangxi Province of China (No. 20171BCB23015 ), and the Key Science and Technology Research Program of Department of Education of the Jiangxi Province of China (No. 150029 ).

Keywords

Bio-crude oil
Bio-surfactant
Diesel/biodiesel blends
Emulsifier
Emulsion
Fuel properties
Microemulsion
Phase separation
Stability

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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title = "Bio-oil upgrading by emulsification/microemulsification: A review",

abstract = "Bio-oil, which is produced from pyrolysis and hydrothermal liquefaction of biomass, is becoming one of the most promising renewable and sustainable fuels to replace fossil fuels. It is clean and environmentally benign with some fuel properties similar to petrodiesel. However, the poor fuel properties of bio-oil such as high water content, low pH, and high viscosity challenge its direct application as a fuel in diesel engines. This paper presents the fuel properties of bio-oil from different biomass produced by pyrolysis or hydrothermal liquefaction under varied conditions. Then a comprehensive review and discussion is provided on upgrading of bio-oil by emulsification/microemulsification with diesel and biodiesel or their mixtures. The review finds that most fuel properties of bio-oil can be improved considerably after upgradation, and the resultant emulsion/microemulsion hybrid fuel can be used on diesel engines with reduced emissions of some pollutants. However, there are still many issues remain to be resolved, e.g., the stability and acidity (corrosivity) of the fuel system, before this bio-oil upgrading technology can be scaled up and commercialized. Strategies such as pretreatment of bio-oil, optimization of the use of base oil, surfactant, co-surfactant, and additives, and the selection of emulsion/microemulsion preparation methods should be further investigated for enhancing bio-oil upgrading by emulsification/microemulsification.",

keywords = "Bio-crude oil, Bio-surfactant, Diesel/biodiesel blends, Emulsifier, Emulsion, Fuel properties, Microemulsion, Phase separation, Stability",

author = "Lijian Leng and Hui Li and Xingzhong Yuan and Wenguang Zhou and Huajun Huang",

note = "Funding Information: The study was supported by the National Natural Science Foundation of China (Nos. 51668044 , 21707056 , and 21276069 ), the Key Research Development Program of the Jiangxi Province of China (Nos. 20161BBH80029 and 20171BBG70036 ), the Talent Program for Distinguished Young Scholars of Jiangxi Province of China (No. 20171BCB23015 ), and the Key Science and Technology Research Program of Department of Education of the Jiangxi Province of China (No. 150029 ).",

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AU - Leng, Lijian

AU - Li, Hui

AU - Yuan, Xingzhong

AU - Zhou, Wenguang

AU - Huang, Huajun

N1 - Funding Information: The study was supported by the National Natural Science Foundation of China (Nos. 51668044 , 21707056 , and 21276069 ), the Key Research Development Program of the Jiangxi Province of China (Nos. 20161BBH80029 and 20171BBG70036 ), the Talent Program for Distinguished Young Scholars of Jiangxi Province of China (No. 20171BCB23015 ), and the Key Science and Technology Research Program of Department of Education of the Jiangxi Province of China (No. 150029 ).

PY - 2018/10/15

Y1 - 2018/10/15

N2 - Bio-oil, which is produced from pyrolysis and hydrothermal liquefaction of biomass, is becoming one of the most promising renewable and sustainable fuels to replace fossil fuels. It is clean and environmentally benign with some fuel properties similar to petrodiesel. However, the poor fuel properties of bio-oil such as high water content, low pH, and high viscosity challenge its direct application as a fuel in diesel engines. This paper presents the fuel properties of bio-oil from different biomass produced by pyrolysis or hydrothermal liquefaction under varied conditions. Then a comprehensive review and discussion is provided on upgrading of bio-oil by emulsification/microemulsification with diesel and biodiesel or their mixtures. The review finds that most fuel properties of bio-oil can be improved considerably after upgradation, and the resultant emulsion/microemulsion hybrid fuel can be used on diesel engines with reduced emissions of some pollutants. However, there are still many issues remain to be resolved, e.g., the stability and acidity (corrosivity) of the fuel system, before this bio-oil upgrading technology can be scaled up and commercialized. Strategies such as pretreatment of bio-oil, optimization of the use of base oil, surfactant, co-surfactant, and additives, and the selection of emulsion/microemulsion preparation methods should be further investigated for enhancing bio-oil upgrading by emulsification/microemulsification.

AB - Bio-oil, which is produced from pyrolysis and hydrothermal liquefaction of biomass, is becoming one of the most promising renewable and sustainable fuels to replace fossil fuels. It is clean and environmentally benign with some fuel properties similar to petrodiesel. However, the poor fuel properties of bio-oil such as high water content, low pH, and high viscosity challenge its direct application as a fuel in diesel engines. This paper presents the fuel properties of bio-oil from different biomass produced by pyrolysis or hydrothermal liquefaction under varied conditions. Then a comprehensive review and discussion is provided on upgrading of bio-oil by emulsification/microemulsification with diesel and biodiesel or their mixtures. The review finds that most fuel properties of bio-oil can be improved considerably after upgradation, and the resultant emulsion/microemulsion hybrid fuel can be used on diesel engines with reduced emissions of some pollutants. However, there are still many issues remain to be resolved, e.g., the stability and acidity (corrosivity) of the fuel system, before this bio-oil upgrading technology can be scaled up and commercialized. Strategies such as pretreatment of bio-oil, optimization of the use of base oil, surfactant, co-surfactant, and additives, and the selection of emulsion/microemulsion preparation methods should be further investigated for enhancing bio-oil upgrading by emulsification/microemulsification.

KW - Bio-crude oil

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KW - Diesel/biodiesel blends

KW - Emulsifier

KW - Emulsion

KW - Fuel properties

KW - Microemulsion

KW - Phase separation

KW - Stability

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DO - 10.1016/j.energy.2018.07.117

M3 - Review article

AN - SCOPUS:85050886531

SN - 0360-5442

VL - 161

SP - 214

EP - 232

JO - Energy

JF - Energy

ER -

Bio-oil upgrading by emulsification/microemulsification: A review

Abstract

Bibliographical note

Keywords

UN SDGs

Access

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