High-Temperature Corrosion of Superheater Tube Materials Exposed to Zinc Salts

A1 Journal article (refereed)

Internal Authors/Editors

Publication Details

List of Authors: Bankiewicz D, Yrjas P, Hupa M
Publication year: 2009
Journal: Energy and Fuels
Journal acronym: ENERG FUEL
Volume number: 23
Issue number: 7
Start page: 3469
End page: 3474
Number of pages: 6
ISSN: 0887-0624


It is of great importance nowadays to develop a deeper understanding of corrosion phenomena occurring ill energy conversion processes in thermal power plant technology systems. The superheaters in biofuels and waste-firing boilers are often exposed to aggressive compounds, which strongly decrease their durability. Waste incinerators and demolition wood-fired boiler deposits Usually contain relatively high concentrations of heavy metals, such as Zn and Pb compounds. These elements, in combination with chlorine. call decrease the first melting point of the deposits. Consequently. molten salt attack by these metal chlorides call occur, and the corrosion will be more severe than gas-phase corrosion. In this study, laboratory-scale, high-temperature corrosion tests have been carried out. Well-characterized salt mixtures consisting of zinc and potassium chlorides and sulfates (K(2)SO(4), KCl, and ZnCl(2)) were used for corrosion testing. Tests were performed for three commercial and used steam tube materials. The metal specimens covered with salts were exposed to temperatures ranging from 350 to 600 degrees C for 168 h. After heat treatment, the specimens were analyzed using a scanning electron microscope and energy-dispersive X-ray (SEM-EDX) to determine the oxide layer thickness and the elemental distribution in the oxide scale. The results showed enhanced corrosion of low alloy steel with an increasing temperature and increasing amount of ZnCl(2) in the salt mixture.


high temperature corrosion, zinc

Last updated on 2019-19-10 at 04:39