51312-01428-Corrosion Behavior of Alloys in High Temperature Supercritical Carbon Dioxide

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Product Number: 51312-01428-SG

ISBN: 01428 2012 CP

Author: Jacob J. Jelinek

Publication Date: 2012

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The supercritical CO2 Brayton cycle is under consideration for power conversion of VHTR process heat and other energy-related applications because it allows for system simplification and high power conversion efficiencies. A high temperature high pressure autoclave has been designed and constructed for testing materials corrosion in supercritical CO2 environments at temperatures and pressures of up to 650°C and 20MPa respectively. The system is equipped with a gas chromatography mass spectroscopy (GCMS) unit for measuring inlet and outlet gas compositions. The gas flow rate composition pressure and temperature are monitored automatically and continuously using LabView software. Using this facility the corrosion behavior of select alloys was studied after exposure to supercritical CO2 at 450°C and 20 MPa for exposure durations of up to 1000hours. Tests were performed using research grade (99.9998%) CO2. The alloys selected for this study were two ferritic steels NF616 and HCM12A two austenitic alloys 347 stainless steel and Incoloy 800H and three advanced concept AFA (alumina-forming austenitic) alloys. The corrosion performance of the alloys was evaluated using weight change measurements and SEM/EDS analyses of the alloy samples after corrosion testing. The test equipment will be fist described followed by a discussion of the corrosion behavior of the various alloys.