Characterization of Microstructure and Thermal property of Ash Deposits on Fire-side Boiler Tube |
Bang, Jung Won
(Energy & Environmental Material Division, Korea Institute of Ceramic Engineering and Technology)
Lee, Yoon-Joo (Energy & Environmental Material Division, Korea Institute of Ceramic Engineering and Technology) Shin, Dong-Geun (Energy & Environmental Material Division, Korea Institute of Ceramic Engineering and Technology) Kim, Younghee (Energy & Environmental Material Division, Korea Institute of Ceramic Engineering and Technology) Kim, Soo-Ryong (Energy & Environmental Material Division, Korea Institute of Ceramic Engineering and Technology) Baek, Chul-Seoung (Department of Research and Development, Korea Institute of Limestone and Advanced Materials) Kwon, Woo-Teck (Energy & Environmental Material Division, Korea Institute of Ceramic Engineering and Technology) |
1 | A. L. Robinson, S. G. Buckley, N. Yang, and L. T. Baxter, "Experimental Measurements of the Thermal Conductivity of Ash Deposits: Part 2. Effects of Sintering and Deposit Microstructure," Energy Fuels, 15 [1] 75-84 (2001). DOI |
2 | W. F. M. Hesseling and P. L. F. Rademakers, "Efficiency Increase of Waste-to-Energy Plants Evaluation of Experience with Boiler Corrosion and Corrosion Reduction," TNO Environment, TNO-report R 2003/127, 2003. |
3 | M. A. Eaton, "Analysis of Boilesr Fouling and Boiler Cleaning Methods at the Commerce Refuse-To-Energy Facility"; 119-26 in Proceedings of the 15th Annual North American Waste to Energy Conference, NAWTEC15, 2007. |
4 | M. C. van Beek, C. C. M. Rindt, J. G. Wijers, and A. A. van Steenhoven, "Analysis of Fouling in Refuse Waste Incinerators," Heat Transfer Eng., 22 [1] 22-31 (2001). DOI |
5 | S. Palaniswamy, M. Rajavel, A. L. Vinodhan, B. R. Kumar, A. Lawrence, and A. K. Bakthavatsalam, "Influence of Sorbent Characteristics on Fouling and Deposition in Circulating Fluid Bed Boilers Firing High Sulfur Indian Lignite," J. Combust., 2013 1-12 (2013). |
6 | P. M .Walsh, A. N. Sayre, D. O. Loehden, L. S. Monroe, J. M. Beer, and A. F. Sarofim, "Deposition of Bituminous Coal Ash on an Isolated Heat Exchanger Tube: Effects of Coal Properties on Deposit Growth," Prog. Energy Combust. Sci., 16 [4] 327-45 (1990). DOI |
7 | A. Ots, "Thermophysical Properties of Ash Deposit on Boiler Heat Exchange Surfaces," pp. 150-55 Proceedings of International Conference on Heat Exchanger Fouling and Cleaning, Greece, 2011. |
8 | R. W. Bryers, "Fireside Slagging, Fouling, and High-temperature Corrosion of Heat-transfer Surface due to Impurities in Steam-Raising Fuels," Prog. Energy Combust. Sci., 22 [1] 29-120 (1996). DOI |
9 | H. R. Rezaei, R. P. Gupta, G. W. Bryant, J. T. Hart, G. S. Liu, C. W. Bailey, T. F. Wall, S. Miyamae, K. Makino, and Y. Endo, "Thermal Conductivity of Coal Ash and Slags and Models Used," Fuel, 79 [13] 1697-710 (2000). DOI |
10 | Z. Micevic, T. Tiikma, and H. Kaar, "Thermal Conductivity of Ash Deposits from Furnace," Transactions of Tallinn University of Technology, 692 21-28 (1989). |
11 | S. Belov, V. Vasiljev, I. Kovalevich, and T. Teterina, "Thermal Conductivity of Ash Deposits on Boiler Tubes by Burning of Kansk-Achinsk Coals," Therm. Eng., 9 33-5 (1993). |
12 | A. L. Robinson, S. G. Buckley, and L. T. Baxter, "Experimental Measuremetns of the Thermal Conductivity of Ash Deposits," Energy Fuels, 15 [1] 66-74 (2001). DOI |
13 | H. P. Nielsen, F. J. Frandsen, K. Dam-Johansen, and L. L. Baxter, "The Implications of Chlorine-Associated Corrosion on the Operation of Biomass-Fired Boilers," Prog. Energy Combust. Sci., 26 283-98 (2000). DOI |
14 |
A. Karlsson, P. Moller, and V. Johansen, "Iron and Steel Corrosion in a System of |
![]() |