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DETERIORATION OF CONCRETE COMPOSITES PLACED IN SEWER PIPELINES EVALUATED BY CALCIUM AND SILICON IONS CHANGES

assis. Vlasta ONDREJKA HARBULAKOVБ

First published: 2013-06-20https://doi.org/10.5593/sgem2013/be5.v1/s20.036View metrics

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Publication details

Title
DETERIORATION OF CONCRETE COMPOSITES PLACED IN SEWER PIPELINES EVALUATED BY CALCIUM AND SILICON IONS CHANGES
Authors
assis. Vlasta ONDREJKA HARBULAKOVБ
Proceedings
SGEM International Multidisciplinary Scientific GeoConference EXPO Proceedings; 13th SGEM GeoConference on ECOLOGY, ECONOMICS, EDUCATION AND LEGISLATION
Publisher
Stef92 Technology
Year
2013
Pages
267 - 274 pp
ISSN
1314-2704
ISBN
Not available yet
Language
en
Publication type
Conference Paper
References34
  1. Tator K . B. Preventing hydrogen sulfide and microbially influenced cor rosion in wastewater facilities, Materials Performance vol. 42, no.7, pp 32-37, 2003

  2. Gu J. D. & Ford T. E. et al. Biodeterioration of concrete by the fungus fusarium, International Biodeterioration & Biodegradation, vol. 41, No. 2, pp 101-109, 1998

  3. Wells T. & Melchers R. E. & Bond P. Factors involved in the long term corrosion of concrete sewers, Australasian Corrosion Association Proceedings of Corrosion and Prevention 2009, Corrosion & Prevention 2009

  4. PCA Types and causes of concrete deterioration. Portland Cement Association, IS536, pp 1-16, 2002

  5. Nielsen A. H. & Vollertsen J. & Jensen H. S. & Wium-Andersen T. & Hvitved- Jacobsen, T. Influence of pipe material and surfaces on sulfide related odor and corrosion in sewers, Water Research, vol. 42, no.15., pp 4206-4214, 2008

  6. ASCE, Sulfide in Wastewater Collection and Treatment Systems. Manuals and Reports on Engineering Practice 69, American Society of Civil Engineers, New York,

  7. Nielsen, P.H. & Keiding K. Disintegration of activated sludge flocs in presence of sulfide. Water Res., vol. 32, no. 2, pp 313–320, 1998

  8. Nielsen A.H. & Hvitved-Jacobsen, T. & Vollertsen J. Recent findings on sinks for sulfide in gravity sewer networks. Water Sci. Technol., vol. 52, pp 201–208, 2006

  9. US Environmental Protection Agency, 1992. Detection, Control, and Correction of Hydrogen Sulfide Corrosion in Existing Wastewater System. Office of Wastewater Enforcement and Compliance, Washington, DC, 20460

  10. Zang L. & De Schryver P. & De Gusseme B. & De Muynck W. & Boon N. & Verstraete W. Chemical and biological technologies for hydrogen sulfide emission control in sewer systems: A review, Water Research, vol.42 , pp 1–12, 2008

  11. Samson E. & Marchand J. & Beaudoin J. J. Modeling the influence of chemical reactions on the mechanisms of ionic transport in porous materials. An overview, Cem. Concr. Res., vol. 30, pp1895-1902, 2000

  12. Cwalina B. Biodeterioration of concrete, Architecture, Civil engineering environemnt, No. 4, pp 133-140 , 2008

  13. Roberts D.J. & Nica D. & Zuo G. & Davis J.L. Quantifying microbially induced deterioration of concrete: Initial studies, International Biodeterioration and Biodegradation, vol. 49, pp 227-234, 2002

  14. Dorner H.W. & Beddoe R.E . Prognosis Of Concrete Corrosion Due To Acid Attack, 9th International Conference on Durability of Building Materials and Components, Brisbane, Australia, 2002, pp 1-9;

  15. Winter N. Understanding cement, e-book. Suffolk: WHD Microanalysis Consultant Ltd, UK, pp. 181, 2009

  16. Ondrejka Harbulakova V. & Luptakova A. & Stevulova N. & Repka M. Comparative study of acid corrosion and leaching proceeded in model conditions, GeoConference on Ecology, Economics, Education and Legislation Current Issues of Civil and Environmental Engineering in Košice, Lviv and Rzeszów : 13th International Scientific Conference, Herľany-Košice: TU, 2011, pp 1-7;

  17. Estokova A. & Ondrejka Harbulakova V. & Luptakova A. & Prascakova M. & Stevulova N. The study of Resistance of Cement Composites against Microbial Attack, Journal of Civil Engineering and Architecture, vol. 5, pp 555-561, 2011

  18. Tator K . B. Preventing hydrogen sulfide and microbially influenced cor rosion in wastewater facilities, Materials Performance vol. 42, no.7, pp 32-37, 2003

  19. Gu J. D. & Ford T. E. et al. Biodeterioration of concrete by the fungus fusarium, International Biodeterioration & Biodegradation, vol. 41, No. 2, pp 101-109, 1998

  20. Wells T. & Melchers R. E. & Bond P. Factors involved in the long term corrosion of concrete sewers, Australasian Corrosion Association Proceedings of Corrosion and Prevention 2009, Corrosion & Prevention 2009

  21. PCA Types and causes of concrete deterioration. Portland Cement Association, IS536, pp 1-16, 2002

  22. Nielsen A. H. & Vollertsen J. & Jensen H. S. & Wium-Andersen T. & Hvitved- Jacobsen, T. Influence of pipe material and surfaces on sulfide related odor and corrosion in sewers, Water Research, vol. 42, no.15., pp 4206-4214, 2008

  23. ASCE, Sulfide in Wastewater Collection and Treatment Systems. Manuals and Reports on Engineering Practice 69, American Society of Civil Engineers, New York,

  24. Nielsen, P.H. & Keiding K. Disintegration of activated sludge flocs in presence of sulfide. Water Res., vol. 32, no. 2, pp 313–320, 1998

  25. Nielsen A.H. & Hvitved-Jacobsen, T. & Vollertsen J. Recent findings on sinks for sulfide in gravity sewer networks. Water Sci. Technol., vol. 52, pp 201–208, 2006

  26. US Environmental Protection Agency, 1992. Detection, Control, and Correction of Hydrogen Sulfide Corrosion in Existing Wastewater System. Office of Wastewater Enforcement and Compliance, Washington, DC, 20460

  27. Zang L. & De Schryver P. & De Gusseme B. & De Muynck W. & Boon N. & Verstraete W. Chemical and biological technologies for hydrogen sulfide emission control in sewer systems: A review, Water Research, vol.42 , pp 1–12, 2008

  28. Samson E. & Marchand J. & Beaudoin J. J. Modeling the influence of chemical reactions on the mechanisms of ionic transport in porous materials. An overview, Cem. Concr. Res., vol. 30, pp1895-1902, 2000

  29. Cwalina B. Biodeterioration of concrete, Architecture, Civil engineering environemnt, No. 4, pp 133-140 , 2008

  30. Roberts D.J. & Nica D. & Zuo G. & Davis J.L. Quantifying microbially induced deterioration of concrete: Initial studies, International Biodeterioration and Biodegradation, vol. 49, pp 227-234, 2002

  31. Dorner H.W. & Beddoe R.E . Prognosis Of Concrete Corrosion Due To Acid Attack, 9th International Conference on Durability of Building Materials and Components, Brisbane, Australia, 2002, pp 1-9;

  32. Winter N. Understanding cement, e-book. Suffolk: WHD Microanalysis Consultant Ltd, UK, pp. 181, 2009

  33. Ondrejka Harbulakova V. & Luptakova A. & Stevulova N. & Repka M. Comparative study of acid corrosion and leaching proceeded in model conditions, GeoConference on Ecology, Economics, Education and Legislation Current Issues of Civil and Environmental Engineering in Košice, Lviv and Rzeszów : 13th International Scientific Conference, Herľany-Košice: TU, 2011, pp 1-7;

  34. Estokova A. & Ondrejka Harbulakova V. & Luptakova A. & Prascakova M. & Stevulova N. The study of Resistance of Cement Composites against Microbial Attack, Journal of Civil Engineering and Architecture, vol. 5, pp 555-561, 2011

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