Identyfikatory
Warianty tytułu
Języki publikacji
Abstrakty
W części pierwszej artykułu opisana została analiza bazowych parametrów pracy kotła i ocena skłonności badanych rodzajów biomasy do żużlowania i tworzenia osadów zanieczyszczających na powierzchniach ogrzewalnych. Część druga przybliży badania i testy na instalacji doświadczalnej.
Słowa kluczowe
Wydawca
Czasopismo
Rocznik
Tom
Strony
38--43
Opis fizyczny
Bibliogr. 15 poz., fot., rys., wykr.
Bibliografia
- 1. Pronobis M., 2005, Evaluation of the influence of biomass co-combustion on boiler furnace slagging by means of fusibility correlations. Biomass&Bioenergy, 28, 375-383.
- 2. Pronobis M., 2006, The influence of biomass co-combustion on boiler fouling and efficiency Fuel, 85, 474-480.
- 3. Jenkins B. M., Baxter L. L. Miles T. R. Jr., Miles T. R., 1998, Combustion properties of biomass. Fuel Processing Technology, 54, 17-46.
- 4. Wang L., Hustad J. E., Grønli M., 2012a Sintering characteristics and mineral transformation behaviors of corn cob ashes. Energy&Fuels, 26, 5905-5916.
- 5. Wang L., Skjevrak G., Hustad J. E., Gronli M. G., 2012b, Sintering characteristics of sewage sludge ashes at elevated temperatures. Fuel Processing Technology, 96, 88-97.
- 6. Kupka T., Mancini M., Irmer M., Weber R., 2008, Investigation of ash deposit formation during co-firing of coal with sewage sludge, saw-dust and refuse derived fuel. Fuel, 87, 2824-2837.
- 7. G. Olofsson, Z. Ye, I. Bjerle, A. Andersson, Bed Agglomeration Problems in Fluidized-Bed Biomass Combustion, Ind. Eng. Chem. Res. 2002, 41, 2888-2894].
- 8. T. Lind, Ash formation in circulating fluidised bed combustion of coal and solid biomass. VTT Publ. 1999, 378, 1-166 P. Thy, B. M. Jenkins, R. B. Williams, C. E. Lesher, R. R. Bakker, Bed agglomeration in fluidized combustor fueled by wood and rice straw blends, Fuel Processing Technology 91 (2010) 1464-1435.
- 9. R. Yan, D. T. Lianf, K. Laursen, Y. Li, L Tsen, J. H. Tay, Formation of bed agglomeration in a fluidized multi-waste incinerator, Fuel 82 (2003) 843-851. F. Scala, R. Chirone, Characterization and early detection of bed agglomeration during the fluidized bed combustion of olive husk, Energy and Fuels 20 (2006) 120-132.
- 10. M. R. Dawson, R. C Brown, Bed material cohesion and loss of fluidization during fluidized bed combustion of midwestern coal, Fuel 71 (1992) 585-592. H. B. Vuthaluru, D. K. Zhang, Ash Problems in Fluidized-bed Combustors - Prevention and Control, Proc. Can. Cancer Conference (2001) 1298-1319,
- 11. H. B. Vuthaluru. T. M. Linjewile, D.-K. Zhang, A. R. Manzoori, Investigations into the control of agglomeration and defluidisation during fluidised-bed combustion of low-rank coals, Fuel 78 (1999) 419-425,
- 12. T. Lind. Ash formation in circulating fluidised bed combustion of coal and solid biomass. VTT Publ. 1999, 378, 1-166.
- 13. Pronobis M.: Modernizacja kotłów energetycznych. WNT Warszawa 2002.
- 14. B. M. Jenkins, L. L. Baxter. T. R. Miles Jr., T. R. Miles. “Combustion properties of biomass”, Fuel Processing Technology 54 1998 17-46,
- 15. M. Seggiani, “Empirical correlations of the ash fusion temperatures and temperature of critical viscosity for coal and biomass ashes”, Fuel 78 (1999) 1121-1125
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-22fbe91d-f162-49ed-bb1c-024658759913