Abstract
Molten salt reactors (MSRs) utilize salts as coolant or as the fuel and coolant together with fissile isotopes dissolved in the salt. It is necessary to therefore understand the behavior of the salts to effectively design, operate, and regulate such reactors, and thus there is a need for thermodynamic models for the salt systems. Molten salts, however, are difficult to represent as they exhibit short-range order that is dependent on both composition and temperature. A widely useful approach is the modified quasichemical model in the quadruplet approximation that provides for consideration of first- and second-nearest-neighbor coordination and interactions. Its use in the CALPHAD approach to system modeling requires fitting parameters using standard thermodynamic data such as phase equilibria, heat capacity, and others. A shortcoming of the model is its inability to directly vary coordination numbers with composition or temperature. Another issue is the difficulty in fitting model parameters using regression methods without already having very good initial values. The proposed paper will discuss these issues and note some practical methods for the effective generation of useful models.
Highlights
The turn of the 21st century saw the return of interest in molten salt reactor (MSR)
The worldwide interest in MSRs encompasses a broad range of concepts that manifest as differing salt compositions
As noted in the roadmap, a thermodynamic database focused on MSR modeling needs is a priority and has led to the development of the Molten Salt Thermal Properties
Summary
The turn of the 21st century saw the return of interest in molten salt reactor (MSR). The worldwide interest in MSRs encompasses a broad range of concepts that manifest as differing salt compositions These vary from thermal reactors fueled/cooled with 66LiF34BeF2 mol%, known as FLiBe, to those for fast reactors with 46.5LiF-11.5NaF-42KF mol%, known as FLiNaK. As noted in the roadmap, a thermodynamic database focused on MSR modeling needs is a priority and has led to the development of the Molten Salt Thermal Properties. Group Thermodata Europe (SGTE) Molten Salt Database [6] as international resources Tions [7,8]
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