Low‐carbon pyrolysis of vacuum gas oil by non‐thermal plasma

The constant growth in the share of renewable electricity and the need to reduce CO 2 emissions create prospects for the development of non‐thermal plasma (NTP) pyrolysis of heavy oil. NTP pyrolysis requires only electricity and does not require heating of raw materials to high temperatures, which s...

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Veröffentlicht in:Plasma processes and polymers 2024-07
Hauptverfasser: Titov, Evgeniy Yurevich, Bodrikov, Ivan Vasilevich, Vasiliev, Alexander Leonidovich, Ivanova, Anna Gennadievna, Golovin, Andrey Leonidovich, Shirokov, Dmitry Alekseevich, Kurskii, Yuriy Alekseevich, Titov, Dmitry Yurievich, Bodrikova, Evgenia Ruslanovna
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Sprache:eng
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Zusammenfassung:The constant growth in the share of renewable electricity and the need to reduce CO 2 emissions create prospects for the development of non‐thermal plasma (NTP) pyrolysis of heavy oil. NTP pyrolysis requires only electricity and does not require heating of raw materials to high temperatures, which significantly reduces the carbon footprint during processing. This paper investigates the characteristics of NTP pyrolysis of vacuum gas oil under the action of electric microsecond discharges in the liquid phase, depending on the voltage of the current source 300–700 V to optimize energy consumption, conversion of raw materials, and increase the yield of commercial demand products.
ISSN:1612-8850
1612-8869
DOI:10.1002/ppap.202400061