Open Access

ARTICLE

Restoration of Wind Speed in Qinzhou, Guangxi during Typhoon Rammasun

Aodi Fu¹, Mingxuan Zhu², Wenzheng Yu^1,*, Xin Yao¹, Hanxiaoya Zhang³

1 School of Geographical Sciences, Nanjing University of Information Science & Technology, Nanjing, 210044, China
2 School of Applied Meteorology, Nanjing University of Information Science & Technology, Nanjing, 210044, China
3 Faculty of Science, the University of Auckland, Auckland, 1010, New Zealand

* Corresponding Author: Wenzheng Yu. Email:

Journal on Big Data 2022, 4(1), 77-86. https://doi.org/10.32604/jbd.2022.027477

Received 04 March 2022; Accepted 06 April 2022; Issue published 04 May 2022

Abstract

In 2014, Typhoon Rammasun invaded Qinzhou, Guangxi, causing damage to the wind tower sensor at 80 m in Qinzhou. In order to restore the wind speed at 80 m at that time, this paper was based on the hourly average wind speed data of the wind tower and meteorological station from 2017–2019, and constructed the wind speed related model of Meteorological Station and the wind measuring tower in Qinzhou, Moreover, this paper Based on the hourly average wind speed data of Qinzhou Meteorological Station in 2014, Restored the hourly average wind speed of the anemometer tower during Rammasun landfalled. The results showed it is significant correlation that the hourly mean wind speed of the wind tower at 80 m and the hourly mean wind speed of meteorological station at 100 m (R²= 0.9632), and speed of the wind measuring tower and speed of meteorological station constitutes an equation, This equation is Y = 0.7834X. The hourly average wind speed of the wind tower at 80 m during the 2014 Rammasun Landing was restored using this model. See the results in Schedule 4.

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Keywords

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