Spray cooling is a tremendously complex phenomenon that has yet to be completely and successfully modeled. This is due to the complexity of the detailed droplet impingement processes and the subsequent heat transfer process. Numerous assumptions must be made in order to accurately model spray behavior. Current computational limitations restrict CFD simulations to single droplet simulations. Additional complexity due to droplet interactions negates the possibility of combining multiple single droplet studies to represent the complete spray process. Therefore, a need has been established for the development of a comprehensive spray impingement simulation with adequate physical complexity to yield accurate results within a relatively short run time. The present work attempts to develop such a model using modeling assumptions from the best available literature, and to combine them into a single spray impingement simulation. Initial flow parameters that have been chosen include flow rate of 10 GPH with a velocity of 12 m/s and average droplet diameter of 48 μm. These values produce the following non‐dimensional number ranges: We 100–1800, Re 200–4500, Oh 0.01–0.05. Numerical and experimental correlations have been identified that represent crater formation, splashing, film thickness, and droplet size and spatial flux distributions. A combination of these methods has resulted in an initial spray impingement simulation that is capable of simulating 100,000 drops or an actual simulation time of 0.0167 seconds. Comparisons of results from this code with experimental results show a similar trend in surface behavior.


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    Titel :

    Monte‐Carlo Spray Cooling Model


    Beteiligte:
    Kreitzer, Paul J. (Autor:in) / Kuhlman, John M. (Autor:in) / Robertson, Glen A. (Herausgeber:in)

    Kongress:

    SPACE, PROPULSION & ENERGY SCIENCES INTERNATIONAL FORMUM SPESIF‐2010: 14th Conference on Thermophysics Applications in Microgravity 7th Symposium on New Frontiers in Space Propulsion Sciences 2nd Symposium on Astrosociology 1st Symposium on High Frequency Gravitational Waves ; 2010 ; Huntsville (Alabama)


    Erschienen in:

    AIP Conference Proceedings ; 1208 , 1 ; 84-98


    Erscheinungsdatum :

    28.01.2010


    Format / Umfang :

    15 pages





    Medientyp :

    Aufsatz (Konferenz)


    Format :

    Elektronische Ressource


    Sprache :

    Englisch



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