Abstract
Oxyfuel fired combustion has the potential to increase
the fireside corrosion rates comparing to air firing
combustion as a result of the increasing amounts of
aggressive combustion products due to recycling of flue
gas. The changes in the combustion gas chemistry will
also affect the chemistry and formation of deposits, with
potentially increasing corrosion and internal attack of
the boiler components that are in contact with the
combustion and flue gas environment. As the currently
available information on the corrosion rates under
oxyfuel conditions is still limited, and partially also
contradicting, corrosion testing of existing boiler
materials under high carbon dioxide combustion
environments with the relevant oxygen, water vapour and
impurity concentrations and deposits is very much needed.
The work describes the laboratory testing of selected
alloys (EN 1.4922, UNS S34710, UNS S31042, UNS S31035,
A263 and A617) under simulated oxy- and air-firing
combustion conditions with and without calcium
carbonate-calcium sulphate deposit at 600 and 650?°C. The
results showed that the corrosion resistance increased
when the chromium content increased but without added
impurities like sulphur and chlorides, the simulated
oxyfuel conditions did not result in more severe
corrosion than under air-fired environment. No
carburisation of the metal substrate was observed after
exposure to simulated oxyfuel gas atmospheres without
deposit, although some carbon enrichment was detected
near the oxide-metal interface. With extended exposure
time, the oxide scale properties may change to enable
metal carburisation. The exposure with deposit at 650?°C
resulted in corrosion of all tested alloys and clear
carburisation of steels EN 1.4922 and UNS S34710.
Corrosion and microstructural changes, like
carburisation, may reduce mechanical performance such as
creep and/or fatigue strength and ductility, and thus the
expected component life.
Original language | English |
---|---|
Pages (from-to) | 141-148 |
Number of pages | 7 |
Journal | Materials and Corrosion |
Volume | 65 |
Issue number | 2 |
DOIs | |
Publication status | Published - 2014 |
MoE publication type | A1 Journal article-refereed |
Keywords
- air combustion
- corrosion
- deposit
- high temperature
- oxyfuel combustion