ПИРОЛИЗ ҚУРИЛМАЛАРИНИНГ ЗАМОНАВИЙ ҲОЛАТИ ТАҲЛИЛИ
Keywords:
biomass, pyrolysis reactor, pyrolysis plants, alternative fuelAbstract
This article presents the relevance of the use of pyrolysis plants designed for processing biomass and obtaining liquid, solid and gaseous fuels from it, characteristics, types, elemental composition and physical properties of biomass, types of reactors for pyrolysis plants, technological schemes for organizing the process.
References
Tsai W.T., Lee M.K., Chang Y.M. Fast pyrolysis of rice straw, sugarcane bagasse and coconut shell in an induction-heating reaction. Journal of Analytical and Applied Pyrolysis 2006, №76. – pp. 230–237.
Kim S.S., Kim J., Park Y.H., Park Y.K. Pyrolysis kinetics and decomposition characteristic of pine trees. Bioresource Technology 2010, №1001. – pp. 9797–9802.
Bridgwater A.V. Biomass fast pyrolysis. Thermal Sciences 2004, №8. – pp.21–49.
Czernik S., Bridgwater A.V. Overview of applications of biomass fast pyrolysis oil. Energy & Fuels 2004, №18. – pp. 590–598.
Ozbay N., Apaydin-Varol E., Uzun B.B., Putun A.E. Characterization of bio-oil obtained from fruit pulp pyrolysis. Energy 2008, №33. – pp. 1233–1240.
Islam M.R., Tushar M.K., Haniu H. Production of liquids fuels and chemicals from pyrolysis of Bangladeshi bicycle/rickshaw tire wastes. Journal of Analytical and Applied Pyrolysis 2008, №82. – pp. 96–109.
Wu L., Guo S., Wang C., Yang Z. Production of alkanes (C7–C29) from different part of poplar tree via direct deoxy-liquefaction. Bioresource Technology 2009, №100. – pp. 2069–2076.
Qiang L., Wen-Zhi L., Xi-Feng Z. Overview of fuel properties of biomass fast pyrolysis oils. Energy Conversion and Management 2009, №50. – pp. 1376–1383.
Sanchez M.E., Lindao E., Margaleff D., Martinez O., Mora A. Pyrolysis of agricultural residues from rape and suflowers: production and characterization of bio-oils and biochar soil management. Journal of Analytical and Applied Pyrolysis 2009, №85. – pp. 142–144.
Wang P., Zhan S., Yu H., Xue X., Hong N. The effects of temperature and catalyst on the pyrolysis of industrial wastes (herb residue). Bioresource Technology 2010, №101. – pp. 3236–3241.
Guo X., Wang S., Wang Q., Guo Z., Luo Z. Properties of bio-oil from fast pyrolysis of rice husk. Chinese Journal of Chemical Engineering 2011, №19. – pp. 116–121.
Cunha J.A., Pereira M.M., Valente L., de la Piscina P.R., Homs N., Santos M. Waste biomass to liquids: low temperature conversion of sugarcane bagasse to bio-oil. The effect of combined hydrolysis treatments. Biomass and Bioenergy 2011, №35. – pp. 2106–2116.
Kumar P., Barrett D.M., Delwiche M.J., Stroeve P. Methods for pretreatment of lignocellulosic biomass for efficient hydrolysis and biofuel production. Industrial & Engineering Chemistry Research 2009, №48. – pp. 3713.
Nik-Azar M., Hajaligol M.R., Sohrabi M., Dabir B. Effects of heating rate and particle size on the products yields from rapid pyrolysis of beech-wood. Fuel science & technology international 1996, №14. – pp. 479–502.
Zhang H.Y., Xiao R., Wang D.H., Zhong Z.P., Song M., Pan Q.W., et al. Catalytic fast pyrolysis of biomass in a fluidized bed with fresh and spent fluidized catalytic cracking (FCC) catalysts. Energy & Fuels 2009, №23. – pp. 6199–6206.
Алмарданов Х.А., Хатамов И.А., Тураев З.Б., Эшонқулов М.Н., Жовлиев С.М., Юсупов Р.Э. Применение солнечных концентраторов для приема альтернативного топлива через устройство гелиопиролиза. //Universum: технические науки, (3-4 (84)), 8-11, 2021 - cyberleninka.ru
Давлонов, Х. А., Рахматов, О. И., Хатамов, И. А. (2021). Пиролиз иситиш қурилмали қуёш иссиқхоналарида иссиқлик энергияси утилизатори–сувли аккумуляторнинг оптимал ўлчамларини ҳисоблаш. Инновацион технологиялар, (1 (41)), 23-26.