The experimentation on a boiling flow is important to analyze its flow regimes, void fraction distribution, and pressure drop. In the practical field, the boiling flow in a channel produces sustained oscillation with a higher dimensional chaos. The high dimensional chaos is quite unpredictable in long time span. Even long term future prediction of deterministic chaos is impossible due to its dynamic nature. With an artificial intelligence like neural network tool, individualy, the dynamic behavior is difficult to predict. It only predits the static nature where it determines the flow behavior with its information at a particular time. The method shown here is effective to design a new surface and device to enhance heat transfer with safety parameter.
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The experimentation on a boiling flow is important to analyze its flow regimes, void fraction distribution, and pressure drop. In the practical field, the boiling flow in a channel produces sustained oscillation with a higher dimensional chaos. The high dimensional chaos is quite unpredictable in long time span. Even long term future prediction of deterministic chaos is impossible due to its dynamic nature. With an artificial intelligence like neural network tool, individualy, the dynamic behavior is difficult to predict. It only predits the static nature where it determines the flow behavior with its information at a particular time. The method shown here is effective to design a new surface and device to enhance heat transfer with safety parameter.