The solubility constant of calcium peroxide octahydrate in relation to temperature; its influence on radiolysis in cement-based materials

The solubility constant of calcium peroxide octahydrate (Kper) is determined in relation to temperature through an experimental method based on pH monitoring. The value of Kper = (CaOH+) ( HO 2 - ) (H2O)7 is provided by the modified Arrhenius expression K per = 7.329 × 10 - 161 × T 58.929 × exp ( 5061.5 / T ) . At 25 °C, Kper = (1.13 ± 0.01) × 10−7. That expression takes into account the kinetics of the homogeneous decomposition of hydrogen peroxide according to the H 2 O 2 + HO 2 - → H 2 O + OH - + O 2 mechanism. The variation of the rate constant with temperature is achieved by completing the data taken from the literature by observing the kinetics at 65 °C and is expressed as k = A × exp (−Ea/RT) where A = 600 M−1 s−1 and Ea = 35 kJ/mol. At 25 °C, k = (4.5 ± 0.1) × 10−4 M−1 s−1. In parallel, a new presentation of the available data on calcium equilibria in relation to temperature (complexation of Ca2+ and of CaOH+, solubility of portlandite) is used to support the simulations made on the overall system (calcium + peroxide). By integrating the new data, it is possible to forecast a specific behaviour of γ radiolysis in a cement-based material as a function of the temperature. Below 25 °C, CaO2·8H2O precipitation acts in synergy with Allen’s chain-reaction and leads rapidly to a stationary state with a small amount of H2. At 25 °C and above, precipitation stops, the stationary state is more difficult to achieve and the production of both H2 and O2 is significantly higher.