Numerical Solution on the Flow Field and the Concentration of the Push-Pull Ventilation System

Numerical Solution on the Flow Field and the Concentration of the Push-Pull Ventilation System

碩士 === 北台科學技術學院 === 機電整合研究所 === 94 === This study is aimed at the discussion on the capture efficiency and the concentration distribution of the dispersed toxic gas by using the push-pull hood. The numerical method was employed with FLUENT software to analysis the flow and concentration distribution...

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Bibliographic Details
Main Authors: Min-Che Lee, 李旻哲
Other Authors: Ren-Hong Xie
Format: Others
Language:zh-TW
Published: 2006
Online Access:http://ndltd.ncl.edu.tw/handle/26977832654609793792
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spelling ndltd-TW-094NTIS76510152015-10-13T10:38:07Z http://ndltd.ncl.edu.tw/handle/26977832654609793792 Numerical Solution on the Flow Field and the Concentration of the Push-Pull Ventilation System 推抽式通風系統之流場與濃度之模擬分析 Min-Che Lee 李旻哲 碩士 北台科學技術學院 機電整合研究所 94 This study is aimed at the discussion on the capture efficiency and the concentration distribution of the dispersed toxic gas by using the push-pull hood. The numerical method was employed with FLUENT software to analysis the flow and concentration distribution of the push-pull ventilation. The speed and the height of the pushing gas and pulling gas were adjusted to simulate the effect of the concentration distribution. By mean of the relation between the variables of the push-pull ventilation and the concentration distribution, the result showed the better concentration value 0.01, capture efficiency with 99%, was affected by the speed of the push-pull hoods, not the height of push-pull hoods. The flange of hood benefits the capture effect more than the raising of the push-pull hoods. Ren-Hong Xie 謝仁泓 2006 學位論文 ; thesis 95 zh-TW
collection NDLTD
language zh-TW
format Others
sources NDLTD
description 碩士 === 北台科學技術學院 === 機電整合研究所 === 94 === This study is aimed at the discussion on the capture efficiency and the concentration distribution of the dispersed toxic gas by using the push-pull hood. The numerical method was employed with FLUENT software to analysis the flow and concentration distribution of the push-pull ventilation. The speed and the height of the pushing gas and pulling gas were adjusted to simulate the effect of the concentration distribution. By mean of the relation between the variables of the push-pull ventilation and the concentration distribution, the result showed the better concentration value 0.01, capture efficiency with 99%, was affected by the speed of the push-pull hoods, not the height of push-pull hoods. The flange of hood benefits the capture effect more than the raising of the push-pull hoods.
author2 Ren-Hong Xie
author_facet Ren-Hong Xie
Min-Che Lee
李旻哲
author Min-Che Lee
李旻哲
spellingShingle Min-Che Lee
李旻哲
Numerical Solution on the Flow Field and the Concentration of the Push-Pull Ventilation System
author_sort Min-Che Lee
title Numerical Solution on the Flow Field and the Concentration of the Push-Pull Ventilation System
title_short Numerical Solution on the Flow Field and the Concentration of the Push-Pull Ventilation System
title_full Numerical Solution on the Flow Field and the Concentration of the Push-Pull Ventilation System
title_fullStr Numerical Solution on the Flow Field and the Concentration of the Push-Pull Ventilation System
title_full_unstemmed Numerical Solution on the Flow Field and the Concentration of the Push-Pull Ventilation System
title_sort numerical solution on the flow field and the concentration of the push-pull ventilation system
publishDate 2006
url http://ndltd.ncl.edu.tw/handle/26977832654609793792
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