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Analysis of Material Degradation in Chlorine Environment of Power Plants

Published on August 2015 by Harminder Singh
journal_cover_thumbnail

International Conference on Advancements in Engineering and Technology
Foundation of Computer Science USA
ICAET2015 - Number 7
August 2015
Authors: Harminder Singh
9394c6ea-61bf-420d-9e33-d88d0f05a4a0

Harminder Singh . Analysis of Material Degradation in Chlorine Environment of Power Plants. International Conference on Advancements in Engineering and Technology. ICAET2015, 7 (August 2015), 4-6.

@article{
author = { Harminder Singh },
title = { Analysis of Material Degradation in Chlorine Environment of Power Plants },
journal = { International Conference on Advancements in Engineering and Technology },
issue_date = { August 2015 },
volume = { ICAET2015 },
number = { 7 },
month = { August },
year = { 2015 },
issn = 0975-8887,
pages = { 4-6 },
numpages = 3,
url = { /proceedings/icaet2015/number7/22250-4087/ },
publisher = {Foundation of Computer Science (FCS), NY, USA},
address = {New York, USA}
}
%0 Proceeding Article
%1 International Conference on Advancements in Engineering and Technology
%A Harminder Singh
%T Analysis of Material Degradation in Chlorine Environment of Power Plants
%J International Conference on Advancements in Engineering and Technology
%@ 0975-8887
%V ICAET2015
%N 7
%P 4-6
%D 2015
%I International Journal of Computer Applications
Abstract

The chlorine containing deposits in the power plant environment is very harmful in terms of degrading the plant component materials. The cyclic reaction starts by the chlorine gas shorten the life of the plant components. In this study, this cyclic reaction is study in detail, which is required further to find the preventive methods for slow down the degradation of the plant components, especially in waste incinerators.

References
  1. Kuo, J-H. , Tseng, H-H. , Rao, P. S. , and Wey M-Y. 2008. The prospect and Development of Incinerators for municipal solid waste treatment and characteristics of their pollutants in Taiwan. Applied Thermal Engineering 28 (17-18), 2305-2314.
  2. Ganapathy, V. 1995. Recover heat from waste incineration. Hydrocarbon Processing (September 1995).
  3. Rademakers, P. 2008. Review on corrosion in waste incinerators, and possible effect of bromine, TNO report.
  4. Fordham, R. J. , and Baxter, D. 2003. The impact of increasing demand for efficiency and reliability on the performance of waste-to-energy plants. Materials at high temperature 20(1), 19-25.
  5. Sidhu, T. S. , and Prakash, S. 2006. Hot corrosion and performance of nickel-based Coatings. Current Science 90 (1), 41-47.
  6. Sidhu, T. S. , and Agarwal, R. D. 2005. Hot corrosion of some superalloys and role of high-velocity oxy-fuel spray coatings-a review. Surface & Coatings Technology 198, 441-446.
  7. Rapp, RA. 1986. Chemistry and electrochemistry of the hot corrosion of metals. Corrosion 42(10), 568-577.
  8. Rapp, R. A. 2002. Hot Corrosion of Materials: A fluxing mechanism?, Corrosion Science 44, 209-221.
  9. Sorell, G. 1997. The role of chlorine in high temperature corrosion in waste-to-energy plants. Science and Technology Letters, Materials at high temperatures 137-150.
  10. Albina, D. O. 2005. Theory and experience on corrosion of Waterwall and superheater tubes of waste-to-energy facilities. Thesis 2005, available online.
  11. Uusitalo, M. A. , Vuoristo, P. M. J. , and Mantyla T. A. 2004. High Temperature corrosion of coatings and boiler steels below chlorine containing salt deposits. Corrosion Science 46(6), 1311-1331.
  12. Uusitalo, M. A. , Vuoristo, P. M. J. , and Mantyla, T. A. 2003. High Temperature corrosion of coatings and boiler steels in oxidizing chlorine containing atmosphere. Material Science and Engineering 346, 168-177.
  13. Eliaz, N. , Shemesh, G. , and Latanision R. M. 2002. Hot corrosion in gas turbine components. Engineering Failure Analysis 9, 31–43.
  14. Goebel, J. A, Pettit, F. S. 1970. Na2SO4-induced accelerated oxidation (hot corrosion) of nickel. Metall. Trans. 1, 1943-1954.
  15. Goebel, J. A. , and Pettit, F. S. 1970. The influence of sulfides on the oxidation behavior of nickel-base alloys. Metall. Trans. 1, 3421-3429.
  16. Stringer, J. 1987. High-temperature corrosion of superalloys. Material Science Technology 3(7), 482-493.
  17. Hara, M. , and Shinata, Y. 1992. Electrochemical studies on hot corrosion of Ni?Cr?Al alloys in molten Na2SO4NaCl. Materials Transactions JIM, 33(8), 758?765.
  18. Montgomery, M. , and Larsen, O. H. 2001. Characterization of deposits and their influence on corrosion in waste incineration plants in Denmark. NACE international, Corrosion 2001 paper no. 01184.
  19. Zahs, A. , Spiegel, M. , and Grabke, H-J. 2000. Chloridation and oxidation of iron, chromium, nickel and their alloys in chloridizing and oxidizing atmospheres at 400-700oC. Corrosion Science 42, 1093-1122.
  20. Singh, H. , Sidhu, T. S. , and Kalsi, S. B. S. 2014. Behavior of cold sprayed superalloy in incinerator at 900oC. Surf. Eng. DOI: 10. 1179/1743294414Y. 0000000390.
  21. Singh, H. , Sidhu, T. S. , Kalsi, S. B. S. , and Karthikeyan, J. 2014. Hot corrosion behavior of cold sprayed Ni-50Cr coating in an incinerator environment at 900oC. J. Therm. Spray Technol. DOI: 10. 1007/s11666-014-0213-z.
  22. Singh, H. , Sidhu, T. S. , Karthikeyan, J. , and Kalsi, S. B. S. 2015. Evaluation of characteristics and behavior of cold sprayed Ni-20Cr coating at elevated temperature in waste incinerator plant. Surf. Coat. Technol. 261, 375–384.
  23. Singh, H. , and Sidhu, T. S. 2013. High temperature corrosion behavior of Ni-based superalloy Superni-75 in the real service environment of medical waste incinerator. Oxid. Met. 80, (5–6), 651–668.
  24. Singh, H. , Sidhu, T. S. , and Kalsi, S. B. S. 2014. Behavior of Ni-Based Superalloys in an actual waste incinerator plant under cyclic conditions for 1,000 h at 900°C. Corrosion. DOI: http://dx. doi. org/10. 5006/1163.
Index Terms

Computer Science
Information Sciences

Keywords

Boiler Tubes Incinerator Chlorine Active Oxidation Hot Corrosion