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This study explains how cloud algorithms can be used in the heat power processes calculations for the thermal power plants, for example, the processes of expansion or throttling of the steam, compression water in the pump. Information technology for the Internet libraries of equations is provided.
Mathcad and Excel sheets of the Study in attach
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On the site Interactive Equations - Knovel
now (up 2015/09/25) we can use 50 sheets with properties of water and steam
You can download sheets of figures:
Fig. 5.1. Calculation Process throttling and expansion of steam in the turbine
Fig. 5.2. Pump performance calculation
Fig. 5.3. Thermodynamic parameters of a human heart
Fig. 5.4. Calculation of water mass flow in MS Excel (demonstration of calculated values and formulas used; work with connected WaterSteamPro package)
Fig. 5.5. Calculation of water flow rate in Mathcad: usage of a reference to a "cloud" function
Fig. 5.6. Calculation of water mass flow rate in SMath: operation with a function in hidden area
Fig. 5.7. Network calculation of water flow rate (a task which is inverse to the ones shown in Figs. 5.4–5.6) - http://twt.mpei.ac.ru/MCS/Worksheets/mass2volume.xmcd
Fig. 5.8. Link to www.knovel.com from Mathcad 15
Fig. 5.9. Authoring Mathcad-calculations at Elsevier/Knovel web-sites
Fig. 5.10. Home page of e-publishing house Elsevier with a list of online tools
Fig. 5.10a. New home page of e-publishing house Elsevier with an information about Knovel
Fig. 5.11. Interactive tools from Knovel
Fig. 5.12. Home page of Knovel’s Interactive Equations
Fig. 5.13. Reference to pump power calculation in Interactive Equations of Knovel
Fig. 5.14. Interactive calculation of pump power at Knovel’s web-site
Fig. 5.15. Function of Knovel’s Interactive Equations converting water density (a part of the function is shown)
Fig. 5.16. Mathcad-calculation of pump power downloaded from Knovel’s Interactive Equations
Fig. 5.17. E-guide on thermal and physical properties of individual substances
Fig. 5.18. Interactive network calculation of specific heat capacity of gaseous ozone