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آرشیو :
نسخه بهار و تابستان 1404
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کد پذیرش :
12065
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موضوع :
سایر شاخه ها
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نویسنده/گان :
Mohammad Gharib Blouck, Mojtaba Azizi ,Omid Abedi, Zeynab Emdadi
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زبان :
انگلیسی
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نوع مقاله :
پژوهشی
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چکیده مقاله به فارسی :
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لیست منابع :
[1] Xu, J., Yu, J., He, W., Huang, J., Xu, J., & Li, G. (2021). Recovery of carbon black from waste tire in continuous commercial rotary kiln pyrolysis reactor. Science of the Total Environment, 772, 145507.
[2] Huayin Energy. (n.d.). Waste tyre pyrolysis plant. https://www.huayinenergy.com/products/waste-tyre-pyrolysis-plant.html?5syxyFrom=site-NT
[3] Ahoor, A. H., & Zandi-Atashbar, N. (2014). Fuel production based on catalytic pyrolysis of waste tires as an optimized model. Energy conversion and management, 87, 653-669.
[4] Luo, S., & Feng, Y. (2017). The production of fuel oil and combustible gas by catalytic pyrolysis of waste tire using waste heat of blast-furnace slag. Energy Conversion and Management, 136, 27-35.
[5] Czajczyńska, D., Krzyżyńska, R., Jouhara, H., & Spencer, N. (2017). Use of pyrolytic gas from waste tire as a fuel: A review. Energy, 134, 1121-1131.
[6] Williams, P. T., Besler, S., & Taylor, D. T. (1990). The pyrolysis of scrap automotive tyres: The influence of temperature and heating rate on product composition. Fuel, 69(12), 1474-1482.
[7] Kar, Y. (2011). Catalytic pyrolysis of car tire waste using expanded perlite. Waste Management, 31(8), 1772-1782.
[8] Aydın, H., & İlkılıç, C. (2012). Optimization of fuel production from waste vehicle tires by pyrolysis and resembling to diesel fuel by various desulfurization methods. Fuel, 102, 605-612.
[9] Aylón, E., Fernández-Colino, A., Murillo, R., Navarro, M. V., García, T., & Mastral, A. M. (2010). Valorisation of waste tyre by pyrolysis in a moving bed reactor. Waste Management, 30(7), 1220-1224.
[10] Galvagno, S., Casu, S., Casabianca, T., Calabrese, A., & Cornacchia, G. (2002). Pyrolysis process for the treatment of scrap tyres: preliminary experimental results. Waste management, 22(8), 917-923.
[11] Hu, H., Fang, Y., Liu, H., Yu, R., Luo, G., Liu, W., ... & Yao, H. (2014). The fate of sulfur during rapid pyrolysis of scrap tires. Chemosphere, 97, 102-107.
[12] Islam, M. N., & Nahian, M. R. (2016). Improvement of waste tire pyrolysis oil and performance test with diesel in CI Engine. Journal of Renewable Energy, 2016(1), 5137247.
[13] Li, S. Q., Yao, Q., Chi, Y., Yan, J. H., & Cen, K. F. (2004). Pilot-scale pyrolysis of scrap tires in a continuous rotary kiln reactor. Industrial & engineering chemistry research, 43(17), 5133-5145.
[14] Martínez, J. D., Murillo, R., García, T., & Veses, A. (2013). Demonstration of the waste tire pyrolysis process on pilot scale in a continuous auger reactor. Journal of hazardous materials, 261, 637-645.
[15] Tillman, D., Duong, D., & Harding, N. S. (2012). Solid fuel blending: principles, practices, and problems. Elsevier.
[16] Seader, J. D., & Lewin, D. R. (1999). Process design principles: synthesis, analysis, and evaluation. Wiley.
[17] Couper, J. R. (2005). Chemical process equipment: selection and design. Gulf professional publishing.
[18] Price, B., Russell, F. G., Morgan, D. J., Kramer, J. M., Minkkinen, A., Heigold, B., ... & Northrop, S. (2004). Engineering Data Book; FPS Version, Volumes I & II, Section 1–26. Gas Processors Suppliers Association (GPSA), Tulsa, Oklahoma.
[19] Riazi, M. R., Albahri, T. A., & Alqattan, A. H. (2005). Prediction of Reid vapor pressure of petroleum fuels. Petroleum science and technology, 23(1), 75-86.
[20] Chemical Processing. (n.d.). Get up to speed on gear pumps. https://www.chemicalprocessing.com/processing-equipment/fluid-handling/article/11327379/get-up-to-speed-on-gear-pumps-chemical-processing
[21] Khadıvı, K., Hejrı, S., & Vosoughı, S. (2020). ROBUST SIEVE ANALYSIS USING SIEVE-BY-SIEVE METHOD. Journal of Scientific Perspectives, 4(2), 83-98.
[22] Alrwashdeh, S. S., Ammari, H., Madanat, M. A., & Al-Falahat, A. A. M. (2022). The effect of heat exchanger design on heat transfer rate and temperature distribution. Emerging Science Journal, 6(1), 128-137.
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کلمات کلیدی به فارسی :
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چکیده مقاله به انگلیسی :
The increasing urban population and the rising number of vehicles have made the production of used tires a significant environmental concern. These tires, classified as non-degradable waste, pose a considerable challenge to nature, necessitating effective solutions for their collection and recycling. In response to this issue, a project has been developed to produce fuel from used tires, utilizing the pyrolysis method as the most suitable option for this process. Pyrolysis is defined as the thermal decomposition of tires in the absence of oxygen, an endothermic reaction that yields products categorized into three types: gaseous, liquid, and carbon solids. This project focuses on the liquid product, known as pyrolysis oil, which possesses a high calorific value. Additionally, various reactors were evaluated for the pyrolysis process, ultimately selecting the rotary kiln reactor due to its superior heat transfer capabilities, efficient space utilization, and cost-effectiveness. The main equipment utilized in this unit has been selected, and their specifications will be detailed. This project aims not only to address the issue of rubber waste but also to contribute to sustainable energy solutions.
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کلمات کلیدی به انگلیسی :
Worn tires, pyrolysis, rotary furnace, pyrolysis oil, diesel
- صفحات : 1-13
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