To better understand the geochemical alteration of the interface between wellbore Portland cement and rock because of potential leakage during CO storage operations, we performed percolation experiments using three solid cores each made of two half-cylinders, one of hydrated Portland cement and the other of calcareous rock (limestone, marl or sandstone). These experiments were run under atmospheric (P = 10 bar and room temperature) and supercritical (P = 130 bar and 60 °C) CO conditions with an injection pH of 6.4 and 3.2, respectively. The variation in the aqueous chemistry of the outflows was reproduced by 2D reactive transport simulations. The experimental and model results showed that under atmospheric conditions, a slight dissolution of portlandite and C-S-H near the cement-channel interface was responsible for an incipient alteration of cement that was prevented by the precipitation of brucite. By contrast, under supercritical conditions, cement alteration was marked owing to an intense dissolution of cementitious phases (portlandite, ettringite, Si-hydrogarnet and hydrotalcite), causing an increase in porosity. Overall, the results show that potential CO leakage during and after CO injection will cause an alteration of the hydrated Portland cement, resulting in a loss of its sealing properties. The alteration of low-porosity calcareous rocks, such as the ones used in this study, is only expected to be minor.<br/>Thanks are due to Jordi Bellés (IDAEA-CSIC) and Maite Romero and Eva Prats (Scientific and Technical Services of the University of Barcelona) for their help in assisting in the laboratory, ICP-AES and SEM-EDX analyses, respectively. We are grateful to Ramon Vázquez for his assistance in the design of the experimental equipment. We acknowledge Dr. Salvador Galí for his scientific discussions during the manuscript elaboration. This study was financed by projects CGL2014-54831-C3-1-R and CGL2017-82331-R (Spanish Ministry of Economy and Competitiveness), with contribution from FEDER funds, and by projects CEX2018-000794-S (Spanish Ministry of Science and Innovation) and 2017SGR 1733 (Catalan Government). The manuscript has greatly benefited from the thorough comments by two anonymous reviewers.<br/>

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