After the event, the meteorological station is analyzing the super-strong storm, “Typhoon ‘Tiangu’ in front of Macao, rapid increase. However, in addition to the above explanation provided at the time of the meteorological station’s call, there are other studies. There is no trial version at all.

《Shoshin》August 2022 special issue | “Tenko” 5th anniversary

On August 23, 2017, the Typhoon “Tenkou” in Macao rapidly increased to 10 (kt) in 3 small hours. “Tenko” Possessed Super 50ms-1 The city was created with heavy wind speed on the ground, destruction and impact that did not exist before the formation of the social society and the economic system. Chemical development has a key effect, especially when a storm hits the beach and the sea surface temperature (SST) cools down to a meager 0.1-0.5°C. There is no cold water in the deep waters of the ocean, and the surface cold of the water volume is minimal.2.

Numerical experiments on atmospheric models show that the intensity of the “Tiangu” is sensitive to the likelihood of sea heat transfer along the coastal zone, demonstrating the importance of marine hydrology along the sea. . [Pun I-F, Chan JCL, Lin I-I, Chan KTF, Price JF, Ko DS, Lien C-C, Wu Y-L, Huang H-C.《Rapid Intensification of Typhoon Hato (2017) over Shallow Water. Sustainability》2019; 11(13):3709.]

A 3D near-shore hydropower model is used during the crawling study…Detailed analysis of the Pearl River Mouth tidal interaction features during the August 2017 storm “Tiangu”. Weiring District Bunzhujiangkou astronomical tide, wind storm tide and tidal interaction effect, in addition to the de-tidal regulation effect, the strong tidal regulation of the storm tide anomaly and the tidal phase change proportionality influence the wind storm tide level. The studies in this section proceed with surveying using the mass ‘cancellation’ method and the new ‘new increase’ method (…). A detailed analysis of the adopted “new” increase” law progression draws the following conclusions. [Zheng P, Li M, Wang C, Wolf J, Chen X, De Dominicis M, Yao P and Hu Z (2020) Tide-Surge Interaction in the Pearl River Estuary: A Case Study of Typhoon Hato. Front. Mar. Sci. 7:236. doi: 10.3389/fmars.2020.00236]

On August 23, 2017, the 3rd class hurricane “Tenkou” swept the southern part of China. Target flood depth and distance at 278 different locations. , Of course, how the tide level during the landing period of “Tenko”, the inner harbor is washed away from the beginning, and the maximum depth of the water is half a meter to one meter. The brewing water area drops evenly, but the low tide level is raised a notch, giving more accurate results. The worst situation, strong and mature θ.[Li, L., Yang, J., Lin, C.-Y., Chua, C. T., Wang, Y., Zhao, K., Wu, Y.-T., Liu, P. L.-F., Switzer, A. D., Mok, K. M., Wang, P., and Peng, D.: Field survey of Typhoon Hato (2017) and a comparison with storm surge modeling in Macau, Nat. Hazards Earth Syst. Sci., 18, 3167–3178, , 2018.]

The research is on the theme of the 2017 level 3 Typhoon “Tiangu” awarding the Pearl Triangle Area, the coming destruction and the underlying dangers. Sun and Pearl Triangle and landing period, Shenzhen station measurement results can be divided into medium strength southwest wind and mild northerly wind change to strong easterly wind.-1 Sum 30ms-1 that’s all. At Zhuhai, the closest landing site, the maximum wind speed and the maximum wind formation interval reach 29.9 ms, respectively, as indicated by the sky observation record.-1sum 50 ms-1The above is the highest speed achieved during the 2012 strong wind “Waimori Toku”, breaking through the new high school in the history of creation. August 22, i.e., the day before the landing of “Tiangu”, the maximum temperature of Shenzhen, Macao and Hong Kong was 38.4.and 38C sum 36.9C. Phenomena such as slumber motion, internal flat currents, and cloud cover reduction caused by the observed hot band rotation before landfall are all likely induction factors for high temperature and air mass differences. Triangular construction collapsed, returning to high temperature and poor air volume.[Eric C. H. Chow, Min Wen, Lei Li, Marco Y. T. Leung, Paxson K. Y. Cheung and Wen Zhou: Assessment of the Environmental and Societal Impacts of the Category-3 Typhoon Hato, Atmosphere 2019, 10(6), 296; ]

Previous Page |

Source link

Previous articleFactbox: The latest information on the global spread of coronavirus
Next articleEveren unveils new brand identity and logo