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Pulsed Discharge Plasma Helps in Heavy Oil Conversion

May 24, 2023

The heavier trend of crude oil in the world is serious. It is a challenging task to make full use of heavy oil in an efficient and clean way.

Plasma technology is a potential approach to tackle this problem without catalysts, high-temperature and high-pressure conditions during the reaction. It also has advantages of short process flow, low carbon emissions and wide material adaptability. However, this technology is complicated due to the inert nature of heavy oil.

Researchers led by Prof. SHAO Tao from the Institute of Electrical Engineering (IEE) of the Chinese Academy of Sciences (CAS) and their collaborators have explored the conversion laws and reaction mechanisms of plasma-enabled heavy oil conversion using different types of pulsed discharge plasma, and converted heavy oil into acetylene, carbon materials or cycloalkanes.

With microsecond pulsed spark discharge plasma, the researchers investigated heavy oil cracking characteristics in terms of pulse voltage, pulse repetition frequency and discharge power. Emission spectral analysis revealed the rapid heating and cooling mechanism of the pulsed spark plasma.

They achieved one-step cracking of heavy oil into acetylene, hydrogen and nano-carbon materials, with heavy oil conversion rate of 50.4%, acetylene yield of 19.7%, and energy consumption of 55.4 kWh/m3.

Moreover, using pulsed dielectric barrier discharge plasma, the researchers realized non-catalytic aromatics hydrogenation to cycloalkanes at mild conditions, which has broken the limitation of catalysts and harsh conditions in conventional heavy oil processing.

Isotope conversion experiment and density functional theory calculation revealed the mechanism and kinetic process of hydrogen radical hydrogenation, which laid a foundation for the study of plasma mass oil hydrogenation process.

Related findings were published in Chemical Engineering Journal with the title "Catalyst-free toluene hydrogenation to methyl-cyclohexane by pulsed DBD plasma under ambient conditions" and "One-step high-value conversion of heavy oil into H2, C2H2 and carbon nanomaterials by non-thermal plasma".

 

Fig. 1 Cycloalkanes prepared by pulsed dielectric barrier discharge plasma (Image by IEE) 

 

Fig. 2 Application scenario of plasma-enabled heavy oil processing (Image by IEE) 

Contact

SUN Hao

Institute of Electrical and Engineering

E-mail:

Catalyst-free toluene hydrogenation to methyl-cyclohexane by pulsed DBD plasma under ambient conditions

One-step high-value conversion of heavy oil into H2, C2H2 and carbon nanomaterials by non-thermal plasma

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