PL EN


Preferences help
enabled [disable] Abstract
Number of results
2017 | 74 | 194-208
Article title

Corrosion studies of austenitic and duplex stainless steels in the environment of ferment of biogas plants

Content
Title variants
Languages of publication
EN
Abstracts
EN
In the present paper, the study of pitting and general corrosion of stainless steels used in agriculture, specifically for the agricultural biogas plant constructions, is presented. The austenitic stainless steels AISI 304L, AISI 316Ti, and duplex steel 2205, were investigated. For the evaluation of corrosion resistance, the potentiodynamic studies were performed. General corrosion was determined in the Tafel region of potentiodynamic curve, while pitting corrosion was examined on the basis of the pitting corrosion initiation potential. Based on the studies carried out, it can be stated that the alloyed cold-rolled austenitic stainless steel AISI 304L placed in the environment of the biogas plant ferment has the lowest resistance to pitting and general corrosion of all studied steels. The cold-rolled duplex stainless steel 2205 placed in the same corrosive environment revealed the highest resistance to these types of corrosion. It should be also noted that the pitting and general corrosion resistances of tested alloy austenitic stainless steel AISI 316Ti are higher than those ones of AISI 304L, and less than those ones of duplex steel 2205. In conclusion, as could be expected, the best material for the biogas plant construction is duplex stainless 2205 because it shows the highest resistance to both types of corrosion studied. This steel can be advised as a material for construction of fermentation tanks and heating installations for mixture ferment.
Discipline
Year
Volume
74
Pages
194-208
Physical description
References
  • [1] Institut für Energetik und Umwelt GmbH, Biogaz, produkcja i wykorzystanie, 2005, pp. 132-133.
  • [2] Jäkel K., Managementunterlage „Landwirtschaftliche Biogaserzeugung und -verwertung“. Sächsische Landesanstalt für Landwirtschaft, 1998 / 2002.
  • [3] Fachagentur Nachwachsenderohstoffe (FNR), Handreichung Biogasgewinnung und nutzung Ergebnise des Biogas – Masseprograms, Institut für Energetik und Umwelt gGmbH; Bundesforschungsanstalt für Landwirtschaft, Kuratorium für Tachnik und Bauwesen in der Landwirtschaft e.V., Fachagentur Nachwachsenderohstoffe.V., Gülzow, 2005.
  • [4] Kowalczyk-Juśko A., Biogazownie szansą dla rolnictwa i środowiska, Ed. Uniwersytet Przyrodniczy, Lublin, 2013.
  • [5] Kowalczyk-Juśko A., Szymańska M., Poferment nawozem dla rolnictwa, Fundacja na rzecz Rozwoju Polskiego Rolnictwa, Warszawa, 2015.
  • [6] Rusiak S., Kowalczyk-Juśko A., Biogazownia rolnicza – warunki eksploatacyjne. Siarkowodór w biogazie. Czysta Energia 10(72) (2007) 16-17
  • [7] Abdel-Karim R., Elmahallawi I., El-Menshawy K., Microstructure and corrosion properties of nitrogen stainless steel 316 L produced by hipping. Powder Metallurgy 47(1) (2004) 43-48
  • [8] Adamczyk J., Inżynieria materiałów metalowych, Ed. Politechnika Śląska, Gliwice, 2004.
  • [9] Banaś J., Mazurkiewicz A., The effect of copper on passivity and corrosion behavior of ferritic and ferritic-austenitic stainless steels. Materials Science and Engineering: A, 277(1-2) (2000) 183-191
  • [10] Malone P. G., Moser R. D., Holton S. S, Newman J. K., Weiss C. A. Jr., and Morefield, S. W., Limiting Corrosion Problems Related to Dust-Control Agents. Materials Performance 2 (2014) 50-57
  • [11] Tverberg J. C., Stainless Steel in the Brewery. MBAA Technical Quarterly 38(2) (2001) 67-82
  • [12] Larsen K. R., Selecting Stainless Steels for Seawater Pumps. Materials Performance 3 (2016) 28-33
  • [13] Nowakowski J., Stal duplex i jej spawalność. Przegląd Spawalnictwa 10 (2008) 34-44
  • [14] Nowacki J., Urbański M., Zając P., Spawanie FCAW stali dupleks w budowie statków do transportu chemikaliów. Przegląd Spawalnictwa 80(4) (2004) 3-10
  • [15] Brózda J., Łomzik M., Spawanie stali nierdzewnych o strukturze dwufazowej (duplex). Własności złączy spawanych. Biuletyn Instytutu Spawalnictwa 2 (2001) 25-33
  • [16] https://www.nickelinstitute.org/~/Media/Files/TechnicalLiterature/WeldingofStainlesssSteelandotherJoiningMethods_9002_.pdf
  • [17] Surowska B., Wybrane zagadnienia i ochrony przed korozją. Ed. Politechnika Lubelska, 2002.
  • [18] Szklarska-Śmiałowska Z., Pitting Corrosion of Metals, NACE Houston, 1986.
  • [19] Torsten F., Andreas K., Konstruktion und Bau von Biogasanlagen. Krieg & Fischer Ingenieure GmbH. Germany, 2015.
  • [20] Hryniewicz T., Rokosz K., Podstawy teoretyczne i aspekty praktyczne zjawiska korozji, Ed. Politechnika Koszalińska, Koszalin, 2010.
  • [21] Uhlig H. H., Korozja i jej zapobieganie, WNT Warszawa 1976.
  • [22] Wranglen G., Podstawy korozji i ochrony metali, WNT Warszawa. 2nd Ed, 1985.
Document Type
article
Publication order reference
YADDA identifier
bwmeta1.element.psjd-9d0e0514-db02-4e37-903c-bc5878801a24
Identifiers
JavaScript is turned off in your web browser. Turn it on to take full advantage of this site, then refresh the page.