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Tytuł artykułu

Energy Balance Sheet of a Semi Operational Thermic System

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The article is focused onthe energetical balance of a technical system for the conversion of crushed tyres by pyrolysis. Process temperatures were set in the range from 500 to 650°C. Mass input of the material was 30 kg per hour. The aim of the article is to answer the following questions as regards the individual products: Under which process conditions can the highest quality of the individual products related to energy be reached? How does the thermal efficiency of the system change in reaction to various conditions of the process? On the basis of the experimental measurements and calculations, apart from other things, it was discovered that the pyrolysis liquid reaches the highest energetic value, i.e. 42.7 MJ.kg-1, out of all the individual products of the pyrolysis process. Generated pyrolysis gas disposes of the highest lower calorific value 37.1 MJ.kg-1 and the pyrolysis coke disposes of the maximum 30.9 MJ kg-1. From the energetic balance, the thermal efficiency of the experimental unit under the stated operational modes ranging from about 52 % to 56 % has been estimated. Individual findings are elaborated on detail in the article.
Rocznik
Strony
317--329
Opis fizyczny
Bibliogr. 19 poz., rys., tab.
Twórcy
autor
  • VŠB – Technical University of Ostrava, Faculty of Mechanical Engineering, Department of Energy, 17. listopadu 15/2172, 708 33, Ostrava Poruba, Czech Republic
  • VŠB – Technical University of Ostrava, Centre ENET, 17. listopadu 15/2172, 708 33, Ostrava Poruba, Czech Republic
  • VŠB – Technical University of Ostrava, Centre ENET, 17. listopadu 15/2172, 708 33, Ostrava Poruba, Czech Republic
autor
  • VŠB – Technical University of Ostrava, Centre ENET, 17. listopadu 15/2172, 708 33, Ostrava Poruba, Czech Republic
autor
  • VŠB – Technical University of Ostrava, Centre ENET, 17. listopadu 15/2172, 708 33, Ostrava Poruba, Czech Republic
  • VŠB – Technical University of Ostrava, Faculty of Mechanical Engineering, Department of Energy, 17. listopadu 15/2172, 708 33, Ostrava Poruba, Czech Republic
  • VŠB – Technical University of Ostrava, Centre ENET, 17. listopadu 15/2172, 708 33, Ostrava Poruba, Czech Republic
Bibliografia
  • 1. Boroska J., Molnar V., Fedorko G., Husakova N., 2007. Mining optimization indepence on the capacity of transport, In: Modern trends in underground construction. 163 – 167. Rudarsko-geolološki fakultet Univerziteta Beograd.
  • 2. Conesa J.A., Marcilla A., Moral R., Moreno–Casselles J., Perez–Espinosa A., 1998. Evolution of gases in primary pyrolysis of different sewage sludge. Termochimica Acta, 313, 63–73. DOI: 10.1016/S0040-6031(97)00474-7.
  • 3. Crespi M.S., Ribeiro C.A., Greenhalf V.C.M., Zorel J.R.H.M., 1999. Preparation and thermal decomposition of copper(II), zinc(II) and cadmium(II) chelates with 8-hydroxyquinoline. Quím. Nova, 22 (1). DOI:10.1590/S0100-40421999000100009.
  • 4. Fronts I., Azuara M., Gea G., Murillo M.B., 2009. Study of pyrolysis liquids obtained from different sewage sludge. J. Anal. Appl. Pyrolysis, 85, 184-191. DOI: 10.1016/j.jaap.2008.11.003.
  • 5. Guo R., Yang J., Liu D., Liu Z., 2002. Transformation behaviour of trace elements during coal pyrolysis. Fuel Process. Technol., 77-78, 137-143. DOI: 10.1016/S0378-3820(02)00041-3.
  • 6. Guo R., Yang J., Liu D., Liu Z., 2003. The fate of As, Pb, Cd, Cr and Mn in a coal during pyrolysis. J. Anal. Appl. Pyrolysis, 70, 555-562. DOI: 10.1016/S0165-2370(03)00025-1.
  • 7. Helleur R., Popovic N., Ikura M., Stanciulescu M., Liu D., 2001. Characterization and potential applications of pyrolytic char from ablative pyrolysis of used tires. J. Anal. Appl. Pyrolysis, 58-59, 813-824. DOI:10.1016/S0165-2370(00)00207-2.
  • 8. Inguanzo M., Domingguez A., Mendez J.A., Blanco C.G., Pis J.J., 2002. On the pyrolysis of sewage sludge: The influence of pyrolysis conditions on solid, liquid and gas fractions. J. Anal. Appl. Pyrolysis, 63, 209-222. DOI:10.1016/S0165-2370(01)00155-3.
  • 9. Jursová S., Pustějovská P., Brozova S., 2013. Energy exploitation of industrial waste. 22nd International Conference on Metallurgy and Materials, 15 - 17 May 2013, Brno, Czech Republic.
  • 10. Koppe K., Juchelková D., 2011. Bioenergi - Handbuch. Ostrava.
  • 11. Leung, D. Y. C., Yin X. L., Zhao Z. L., Xu B. Y., Chen, Y., 2002. Pyrolysis of tire powder: Influence of operation variables on the composition and yields of gaseous product. Fuel Process. Technol., 79, 141-155. DOI:10.1016/S0378-3820(02)00109-1.
  • 12. Lian Wang and Guomin Xiao, 2011. Study on economic feasibility of straw pyrolysis. International Conference on Materials for Renewable Energy & Environment (ICMREE). Shanghai, China, 20 - 22 May 2011.
  • 13 Nowacky P., 1981. Coal gasification processes. Noyes Data Corporation/Noyes Publications, New Jersey.
  • 14. Pastor M., Budayova M., Varga A., Suchy T., Fedorko G., Analysis of alternativ fuel - biomass gasifying at fluid reactor. 2nd International Symposium Meaning Energetic. Rudarsko-geolološki fakultet Univerziteta Beograd.
  • 15. Quanyuan W., Yongshui Q., Tianwei, T., 2012. Mass and heat balance calculations and economic evaluation of an innovative biomass pyrolysis project. Front. Chem. Sci. Eng., 5, 355-361. DOI: 10.1007/s11705-010-0567-9.
  • 16. Savu A., R., Muntean I., Lazea G., Agachi P., S., 2011. Economic optimization of a thermal cracker via Model Predictive Control technology. 19th Mediterranean Conference on Control and Automation Aquis. Corfu Holiday Palace, Corfu, Greece June 20-23, 2011.
  • 17. Staf M., 2005. Research of thermic conversion of waste biomass to gaseous and liquid fuels, available at: http://biom.cz/cz/odborne-clanky/vyzkum-termicke-konverze-odpadni-biomasy-na-plynna-a-kapalna-paliva (in Czech).
  • 18. Vymětal J., Plesník M., 1994. Black coal tar and natural resin processing study manual. I. DEZA a.s. Valašské Meziříčí.
  • 19. Xiqiang Zhao, Jian Zhang, Zhanlon Song, Hongzhen Liu, Longzhi Li, Chunyuan M., 2011. Microwave pyrolysis of straw bale and energy balance analysis. J. Anal. Appl. Pyrolysis, 92, 43 – 49. DOI: 10.1016/j.jaap.2011.04.004.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-dc3a85b6-4121-4122-9644-d72c2ea57d6a
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