Dry air properties can be calculated at temperatures as low as 150 K. Properties of mixtures with water contents below 40 percent (by mass) can be calculated at temperatures from 273.2 to 1497 K and pressures to 450 MN/sq m. Then it uses simple mixing laws to calculate the properties of air water mixtures. The WETAIR calculates the properties of dry air and water (steam) by interpolating to obtain values from property tables. It determines the thermodynamic state from assigned values of temperature and density, pressure and density, temperature and pressure, pressure and entropy, or pressure and enthalpy. THERMODYNAMICS CALCULATOR FOR CODEWETAIR: A computer code for calculating thermodynamic and transport properties of air-water mixturesĪ computer program subroutine, WETAIR, was developed to calculate the thermodynamic and transport properties of air water mixtures. Condensed species, as well as gaseous species, are considered in the thermodynamic calculation but only the gaseous species are considered in the transport calculations. The program has the capability of performing calculations such as:(1) chemical equilibrium for assigned thermodynamic states, (2) theoretical rocket performance for both equilibrium and frozen compositions during expansion, (3) incident and reflected shock properties, and (4) Chapman-Jouguet detonation properties. I will also describe the use of first-principles thermodynamic calculations for understanding problems including core solubility in gas giants and superionic phase changes in ice giants, as well as future prospects for combining first-principles thermodynamics with planetary-scale models to help us understand the origin and consequences of compositional inhomogeneity in giant planet interiors.įORTRAN 4 computer program for calculation of thermodynamic and transport properties of complex chemical systemsĪ FORTRAN IV computer program for the calculation of the thermodynamic and transport properties of complex mixtures is described. Here I will describe recent advances in first-principles thermodynamic calculations which substantially increase the simplicity and efficiency of thermodynamic integration and make entropic properties more readily accessible. Determining entropic properties from atomistic simulations is a difficult problem typically requiring a time-consuming integration over molecular dynamics trajectories. Advances in first-principles calculations of thermodynamic properties of planetary materials (Invited)įirst-principles atomistic simulation is a vital tool for understanding the properties of materials at the high-pressure high-temperature conditions prevalent in giant planet interiors, but properties such as solubility and phase boundaries are dependent on entropy, a quantity not directly accessible in simulation.
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |