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Experimental determination of brucite solubility in NaCl solutions at elevated temperatures

Salt formations have been recommended for nuclear waste isolation since the 1950‘s by the U.S. National Academy of Science. This recommendation has been implemented in southeast New Mexico where the Waste Isolation Pilot Plant (WIPP) has been built to isolate defense-related transuranic waste. The WIPP is located in a bedded salt formation, the Salado Formation. Placement of crystalline MgO, which hydrates rapidly to form brucite, is the only engineered barrier employed in the WIPP design. The MgO acts as a chemical conditioner in the WIPP repository in controlling the fugacity of carbon dioxide. Similarly, an Mg(OH)2-based engineered barrier is proposed for the German Asse salt mine repository. Thus, the solubility of brucite is of interest to salt repository programs which can expect a variety of temperatures within the repository and a variety of fluids (brines) coming in contact with the waste. Salt repository programs are not the only programs that stand to benefit from the information presented in this book chapter. There are other applications where this information is of interest. In natural environments brucite frequently precipitates from hyperalkaline hydrothermal fluids with high ionic strengths. For instance, brucite chimneys have been observed to form at elevated temperatures in ocean floors. The information presented in this work can be used to accurately model the formation of such brucite chimneys. In this study, we have determined solubilities of brucite as a function of ionic strength in NaCl solutions to I = 5.6 mol•kg-1 at elevated temperatures to 353.15 K. In our solubility measurements, we first independently determined the correction factors for converting pH readings to pHm (negative logarithm of hydrogen ion concentration on a molal scale, mol•kg-1) in NaCl solutions from 0.01 to 5.6 mol•kg-1 at elevated temperatures. Using the SIT model, we obtain the solubility constants for brucite at infinite dilution as a function of temperature, which can be described by the following expression, where T is temperature in K. This expression can be used from 273.15 K to 373.15 K.