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内置有障碍物时排风柜性能的实验研究 被引量:7

Experimental Study on Performance of Fume Hood with Obstacle Located inside
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摘要 排风柜性能受到很多因素影响。本文采用实验方法分析了排风柜拉门高度500mm和拉门全开,不同面风速时,柜内障碍物对排风柜性能的影响。实验结果表明:排风柜面风速分布均匀性与面风速大小和柜内障碍物阻挡率呈线性函数关系;面风速越小,障碍物阻挡率越大,排风柜性能和面风速分布均匀性更差。 The performance of fume hood is related to many factors.Experimental method is used to research on the performance of obstacle located inside fume hood when the height of sash is at 500mm and maximum opening under different face velocity.The results show that the performance of fume hood is linearly related to face velocity and the area ratio of open of fume hood blocked by obstacles;the uniformity of face velocity of fume hood becomes worsen when face velocity is lower and the area ratio of open of fume hood blocked by obstacles is greater.
作者 王新林 刘东 程勇 王康 胡强
机构地区 同济大学暖通空调及燃气研究所
出处 《建筑热能通风空调》 2012年第1期23-27,共5页 Building Energy & Environment
关键词 障碍物 面风速分布 流动显示 obstacles distribution of face velocity flow visualization
分类号 TU831 [建筑科学—供热、供燃气、通风及空调工程]
作者简介 王新林(1986-),女,硕士研究生;上海市四平路1239号同济大学济阳楼408室(200092);021—65981390E—mail:wxll201@yahoo.com.cn
  • 相关文献

参考文献8

  • 1Ngiam Soon Lan,Shekar Viswanathan.Numerical simulation ofairflow around a variable volume/constant face velocity fumecupboard[J].AIHAJ,2001,62:303-312.
  • 2Allan T Kirkpatrick,Robert Reither.Numerical simulation oflaboratory fume hood airflow performance[J].ASHRAE Transa-ction,1998,104:999-1011.
  • 3Peixin Hu,D B Ingham,X Wen.Effect of the location theexhaust duct,an exterior obstruction and handle on the air flowinside and around a fume cupboard[J].Ann.occup.Hyg.,1996,40:127-144.
  • 4Li-Ching,Rong Fung Huang,Chih-Chieh Chen.Significance offace velocity fluctuation in relation to laboratory fume hoodperformance[J].Industrial Health,2010,48:43-51.
  • 5陈道俊,李强民.送风对实验室排风柜气流控制的影响[J].制冷空调与电力机械,2004,25(6):22-24. 被引量:10
  • 6Laboratory Fume Cupboards Recommendations for the Exchangeof Information and Recommendation(British Standard 7258-2:1994)[S].
  • 7程勇,刘东.实验室两台排风柜同时运行时性能的模拟研究[J].制冷空调与电力机械,2010,31(6):1-6. 被引量:14
  • 8国家机械工业局.排风柜(JB/T6412-1999)[S].北京:国家机械工业局.1999.

二级参考文献12

  • 1陈道俊,李强民.送风对实验室排风柜气流控制的影响[J].制冷空调与电力机械,2004,25(6):22-24. 被引量:10
  • 2[1]IAN B D MCLNTOSH, CHAD B DORGAN, CHARLES E DORGAN.ASHRAE laboratory design guide [M]. American Society of Heating,refrigerating and Air-conditioning Engineers, Inc. 2001.
  • 3[2]British Standard 7258-2:1994, Laboratory fume cupboards-recommendations for the exchange of information and recommendations for installation[S].
  • 4[3]DIBERARDINIS L J, J S BAUM, M W FIRST, G T GATWOOD, E GRODEN,A K SETH. Guidelines for Laboratory Design: Health and Saftey Considerations [M], 2nd ed. New York: John Wiley & Sons Inc.1993.
  • 5[4]WUNDER J S. Personel communication from operating experiences with laboratory equipment[R]. University of Wisconsin-Madison, 2000.
  • 6JB/T6412-1999,中华人民共和国机械行业标准-排风柜[S].
  • 7NGIAM SOON LAN,SHEKAR VISW ANATHAN.Numerical simulation of airflow around a variable volume/constant face velocity fume cupboard[J].AIHAJ,2001,62:303 - 312.
  • 8ALLAN T KIRKPATRICK,ROBERT REITHER.Numerical simulation of laboratory fume hood airflow performance[J].ASHRAE Transactions,1998,104:999-1011.
  • 9张鸣远,景思睿,李国君.高等工程流体力学[M].西安:西安交通大学出版社,2007.
  • 10DALE T HITCHINGS,KAREN MAUPINS.Using the ASHRAE110 test as a TQM tool to improve laboratory fume hood performance[J].ASHRAE Transactions,1997,103(2):851-862.

共引文献20

同被引文献28

  • 1陈道俊,李强民.送风对实验室排风柜气流控制的影响[J].制冷空调与电力机械,2004,25(6):22-24. 被引量:10
  • 2Lan Ngiam Soon, Viswanathan Shekar. Numerical simulation of airflow around a variable volume/ constant face velocity fume cupboard [J]. AIHAJ, 2001,62 (3) : 303- 312.
  • 3Kirkpatrick A T, Reither R. Numerical simulation of laboratory fume hood airflow performance [ G] // ASHRAE Trans, 1998, 104(2) :1- 13.
  • 4Hu Peixin, Ingham D B, Wen X. Effect of the location of the exhaust duct, an exterior obstruction and handle on the air flow inside and around a fume cupboard[J]. The Annals of Occupational Hygiene, 1996,40(2) :127-144.
  • 5Monsen R tL Practical solution to retrofitting existing fume hoods and laboratories[C]//ASHRAE Trans, 1989,95 (2) :42-53.
  • 6同济大学,宜兴市展宏环保设备有限公司.JB/T6412--1999排风柜[S].北京:机械工业出版社,1999.
  • 7Pathanjali C, Rahman M M. Study of flow patternsin fume hood enclosures [J]. Energy ConversionEngineering Conference, 1996(3) :2003-2008.
  • 8Kirkpatrick A T, Reither R. Numerical simulation oflaboratory fume hood airflow performance [G] //ASHRAE Trans,1998,104(2) : 999—1011.
  • 9Nicholson G P,Clark R P, Calcina-goff M L D.Computational fluid dynamics as a method for assessingfume cupboard performance [ J]. The Annals ofOccupational Hygiene,2000,44(3) :203-217.
  • 10Durst F, Pereira J C F. Experimental and numericalinvestigations of the performance of fume cupboards[J].Building and Environment,1991,26(2) :153-164.

引证文献7

二级引证文献15

建筑热能通风空调
2012年 第1期

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