Synthesis of carbon nanotubes from biofuel as a carbon source through a diesel engine

Carbon nanotube (CNT) was synthesized during combustion in a diesel engine by using biodiesel, fatty-acid methyl ester (FAME), as main fuel. Ethanol which is also known as biomass-derived material was blended with main fuel. These mixed fuel acted as a carbon and heat source. Ferrocene as a catalyst...

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Bibliographic Details
Published in:Diamond and related materials 2018-02, Vol.82, p.79-86
Main Authors: Suzuki, S., Mori, S.
Format: Article
Language:English
Subjects:
Biodiesel
Biodiesel fuels
Biomass
Carbon
Carbon nanotube
Carbon nanotubes
Chemical synthesis
Combustion reactor
Comparative studies
Decanol
Diesel engine
Diesel engines
Dodecane
Electrical resistivity
Ethanol
Exhaust gases
Flame ionization detectors
Flame synthesis
Gas chromatography
Ionization
Thermal conductivity
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Summary:Carbon nanotube (CNT) was synthesized during combustion in a diesel engine by using biodiesel, fatty-acid methyl ester (FAME), as main fuel. Ethanol which is also known as biomass-derived material was blended with main fuel. These mixed fuel acted as a carbon and heat source. Ferrocene as a catalyst source for CNT growth and molybdenum/sulfur as a promoter were added into mixed fuel. CNTs produced in each experimental condition were assessed mainly by scanning electron microscope and transmission electron microscope whether CNT was really synthesized or not. Gas compositions of an exhaust from an engine were examined by two types of gas chromatograph, thermal conductivity detector for O2, CO, CO2 and flame ionization detector for C1–C3 low molecular hydrocarbons. As a comparative study, experiments using 1-decanol and n-dodecane as main fuel were carried out. The former is an emerging material which has been applied for a diesel engine operation in recent years. The latter has been utilized as surrogate fuel of commercial transport fuel in order to mimic several properties of real fuel. Obtained results indicated that FAME and 1-decanol had a propensity to produce larger CO amount which led to CNT formation than that produced from n-dodecane based fuel even at a low ethanol fraction in fuel. We believe that our outcomes will provide fruitful information that high-valued material like CNT can be produced from biomass-derived materials through a diesel engine which generates electrical power in addition to CNT production. [Display omitted] •Carbon nanotube was synthesized through a diesel engine.•The mixture of biodiesel and ethanol was used as fuel.•Carbon monoxide was implied as an important precursor.
ISSN:0925-9635
1879-0062
DOI:10.1016/j.diamond.2018.01.003