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Catalytic pyrolysis of waste tire using Cu- and Zn-modified catalysts

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dc.contributor.advisor Sirirat Jitkarnka
dc.contributor.author Ritthichai Yuwapornpanit
dc.contributor.other Chulalongkorn University. The Petroleum and Petrochemical College
dc.date.accessioned 2021-09-29T03:55:33Z
dc.date.available 2021-09-29T03:55:33Z
dc.date.issued 2014
dc.identifier.uri http://cuir.car.chula.ac.th/handle/123456789/77344
dc.description Thesis (M.Sc.)--Chulalongkorn University, 2014 en_US
dc.description.abstract This work studied the effects of Cu- and Zn-loaded catalysts on waste tire pyrolysis products. Several researchers succeeded in the uses of copper in selective hydrogenation applications and the uses of zinc in light alkane aromatization applications for producing petrochemicals. Furthermore, copper and zinc have been used to produce adsorbents for removing S-containing compounds in liquid fuels as well. So, if copper- and zinc-loaded catalysts are used for waste tire pyrolysis, the quality of tire-derived oils might be improved in the terms of sulfur reduction, and/or the valuable petrochemicals might be increasingly produced as well. From the experimental results, copper on different zeolite supports exhibited the same activities that it can increase cracking, hydrogenation and ring-opening activities of zeolite supports, but the change of product compositions were different because the interaction between copper and supports was relevant. Likewise, zinc exhibited the same ability on different zeolite supports that it promoted cracking, hydrogenation, ring-opening and aromatization activities. The change of product compositions was in the same trend. The produced oils were composed of a high concentration of mono-aromatics as compared with the oils in the pure zeolite cases. Moreover, the introduction of copper or zinc onto the zeolite supports can also reduce the sulfur distribution in oils (from 17.8-21.2 w t% S for pure zeolite cases to 12.2-18.8 w t% S for in copper- or zinc-loaded catalyst cases, based on S content in tire). Thermal and catalytic pyrolysis of waste tire can produce oils containing a high concentration of mono-aromatics (39.3-58.2 w t% in oil). The mono-aromatics produced in a high amount were benzene (except 5 w t% Cu/FIBETA), together with cumene and ethylbenzene in Cu- and Zn-loaded catalyst cases, respectively.
dc.description.abstractalternative This work studied the effects of Cu- and Zn-loaded catalysts on waste tire pyrolysis products. Several researchers succeeded in the uses of copper in selective hydrogenation applications and the uses of zinc in light alkane aromatization applications for producing petrochemicals. Furthermore, copper and zinc have been used to produce adsorbents for removing S-containing compounds in liquid fuels as well. So, if copper- and zinc-loaded catalysts are used for waste tire pyrolysis, the quality of tire-derived oils might be improved in the terms of sulfur reduction, and/or the valuable petrochemicals might be increasingly produced as well. From the experimental results, copper on different zeolite supports exhibited the same activities that it can increase cracking, hydrogenation and ring-opening activities of zeolite supports, but the change of product compositions were different because the interaction between copper and supports was relevant. Likewise, zinc exhibited the same ability on different zeolite supports that it promoted cracking, hydrogenation, ring-opening and aromatization activities. The change of product compositions was in the same trend. The produced oils were composed of a high concentration of mono-aromatics as compared with the oils in the pure zeolite cases. Moreover, the introduction of copper or zinc onto the zeolite supports can also reduce the sulfur distribution in oils (from 17.8-21.2 w t% S for pure zeolite cases to 12.2-18.8 w t% S for in copper- or zinc-loaded catalyst cases, based on S content in tire). Thermal and catalytic pyrolysis of waste tire can produce oils containing a high concentration of mono-aromatics (39.3-58.2 w t% in oil). The mono-aromatics produced in a high amount were benzene (except 5 w t% Cu/FIBETA), together with cumene and ethylbenzene in Cu- and Zn-loaded catalyst cases, respectively.
dc.language.iso en en_US
dc.publisher Chulalongkorn University en_US
dc.relation.uri http://doi.org/10.14457/CU.the.2014.1563
dc.rights Chulalongkorn University en_US
dc.subject Pyrolysis
dc.subject Automobiles -- Tires
dc.subject Copper catalysts
dc.subject การแยกสลายด้วยความร้อน
dc.subject รถยนต์ -- ยางล้อ
dc.subject ตัวเร่งปฏิกิริยาทองแดง
dc.title Catalytic pyrolysis of waste tire using Cu- and Zn-modified catalysts en_US
dc.title.alternative ไพโรไลซิสของยางรถยนต์หมดสภาพโดยใช้ตัวเร่งปฏิกิริยาที่ปรับปรุงทองแดงและสังกะสี en_US
dc.type Thesis en_US
dc.degree.name Master of Science en_US
dc.degree.level Master's Degree en_US
dc.degree.discipline Petrochemical Technology en_US
dc.degree.grantor Chulalongkorn University en_US
dc.email.advisor Sirirat.J@Chula.ac.th
dc.identifier.DOI 10.14457/CU.the.2014.1563


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