Study on Pyrolysis Characteristic of the Waste Tires

Lu Lu Yu; Zhao Ping Zhong; Kuan Ding; Zhi Chao Liu

doi:10.4028/www.scientific.net/AMM.190-191.560

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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 190-191Study on Pyrolysis Characteristic of the Waste...

Study on Pyrolysis Characteristic of the Waste Tires

Abstract:

The effects of pyrolysis temperature on the yields of char ,oil and gas produced in the waste tire pyrolysis process ,the effects of temperature on the concentration of gas and pyrolysis oil constitutes, and the effects of HY-51 (as catalyst) on the yields and on the concentration of gas constitutes, were studied in detail. The experiments showed that the effects of pyrolysis temperature on liquid and gas products were important. The yields of the gas were primate raised, then reduced. When the pyrolysis temperature reached 550°C, the yields of oil can reach to above 45%. when adding catalyst, the yields raised to 50%.Gas product were component of H2, CH4, CO,CO2 and C2-C3, etc., there were a lot of macromolecular aromatic, and contain acid, hydrocarbon, ketone, heterocyclic (containing S, O, N, etc)in pyrolysis oil. we had been done the thermogravimetric experiments. Which were indicated that waste tire have three main mass loss stages. The range of first stage temperature was 200-350°C, 270°C was the maximum temperature of mass loss ,and the mass loss rate reached to 20.4%;The second stage mass loss temperature was 350-600 °C, the biggest temperature mass loss were in 484 °C and 547 °C, this stage rate was 64.6%; the range of the third stage was 600-675 °C, had a small mass loss peak, the rate just was 2.5% The pyrolysis oils analysis were provided the basic data for the chemical and energy basic on pyrolysis and pyrolysis characteristic of the waste tire.

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Periodical:

Applied Mechanics and Materials (Volumes 190-191)

Pages:

560-566

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.190-191.560

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Online since:

July 2012

Authors:

Lu Lu Yu, Zhao Ping Zhong, Kuan Ding, Zhi Chao Liu

Keywords:

Gas Chromatography-Mass Spectrometry (GC-MS), Pyrolysis Characteristic, Waste Tire

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References

[1] Cong xiao-ming, Feng tao, Gai guo-qiang, Xie qiang. Situation and developing trend of waste tire pyrolysis technology. Tire industry. 2008,28(1):10~14. .(in Chinese)

Google Scholar

[2] Wang wen-xuan, Zhong zhao-ping, Chen xiao-ping,Lan ji-xiang,Zhao chang-sui. Research on the Pyrolysis of Waste Tyres. Combustion on Science and Technology. 1999,5(3):331 ~336. .(in Chinese)

Google Scholar

[3] Huang ke, Gao qing-hua, Tang li-hua, Ni yan-hui,Zhu zi-bin. Performance of Scrap Tyres Pyrolysis. East china university of science and technology (natural science edition). 2005,31(5):567~570 (in Chinese)

Google Scholar

[4] Dai X W,Yin X L.Pyrolysis of waste tires in a circulating fluidized bed reactor[J].Energy,2001, 26 (3) :2385~2399

DOI: 10.1016/s0360-5442(01)00003-2

Google Scholar

[5] Cui hong, Yang jian-li, Liu zheng-yu, Research on TG/DTA of the waste tyres pyrolysis. Chemical Industry and Engineering. 1999, 50 (6):826~828. (in Chinese)

Google Scholar

[6] Wang hui, Zou ying, Yu feng, Weng hui-xin. Distributions of chemical components in used tire pyrolysis oil. Chemical industry and engineering progress. 2011,30(3):656~661. (in Chinese)

Google Scholar

[7] Dong gen-quan,Cui hong,Yang jian-li. Research on pyrolysis process of waste tires and pyrolytic products. Petrochemical Engineering. 1999, 28:756~760. (in Chinese)

Google Scholar

[8] Dai ming-xian. Experimental research on Pyrolysis Process of Waste Tyres and Characteristics of Pyrolytic Products. Huazhong University of Science and Technology.Wuhan,2009.(in Chinese)

Google Scholar

[9] Varhegyi G, Antal J J M, Jakab E, et al. Kinetic modeling of biomass pyrolysis[J].Journal of Analytical and Applied Pyrolysis, 1997, 42(1): 73-87.

DOI: 10.1016/s0165-2370(96)00971-0

Google Scholar

[10] Qu wei. Thermal and catalytic pyrolysis of waste tires [D].Si chun university.chengdu,2006 . (in Chinese)

Google Scholar