Applications of Artificial Neural Network for the Prediction of Flow Boiling Curves
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概要
- 論文の詳細を見る
An artificial neural network (ANN) was applied successfully to predict flow boiling curves. The databases used in the analysis are from the 1960’s, including 1,305 data points which cover these parameter ranges: pressure P=100–1,000 kPa, mass flow rate G=40–500kg/m2·s, inlet subcooling ΔTsub=0–35°C, wall superheat ΔTw=10–300°C and heat flux Q=20–8,000 kW/m2. The proposed methodology allows us to achieve accurate results, thus it is suitable for the processing of the boiling curve data. The effects of the main parameters on flow boiling curves were analyzed using the ANN. The heat flux increases with increasing inlet subcooling for all heat transfer modes. Mass flow rate has no significant effects on nucleate boiling curves. The transition boiling and film boiling heat fluxes will increase with an increase in the mass flow rate. Pressure plays a predominant role and improves heat transfer in all boiling regions except the film boiling region. There are slight differences between the steady and the transient boiling curves in all boiling regions except the nucleate region. The transient boiling curve lies below the corresponding steady boiling curve.
- 社団法人 日本原子力学会の論文
- 2002-11-25
著者
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MORITA Koji
Department of Applied Quantum Physics and Nuclear Engineering, Kyushu University
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MATSUMOTO Tatsuya
Department of Applied Quantum Physics and Nuclear Engineering, Kyushu University
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Fukuda K
Department Of Applied Quantum Physics And Nuclear Engineering Kyushu University
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Morita Koji
Department Of Applied Quantum Physics And Nuclear Engineering Kyushu University
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Fukuda Kenji
Department Of Applied Quantum Physics And Nuclear Engineering Kyushu University
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MORITA Koji
National Institute for Materials Science
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AKASAKA Ryo
Institute of Environmental Systems
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MATSUMOTO Tatsuya
Kyushu University
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MORITA Koji
Kyushu University
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FUKUDA Kenji
Kyushu University
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PIDDUCK Mark
Kyushu University
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AKASAKA Ryo
Kyushu University
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Matsumoto Tatsuya
Department Of Applied Quantum Physics And Nuclear Engineering Kyushu University
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Jia D
School Of Energy And Power Engineering Xi'an Jiaotong University
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Akasaka R
Institute Of Environmental Systems Kyushu University
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Akasaka Ryo
Kyushu Lutheran Coll. Kumamoto Jpn
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Su Guanghui
School Of Energy And Power Engineering Xi'an Jiaotong University
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Morita Koji
Institute Of Environmental Systems Faculty Of Engineering Kyushu University
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Morita Koji
Department Of Materials Science And Technology Graduate School Of Engineering Sciences Kyushu Univer
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