Research and improvement of shell and tube heat exchanger design auxiliary system
碩士 === 大葉大學 === 機械工程學系碩士班 === 91 === The purpose of this study is to build a heat exchanger auxiliary system through distributed framework. Distributed framework integrates databases, which are scattered everywhere, by network. Databases concentrate on data manipulation only, while AP Server does th...
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ndltd-TW-091DYU004890172016-06-13T04:16:29Z http://ndltd.ncl.edu.tw/handle/42881447110418081196 Research and improvement of shell and tube heat exchanger design auxiliary system 殼管式熱交換器程式之研究與改良 傅毓恩 碩士 大葉大學 機械工程學系碩士班 91 The purpose of this study is to build a heat exchanger auxiliary system through distributed framework. Distributed framework integrates databases, which are scattered everywhere, by network. Databases concentrate on data manipulation only, while AP Server does the calculation. And therefore the setup of distributed framework will increase the performance. Meanwhile, the isolated User Interface can downgrade the hardware requirement of frontend facilities. It will provide a user-friendly environment and tremendously minimizes the user’s effort. The practical application in this study is to calculate the size and tubes that were needed in shell and tube heat exchanger design. There are two main kinds of flow in shell side. One is counter flow; the other is cross flow. The counter flow solutions show acceptable results compared with experimental and real design. The counter flow algorithm itself proves, and therefore can simplify the heat exchanger design process. 謝其源 2003 學位論文 ; thesis 60 zh-TW |
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碩士 === 大葉大學 === 機械工程學系碩士班 === 91 === The purpose of this study is to build a heat exchanger auxiliary system through distributed framework. Distributed framework integrates databases, which are scattered everywhere, by network. Databases concentrate on data manipulation only, while AP Server does the calculation. And therefore the setup of distributed framework will increase the performance. Meanwhile, the isolated User Interface can downgrade the hardware requirement of frontend facilities. It will provide a user-friendly environment and tremendously minimizes the user’s effort.
The practical application in this study is to calculate the size and tubes that were needed in shell and tube heat exchanger design. There are two main kinds of flow in shell side. One is counter flow; the other is cross flow. The counter flow solutions show acceptable results compared with experimental and real design. The counter flow algorithm itself proves, and therefore can simplify the heat exchanger design process.
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謝其源 |
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謝其源 傅毓恩 |
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傅毓恩 |
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傅毓恩 Research and improvement of shell and tube heat exchanger design auxiliary system |
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傅毓恩 |
| title |
Research and improvement of shell and tube heat exchanger design auxiliary system |
| title_short |
Research and improvement of shell and tube heat exchanger design auxiliary system |
| title_full |
Research and improvement of shell and tube heat exchanger design auxiliary system |
| title_fullStr |
Research and improvement of shell and tube heat exchanger design auxiliary system |
| title_full_unstemmed |
Research and improvement of shell and tube heat exchanger design auxiliary system |
| title_sort |
research and improvement of shell and tube heat exchanger design auxiliary system |
| publishDate |
2003 |
| url |
http://ndltd.ncl.edu.tw/handle/42881447110418081196 |
| work_keys_str_mv |
AT fùyùēn researchandimprovementofshellandtubeheatexchangerdesignauxiliarysystem AT fùyùēn kéguǎnshìrèjiāohuànqìchéngshìzhīyánjiūyǔgǎiliáng |
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