Predicting Superheater Deposit Formation in Boilers Burning Biomasses

Backman, Rainer; Hupa, Mikko; Skrifvars, Bengt-Johan

doi:10.1007/0-306-46920-0_30

Predicting Superheater Deposit Formation in Boilers Burning Biomasses

Rainer Backman³,
Mikko Hupa³ &
Bengt-Johan Skrifvars³

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References

Andersson, S., (1982), “Studies on Phase Diagrams Na2S-Na2SO4, Na2CO3-Na2S-Na2SO4, Na2CO3-Na2SO4-NaOH, and Na2CO3-Na2S-NaOH”, Chemica Scripta, 33, 164–70.
Google Scholar
Babcock, K., Winnick, J., (1988) “Solid-Liquid Equilibria in the Reciprocal Ternary System K,Li/S,CO,”, J. Chem. Eng. Data, 33, 96 98.
Article Google Scholar
Backman, R., Hupa, M., Uppstu, E., (1987) “Fouling and corrosion mechanisms in the recovery boiler superheater area”, Tappi J., 70(3), 123–127.
Google Scholar
Backman, R., (1989), “Sodium and Sulfur Chemistry in Combustion Gases”, Thesis, Report 89-4, Combustion Chemistry Research Group, Åbo Akademi University, Finland.
Google Scholar
Backman, R., Skrifvars, B-J., Hupa, M., (1995) “Flue gas chemistry in recovery boilers with high levels of chlorine and potassium”, Proc. 1995 International Chemical Recovery Conference, Toronto, A95–A103.
Google Scholar
Barin, I., Knacke, O., Kubaschewski, O., “Thermochemical properties of inorganic substances”, Springer Verlag 1973, 1977.
Google Scholar
Cook, L. P., McMurdie, H. F., (editors), “Phase Diagrams for Ceramists, Volume VII”, The American Ceramic Society, Inc. Westerville, Ohio, 1989.
Google Scholar
Eriksson, G., Hack, K., (1990), “ChemSage-A Computer Program for the Calculation of Complex Chemical Equilibria”, Trans. Metal. Trans. B21B, 1013–1023.
Google Scholar
Goubeau, J., Kolb, H., Krall, H. G., (1938), Z. Anorg. Allg. Chemie, 236, 45–56.
Google Scholar
Hupa, M., Eriksson, B-E., Klingstedt, G., (1978) “A rapid method for investigation of ash deposits in boilers”, Paper and Timber, 60. 719 723.
Google Scholar
Hupa, M., (1979) “Ascheprobleme bei der Verbrennung von Holzrinde mit öl“ VGB Kraftwerkstechnik, 59, 568–576.
Google Scholar
Hupa, M., Backman, R., (1982) “Slagging and Fouling during Combined Burning of Bark with Oil, Coal, Gas and Peat”, Proc. 1982 Engineering Foundation Conference about Fouling in Boilers, 419–432.
Google Scholar
Isaak, P., Tran, H., Barham, D., Reeve, D. (1986), “Stickyness of Fireside Deposits in Kraft Recovery Units”, J. Pulp and Paper Science, 12(3), J84–J92.
Google Scholar
Miles, T. R., (1995), “Alkali Deposits Found in Biomass Power Plants. A Preliminary Investigation of Their Extent and Nature” Summary Report, NREL.
Google Scholar
Mäkipää, M., Backman, R., (1998) “Corrosion of floor tubes in reduced kraft smelts: Studies on effects of chlorine and potassium”, Proc. 9^th International Symposium on Corrosion in the Pulp & Paper Industry, Montreal.
Google Scholar
Pelton, A. D., (1988), “A database and sublattice model for molten salts”, Calphad, 12(2), 127–142.
Article Google Scholar
Sangster, J., Pelton, A. D., (1987), “Critical Coupled Evaluation of Phase Diagrams and Thermodynamic Properties of Binary and Ternary Alkali Salt Systems”, American Ceramic Society, Westerville, Ohio, 1987.
Google Scholar
Shivgulam, N., Barham, D., Rapson, H., (1979) “Sodium chloride, potassium: their effects on kraft smelt”, Pulp and Paper Canada 80(9), 89–92.
Google Scholar
Skrifvars, B-J., Hupa, M., Backman, R., Hiltunen, M., (1994), “Sintering mechanisms of FBC ashes”. Fuel, 73, 171–176.
Article Google Scholar
So, C, W., Barham, D., (1981) “The system K₂SO4-K₂S”, J. Thermal Anal. 20, 275–280.
Article Google Scholar
Tegman, R., Warnqvist, B., (1972) “On the Phase Diagram Na₂CO₃-Na₂S”, Acta Chem. Scand. 26(1), 413–414.
Google Scholar
Winbo, C., (1997) “Structural and therochemical studies of double carbonates in the K₂CO₃-CaCO₃ system and solid state emf measurements in the K₂SO₄-K₂S system”, PhD Thesis, Ume<ao> Universitet, Sweden.
Google Scholar

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Authors and Affiliations

Department of Chemical Engineering, Åbo Akademi University, Finland
Rainer Backman, Mikko Hupa & Bengt-Johan Skrifvars

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Rainer Backman
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Mikko Hupa
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Bengt-Johan Skrifvars
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Editors and Affiliations

CRC for Black Coal Utilisation, University of Newcastle, NSW, Australia
R. P. Gupta & T. F. Wall &
Sandia National Laboratories, Livermore, California
L. Baxter

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Backman, R., Hupa, M., Skrifvars, BJ. (2002). Predicting Superheater Deposit Formation in Boilers Burning Biomasses. In: Gupta, R.P., Wall, T.F., Baxter, L. (eds) Impact of Mineral Impurities in Solid Fuel Combustion. Springer, Boston, MA. https://doi.org/10.1007/0-306-46920-0_30

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DOI: https://doi.org/10.1007/0-306-46920-0_30
Publisher Name: Springer, Boston, MA
Print ISBN: 978-0-306-46126-2
Online ISBN: 978-0-306-46920-6
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