Questions and comments about the software should be directed to Milo Koretsky. Maximum and average pressure deviations for the software and DECHEMA are approximately equal, except for the water-acetic acid system, where DECHEMA corrects for gas-phase association, whereas the text software does not. 345-347, sixteen binary vapor-liquid g E systems are randomly chosen from the DECHEMA data collection, and the best-fit models for the textbook software are compared with those reported by DECHEMA. Several examples in the textbook use ThermoSolver to derive saturation pressure values or solve nonlinear systems. Often these problems extend simple problems to more complex thermodynamic models, or ask the student to solve a complex thermodynamic system such as a dew point system which does not obey Raoult's law. Sixteen problems in the textbook ask the student to use ThermoSolver. The References section cites the sources from which the software's databases were developed. The Thermodynamic Principles section of the documentation explains the relevant thermodynamic equations and the algorithm used to solve the system. For the documentation table of contents, choose "Documentation" from the ThermoSolver programs menu in the Start bar, or press F1 at the ThermoSolver main menu. Press F1 at any time to get help on the current window. ThermoSolver provides context-sensitive HTML documentation. That fact can be verified by comparison with more complex thermodynamic models. This system happens to obey Raoult's law.
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |