Environmental Simulator Application to the Analysis of the Tropical Cyclone of Gonu in 2007 <Articles>
国際協力研究誌 Volume 15 Issue 1・2
Page 47-63
published_at 2009-03-31
アクセス数 : 1043 件
ダウンロード数 : 142 件
今月のアクセス数 : 5 件
今月のダウンロード数 : 1 件
この文献の参照には次のURLをご利用ください : https://doi.org/10.15027/29783
File |
JIDC_15-1_47.pdf
907 KB
種類 :
fulltext
|
Title ( eng ) |
Environmental Simulator Application to the Analysis of the Tropical Cyclone of Gonu in 2007 <Articles>
|
Creator |
Haggag Mohammed
|
Source Title |
国際協力研究誌
Journal of International Development and Cooperation
|
Volume | 15 |
Issue | 1・2 |
Start Page | 47 |
End Page | 63 |
Abstract |
Asia Environment Simulator (AES) is a coupled system of computer simulation for meteorology, physical oceanography, land surface, vegetation, hydrology, coastal dynamics, and urban environment. The atmosphere, land surface, and hydrology models of AES have been applied to the analysis of the cyclone Gonu that had a landfall in Oman in June 2007. Gonu considered the strongest tropical cyclone ever recorded in the northern Indian Ocean, and the first fifth-category cyclone to enter the Arabian Sea. AES is applied to study the hydroclimatological features followed the landfall of the Cyclone Gonu in Oman. The significant discrepancy between the rainfall records at the ground rainfall gauges in Oman and the remote sensing estimates is clarified by using AES in simulating the cyclone Gonu hydroclimatological characteristics. Direct and indirect assessment methods show that the cumulative simulated rainfall depth is relevant to those estimated by satellites, whereas there is a considerable difference with the records at the ground rain gauges. By performing hydrological simulation of Wadi Hayafdh in Oman, it is found that the computed peak discharge and the runoff volume based on the ground rain gauges records are significantly higher than the corresponding observed peak discharge and runoff volume at the watershed outlet. Whereas, the computed peak discharge and the runoff volume based on computed rainfall depth are representing the observed values with high accuracy. Results from AES recommend instant assessment and evaluation of the ground rain gauges network such that it can be used safely in various future developing projects in the Omani area.
|
NDC |
Earth sciences. Geology [ 450 ]
|
Language |
eng
|
Resource Type | departmental bulletin paper |
Publisher |
広島大学大学院国際協力研究科
|
Date of Issued | 2009-03-31 |
Publish Type | Version of Record |
Access Rights | open access |
Source Identifier |
[ISSN] 1341-0903
[NCID] AN10482914
|