Analysis of Wave Characteristics over HsinChu Water

Beng Chun Lee, Yang Ming Fan

研究成果: Paper同行評審

摘要

This paper adopts statistical methods to understand the wind and wave characteristics over the Hsinchu Water, where there are three observing pots: the coastal wind station, the Hsinchu data buoy station, the Kuokwang oil platform station. Based on the results of analysis, the following features over this water have been found. The wind fields over this water are dominated by monsoon. The wind speeds near coasts are less than those near offshore. However, the trends of observed wind speed among stations are similar. The differences of wind direction show that the deviations are smaller as the wind speed increased among three stations. The wave periods are normal distributions observed at buoy and platform stations, but the wave heights are not. There are, sometimes, two wave systems appeared in the join wave-period distribution. High correlations and lag time at +00-hr, or 2-hr are found between the wind and the wave observing item in each offshore station. The correlated formula for wave heights itself are power regression type for the summer, winter, and typhoon seasons. The typhoon cases are the highest correlation. Furthermore, the wave heights in Kuokwang oil platform area can be estimated from calculating the product of the Markov transfer matrix and wave height measured by the Hsinchu data buoy station. The error decreases when the wave heights increase, and it has the highest error in the summer season, smallest value in the typhoon duration. For the interesting high wave height, the error is less than 20%.short abstract (50 to 100 words) in a single paragraph should be included here.

原文English
頁面143-149
頁數7
出版狀態Published - 2002 12月 1
事件Proceedings of the Twelfth (2002) International Offshore and Polar Engineering Conference - Kitakyushu, Japan
持續時間: 2002 5月 262002 5月 31

Other

OtherProceedings of the Twelfth (2002) International Offshore and Polar Engineering Conference
國家/地區Japan
城市Kitakyushu
期間02-05-2602-05-31

All Science Journal Classification (ASJC) codes

  • 能源工程與電力技術
  • 海洋工程
  • 機械工業

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