A novel approach of waste tires rubber utilization via ambient air direct current arc discharge plasma

A novel approach of waste tires rubber utilization via ambient air direct current arc discharge plasma

Waste tires rubber utilization is one of the most important problems worldwide that affects environmental and energy aspects. In this work, we propose a method for obtaining ultrafine carbon product, as well as mixture of methane and synthesis gas, which is based on the generation of an electric arc...

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Bibliographic Details
Published in:Fuel processing technology Vol. 227; p. 107111
Main Authors: Pak, A.Ya, Larionov, K.B., Kolobova, E.N., Slyusarskiy, K.V., Bolatova, J., Yankovsky, S.A., Stoyanovskii, V.O., Vassilyeva, Yu.Z, Gubin, V.E.
Format: Journal Article
Language:English
Published: Amsterdam Elsevier B.V 01-03-2022
Elsevier Science Ltd
Subjects:
Carbon
Carbon monoxide
DC arc plasma
Direct current
Electric arcs
Energy consumption
Gas flow
Gas phase products
Gases
Methane
Oxidation
Physical-chemical characteristics
Rubber
Synthesis gas
Tires
Ultrafines
Waste tires rubber
Waste tires rubber
DC arc plasma
Gas phase products
Physical-chemical characteristics
Carbon
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Summary:Waste tires rubber utilization is one of the most important problems worldwide that affects environmental and energy aspects. In this work, we propose a method for obtaining ultrafine carbon product, as well as mixture of methane and synthesis gas, which is based on the generation of an electric arc plasma in an open-air environment. During arcing the resulting gas flow screens the reaction zone, which prevents the oxidation of the feedstock and synthesis products. This approach allows avoiding a vacuum and gas equipment as a part of a plasma reactor, which greatly simplifies its design and reduces the specific energy consumption. As a result of a series of experiments, two types of products were obtained: 1) ultrafine carbon powder containing micro and nanoscale objects with a graphite-like structure; 2) a mixture of gases, which contains up to 27, 15, and 3 vol% of methane CH4, hydrogen H2 and carbon monoxide CO, respectively. [Display omitted] •The self-shieling effect occurs during waste tire rubber processing by plasma in air.•Ultrafine carbon was obtained by plasma processing of waste tires in air conditions.•Gases released during tire plasma processing majorly consist of methane and hydrogen.
ISSN:0378-3820
1873-7188
DOI:10.1016/j.fuproc.2021.107111