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Study on Environmental Conservation in Suo Nada Region (1st Report) : Stream Line Analysis and Investigation on Atmospheric Diffusion near the Ground in a Small Scale Headland

Memoirs of the Faculty of Engineering, Yamaguchi University Volume 22 Issue 1 Page 43-53
published_at 1971
KJ00000155847.pdf
[fulltext] 1 MB
Title
周防灘地域の環境保全に関する研究〔I〕 : 局地風の流線観測と螢光微粒子による拡散実験
Study on Environmental Conservation in Suo Nada Region (1st Report) : Stream Line Analysis and Investigation on Atmospheric Diffusion near the Ground in a Small Scale Headland
Creators Fujiwara Teruo
Creators Motoda Yushiro
Creators Shiotsuki Yoshiharu
Source Identifiers
Creator Keywords
genetic algorithms neural networks architecture optimization structure simplification
Characteristics of the wind structure near the ground and the atmospheric diffusion on small scale headland (Chigasaki, Saga Pref., 1000m. 800m) are investigated by means of flag net-work observation (for the former) and the fluorescent particle (F. P.) tracer technique (for the latter) for Jul. 10-16,1969. Results of stream line analysis and the comparison of the observed particle concentration by rotor rod samplers network with the calculated ones by the diffusion equation of the continuous point source and Pasquill's formula, are as follows : 1) When south-western wind is stronger than 5m/s, the vertical wind fields are often appeared at the southern part of the headland. 2) In other west and north-estern wind field, vortex are not appeared so much as in the south-western wind. 3) In this investigated headland where is very abundant in bushes and ups and downs of terrain, the values of observed F. P. concentration do not agree so well with the calculated values by the diffusion equation (Eq. 3) and Pasquill's formula as the hitherto results in the open flat region. But taking into account of the accuracy of the observed values, the availability of Pasquill's formula is comparatively recognized even in such a small scale region. 4) The values of F. P. concentration are extremely small at the downwind part of hill, the area of bushes and the valley. Accordingly, the atmospheric diffusion near the ground is much influenced by the effect of terrain and roughness of the ground surface.
Subjects
土木工学 ( Other) 環境学 ( Other)
Languages jpn
Resource Type departmental bulletin paper
Publishers 山口大学工学部
Date Issued 1971
File Version Version of Record
Access Rights open access
Relations
[ISSN]0372-7661
[NCID]AN00244228
Schools 工学部