Modeling the High-Pressure Ammonia−Water System with WATAM and the Peng−Robinson Equation of State for Kalina Cycle Studies

Abstract

The Kalina power cycle uses an ammonia−water mixture as the working fluid in the 283−866 K temperature range and at pressures up to 22 MPa. Modeling of these cycles, typically accomplished with a process simulator, requires accurate descriptions of the phase behavior of this binary. Therefore 58 previously published Pxy isotherms in the 203−618 K temperature range were used to evaluate the predictive capabilities of the Peng−Robinson (PR) equation of state (EOS) and WATAM. WATAM provided a much better correlation of saturated liquid densities than the PR EOS. Although both models adequately correlated liquid phase compositions, WATAM provided a better fit of the near-critical vapor phase data. The Peng−Robinson EOS consistently overestimated the mixture critical pressures. Several correlations, based on different objective functions, for the temperature-dependent binary interaction parameter were developed. Slight improvements in the predictive capabilities of the PR EOS were realized using the Panagiotop...