Effect of Additional Structure on Effective Stack Height of Gas Dispersion in Atmosphere

Effect of Additional Structure on Effective Stack Height of Gas Dispersion in Atmosphere

Wind-tunnel experiments were conducted to evaluate the effect of additional structure (building, sea wall and banking) on the effective stack height, which is usually used in safety analyses of nuclear power facilities in Japan. The effective stack heights were estimated with and without the additio...

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Bibliographic Details
Main Authors: Takenobu Michioka, Koichi Sada, Kazuki Okabayashi
Format: Article
Language:English
Published: MDPI AG 2016-03-01
Series:Atmosphere
Subjects:
wind-tunnel experiment
effective stack height
gas dispersion
Online Access:http://www.mdpi.com/2073-4433/7/4/50
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spelling doaj-28387fd011ca44caac5e7b8ea306f09f2020-11-25T00:17:39ZengMDPI AGAtmosphere2073-44332016-03-01745010.3390/atmos7040050atmos7040050Effect of Additional Structure on Effective Stack Height of Gas Dispersion in AtmosphereTakenobu Michioka0Koichi Sada1Kazuki Okabayashi2Environmental Science Research Laboratory, Central Research Industry of Electric Power Industry, 1646 Abiko, Abiko-shi, Chiba-ken 270-1194, JapanNuclear Risk Research Center, Central Research Industry of Electric Power Industry, 1646 Abiko, Abiko-shi, Chiba-ken 270-1194, JapanFluid Dynamics Research Department, Research & Innovation Center, Technology & Innovation Headquarters, Mitsubishi Heavy Industries, Ltd., 5-717-1 Fukahori-machi, Nagasaki 851-0392, JapanWind-tunnel experiments were conducted to evaluate the effect of additional structure (building, sea wall and banking) on the effective stack height, which is usually used in safety analyses of nuclear power facilities in Japan. The effective stack heights were estimated with and without the additional structure in addition to the reactor building while varying several conditions such as the source height, the height of additional structure and the distance between the source position and the additional structure. When the source height is equivalent to the reactor building height, the additional structure enhances both the vertical and horizontal gas dispersion widths and decreases the ground gas concentration, and it means that the additional structure does not decrease the effective stack height. When the source height is larger than the reactor height, the additional structures might affect the effective stack height. As the distance between the source and the additional structure decreases, or as the height of the additional structure increases, the structure has a larger effect on the effective stack height.http://www.mdpi.com/2073-4433/7/4/50wind-tunnel experimenteffective stack heightgas dispersion
collection DOAJ
language English
format Article
sources DOAJ
author Takenobu Michioka
Koichi Sada
Kazuki Okabayashi
spellingShingle Takenobu Michioka
Koichi Sada
Kazuki Okabayashi
Effect of Additional Structure on Effective Stack Height of Gas Dispersion in Atmosphere
Atmosphere
wind-tunnel experiment
effective stack height
gas dispersion
author_facet Takenobu Michioka
Koichi Sada
Kazuki Okabayashi
author_sort Takenobu Michioka
title Effect of Additional Structure on Effective Stack Height of Gas Dispersion in Atmosphere
title_short Effect of Additional Structure on Effective Stack Height of Gas Dispersion in Atmosphere
title_full Effect of Additional Structure on Effective Stack Height of Gas Dispersion in Atmosphere
title_fullStr Effect of Additional Structure on Effective Stack Height of Gas Dispersion in Atmosphere
title_full_unstemmed Effect of Additional Structure on Effective Stack Height of Gas Dispersion in Atmosphere
title_sort effect of additional structure on effective stack height of gas dispersion in atmosphere
publisher MDPI AG
series Atmosphere
issn 2073-4433
publishDate 2016-03-01
description Wind-tunnel experiments were conducted to evaluate the effect of additional structure (building, sea wall and banking) on the effective stack height, which is usually used in safety analyses of nuclear power facilities in Japan. The effective stack heights were estimated with and without the additional structure in addition to the reactor building while varying several conditions such as the source height, the height of additional structure and the distance between the source position and the additional structure. When the source height is equivalent to the reactor building height, the additional structure enhances both the vertical and horizontal gas dispersion widths and decreases the ground gas concentration, and it means that the additional structure does not decrease the effective stack height. When the source height is larger than the reactor height, the additional structures might affect the effective stack height. As the distance between the source and the additional structure decreases, or as the height of the additional structure increases, the structure has a larger effect on the effective stack height.
topic wind-tunnel experiment
effective stack height
gas dispersion
url http://www.mdpi.com/2073-4433/7/4/50
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AT koichisada effectofadditionalstructureoneffectivestackheightofgasdispersioninatmosphere
AT kazukiokabayashi effectofadditionalstructureoneffectivestackheightofgasdispersioninatmosphere
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