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研究生: 蔡雅婷
Ya-Ting Tsai
論文名稱: 納莉颱風登陸時的結構演化
Typhoon Nari''s structure changs durung landing.
指導教授: 陳台琦
Tai-Chi Chen
口試委員:
學位類別: 碩士
Master
系所名稱: 地球科學學院 - 大氣物理研究所
Graduate Institute of Atmospheric Physics
畢業學年度: 94
語文別: 中文
論文頁數: 66
中文關鍵詞: 切向風徑向風
外文關鍵詞: tangential wind, radial wind
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    • 本研究利用雙雷達風場合成和反演擾動壓力場,進而分析颱風風場在登陸期間結構的變化,瞭解颱風和地形間的交互作用,再藉由動量方程式的診斷分析,進一步了解颱風在登陸期間,造成颱風結構產生變化的原因。
    分析結果為:登陸時颱風風場具有不對稱的特徵,切向風場受到地形影響,會使原本傾斜的垂直結構變的較為直立,徑向風低層徑向入流會沿著地形增厚。中高層切向風場在雪山山脈附近,強風速區會有變寬的現象,由剖面得知此現象和垂直傳送有關,也造成切向風的非軸對稱特徵。中層徑向風場在山脈的附近有徑向外流極大值產生,中高層之徑向風場,在分析範圍北面風速值有隨時間增加而產生氣旋式平移的現象,由徑向風場弧狀剖面發現,徑向風低層為入流、中層為外流,而高層為入流和外流,低層徑向入流隨地形增加而明顯變厚。
    由動量方程收支發現,切向風風速值隨時間遞減,其中由近地層向上傳送因地面摩擦之較低切向風的垂直傳送十分重要;垂直傳送項對低層入流增厚有相當程度的貢獻。

    In order to understand the relationship between the typhoon and topography this study utilize dual-doppler radar synthesis to compose three-dimensional wind and retrieval the perturbation pressure field, mechanisms of the structures change during typhoon landing.
    The analysis results are typhoon wind field was asymmetric during landfall. Influenced by the topography the titled maximum tangential wind over the ocean side becomes more vertically over the terrain. Low level inflow also becomes thicker over land. Near the Snow Mountains the tangential wind strong wind speed district becomes wider on the middle and high level. This phenomenon is caused by the vertical transport and subsequently induces tangential wind asymmetry. The outflow maximum appears near the mountain on the middle level.
    From analysis the momentum budget equation, we found the tangential wind decrease with time, is major due to the low level upwards transport of the smaller tangential wind. And the vertical transport term also is important to the low level radial inflow becomes thicker over the terrain.

    摘要 ……………………………………………………………………Ⅰ 目錄 ……………………………………………………………………Ⅲ 附圖說明 ………………………………………………………………Ⅳ 第一章 續論 …………………………………………………………01 1-1 前言 …………………………………………………………01 1-2 論文回顧 ……………………………………………………01 1-3 研究動機 ……………………………………………………04 第二章 資料來源與分析方法 ………………………………………06 2-1 資料來源 ……………………………………………………06 2-2 雷達資料處理與合成 ………………………………………07 2-3 分析區域內之地形 …………………………………………07 2-4 分析方法 ……………………………………………………07 第三章 颱風結構的演化 ……………………………………………11 3-1 雷達回波場隨時間的變化 …………………………………11 3-2 登陸前的風場結構 …………………………………………12 3-3 登陸前後之風場和擾動壓力場 ……………………………12   3-4 登陸後的颱風風場 …………………………………………14 第四章 登陸前後颱風內核區的結構特徵 …………………………15 4-1 雙雷達合成之風場及回波場 ………………………………15 4-2 切向風和徑向風的水平結構特徵 …………………………16 4-3 風場結構之徑向剖面 ………………………………………16 4-4 切向風和徑向風之弧狀剖面 ………………………………18 4-5 徑向絕對角動量之垂直結構 ………………………………19 第五章 利用動量方程式分析颱風非軸對稱結構的變化 …………21 5.1 水平擾動壓力場 ……………………………………………22 5.2 登陸時切向風減弱的動力機制 ……………………………22 5.3 登陸時徑向風增厚的動力機制 ……………………………24 第六章 結論與未來展望 ……………………………………………26 6-1 結論 …………………………………………………………26 6-2 未來展望 ……………………………………………………27 參考文獻 ………………………………………………………………29 附圖 ………………………………………………………………… 32

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