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Develops the thermosiphon heat recovery equipment based on the operating principle of the thermosiphon. According to test results under summer condition, analyses the influence of fresh air temperature, refrigerant charging rate, installation obliquity, number of the pipe rows and face velocity and the amount of recovered energy, and obtains the optimal match combination among the charging rate, obliquity, face velocity and number of the pipe rows. The results can be used as a reference for engineering.
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Pages: 58-62, 24
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Details
- Original title: [In Chinese. / En chinois.]
- Record ID : 2008-1338
- Languages: Chinese
- Source: HV & AC - vol. 37 - n. 206
- Publication date: 2007/12
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See other articles in this issue (5)
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Indirect evaporative cooling.
- Author(s) : MATHUR G. D.
- Date : 1992/04
- Languages : English
- Source: Heat. Pip. Air Cond. - vol. 64 - n. 4
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- Author(s) : HUIZINGA H. T.
- Date : 2009/02
- Languages : Dutch
- Source: Koude & Luchtbehandeling - vol. 102 - n. 2
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THERMOSIPHON COOLING.
- Author(s) : PEARSON S. F.
- Date : 1990
- Languages : English
- Source: Inst. Refrig., Adv. Proof - 1990.03.01; 10 p.; 10 fig.; 4 tabl.; 9 ref.
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Energie rückgewinnen in RLT-Systemen: Wie sinnv...
- Author(s) : RANNER U.
- Date : 2008/02/22
- Languages : German
- Source: CCI Zeitung - vol. 42 - n. 03
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An analysis of an evaporative water chiller.
- Author(s) : SUPPLE R. G., BROUGHTON D. R.
- Date : 1992/06
- Languages : English
- Source: ASHRAE Journal - vol. 34 - n. 6
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