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Prediction of indoor gaseous pollutant dispersion by nesting sub-zones within a multizone model

Stewart, John / Ren, Zhengen

AbstractA zonal model has been nested within a multizone model (COMIS) to allow increased resolution in the prediction of local air flow velocities, temperature and concentration distributions between and within rooms. Numerical simulations from the new program have been compared with published experimental measurements and results from other models. The comparisons indicate that this new program is a potentially useful tool for predicting air flows, temperature and contaminant distributions within some buildings.

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Prediction of indoor gaseous pollutant dispersion by nesting sub-zones within a multizone model

Stewart, John / Ren, Zhengen

AbstractA zonal model has been nested within a multizone model (COMIS) to allow increased resolution in the prediction of local air flow velocities, temperature and concentration distributions between and within rooms. Numerical simulations from the new program have been compared with published experimental measurements and results from other models. The comparisons indicate that this new program is a potentially useful tool for predicting air flows, temperature and contaminant distributions within some buildings.

Prediction of indoor gaseous pollutant dispersion by nesting sub-zones within a multizone model

Stewart, John / Ren, Zhengen

AbstractA zonal model has been nested within a multizone model (COMIS) to allow increased resolution in the prediction of local air flow velocities, temperature and concentration distributions between and within rooms. Numerical simulations from the new program have been compared with published experimental measurements and results from other models. The comparisons indicate that this new program is a potentially useful tool for predicting air flows, temperature and contaminant distributions within some buildings.

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Check availability in my library

Order at Subito €

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Title:

Prediction of indoor gaseous pollutant dispersion by nesting sub-zones within a multizone model

Contributors:

Stewart, John (author) / Ren, Zhengen (author)

Published in:

Building and Environment ; 38 ; 635-643

Publication date:

2002-11-28

Size:

9 pages

ISSN:

DOI:

https://doi.org/10.1016/S0360-1323(02)00234-2

Type of media:

Article (Journal)

Type of material:

Electronic Resource

Language:

English

Keywords:

Zonal models , Multizone models , COMIS , Indoor pollutant transport

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