Thermal processing of waste tires with heavy oil residue in the presence of Tayzhuzgen zeolite
Title
Thermal processing of waste tires with heavy oil residue in the presence of Tayzhuzgen zeolite
Subject
Crude oil
Mass spectrometry
Heavy oil production
Liquids
Catalysts
Scanning electron microscopy
Gas chromatography
Silica
Zeolites
Heat treatment
Thermogravimetric analysis
X ray powder diffraction
Gravimetric analysis
Liquid chromatography
Alumina
Aluminum oxide
Tires
Surface structure
Description
A thermal processing of waste tires in the presence of a natural zeolite catalyst from the "Tayzhuzgen" field (Eastern Kazakhstan) is detailed. The hydrogen sources utilized were heavy residues from oil refinement. The elemental and phase composition of the catalyst and its surface structure were characterized by scanning electron microscopy and X-ray diffraction analysis. The waste tire sample was also studied by thermal gravimetric analysis. It was determined that the SiO2:Al2O3 ratio of 4.57:1 for the natural zeolite refers to clinoptilolite mineral. The use of the "Tayzhuzgen" zeolite in the thermal processing of waste tires has the following advantages, such as low process temperature, low amount of catalyst and high yield of liquid products compared to other published thermal catalytic methods. The composition of liquid products was found using gas chromatography with mass spectrometric detection. It was concluded that the liquid product obtained by thermal catalytic processing of waste tires with heavy oil residue in the presence of the "Tayzhuzgen" zeolite, can be used not only as a fuel but also as a raw material for obtaining alkylbenzene compounds. 2019, Springer Japan KK, part of Springer Nature.
633-641
21
Publisher
Journal of Material Cycles and Waste Management
Date
2019
Contributor
Burkhanbekov, Kairat
Aubakirov, Yermek
Tashmukhambetova, Zheneta
Abildin, Tleutay
Type
journalArticle
Identifier
14384957
10.1007/s10163-018-00825-x
Collection
Citation
“Thermal processing of waste tires with heavy oil residue in the presence of Tayzhuzgen zeolite,” Lamar University Midstream Center Research, accessed May 14, 2024, https://lumc.omeka.net/items/show/24840.