系統識別號 | U0002-0106200700392300 |
---|---|
DOI | 10.6846/TKU.2007.00011 |
論文名稱(中文) | 利用區域化法推估台灣地區未設站地點年最大ㄧ日雨量之頻率 |
論文名稱(英文) | Frequency Analysis of Annual Maximum 1-Day Rainfall for Ungauged Sites in Taiwan Using Regionalization Approach |
第三語言論文名稱 | |
校院名稱 | 淡江大學 |
系所名稱(中文) | 水資源及環境工程學系碩士班 |
系所名稱(英文) | Department of Water Resources and Environmental Engineering |
外國學位學校名稱 | |
外國學位學院名稱 | |
外國學位研究所名稱 | |
學年度 | 95 |
學期 | 2 |
出版年 | 96 |
研究生(中文) | 黃亮芸 |
研究生(英文) | Liang-Yun Huang |
學號 | 694330530 |
學位類別 | 碩士 |
語言別 | 繁體中文 |
第二語言別 | |
口試日期 | 2007-05-16 |
論文頁數 | 68頁 |
口試委員 |
指導教授
-
蕭政宗(jtshiau@mail.tku.edu.tw)
委員 - 黃文政 委員 - 張麗秋(changlc@mail.tku.edu.tw) |
關鍵字(中) |
區域頻率分析 指數洪水法 線性動差 克利金 年最大一日雨量 |
關鍵字(英) |
Regional frequency analysis Index flood method L-moment Kriging Annual maximum 1-day rainfall |
第三語言關鍵字 | |
學科別分類 | |
中文摘要 |
本文研究目的在於應用區域化方法以推估台灣地區未設站地點不同頻率之年最大一日雨量,本文首先利用指數洪水法(index flood method)配合由線性動差所推估之參數來建立區域頻率模式,並以克利金法(kriging)推估未設站地點之平均年最大一日雨量,以進行該地點之頻率分析。區域頻率模式的建立是以均勻區域為單元,本文將以集群分析(cluster analysis)依各測站之座標與年最大一日雨量之平均值及變異係數來劃分均勻區域,並以線性動差為基礎的不一致及異質性估量來檢定所劃分區域內資料的一致性及均勻性,其次再以適合度估量選取最佳區域頻率模式。本文以台灣地區77個雨量站的年最大一日雨量為分析基礎,經以集群分析判定最佳均勻區域劃分數為三區,各區域之最佳頻率分佈除一區為通用帕雷托分佈(generalized Pareto distribution)外,其餘二區均為皮爾遜第Ⅲ型分佈Pearson type Ⅲ distribution)。至於未設站地點之頻率分析,本文將先以克利金法建立年最大一日雨量平均值及變異係數之空間變異量(variogram)模式,未設站地點即可據以推估其年最大一日雨量平均值及變異係數,其次計算未設站地點座標與年最大一日雨量平均值及變異係數至各均勻區域中心之距離,以最小距離來判定未設站地點所歸屬的區域,之後即可利用該區域所建立之區域頻率模式及該地點推估之平均年最大一日雨量進行該地點之頻率分析。 |
英文摘要 |
The purpose of the study aims to estimate frequencies of annual maximum 1-day rainfall for ungauged sites in Taiwan using regionalization approach. The index flood method with parameters estimated by L-moments is used to establish the regional frequency model. Kriging is then employed to estimate the mean annual maximum 1-day rainfall of ungauged sites in order to analyze the rainfall magnitudes of various frequencies. Delineation of homogeneous regions is determined by cluster analysis in this study based on the coordinates of the rainfall gauge stations, the means and coefficient of variation of the annual maximum 1-day rainfall. The L-moment based discordancy, heterogeneity, and goodness-of-fit measures are then used to detect unusual sites and select the optimal regional probability models. In this study, a total of 77 rainfall gauge stations are used as the basis to estimate the frequencies of the annual maximum 1-day rainfall for ungauged sites. The number of homogeneous regions derived by cluster analysis is 3. The best regional probability model for one region is Pearson type Ⅲ distribution, and generalized Pareto distribution is the best model for the other two regions. Frequency analysis for ungauged sites needs to establish the variogram models of the mean and coefficient of variation of the annual maximum 1-day rainfall first. The obtained variogram models is then used to estimate the mean annual maximum 1-day rainfall for the ungauged sites. The ungauged sites belong to which homogeneous region depend on the minimum distance to the centroid of the homogeneous regions. Combined with the derived regional frequency model and estimated mean annual maximum 1-day rainfall, the computing procedures of frequency analysis for ungauged sites are identical with the procedures of gauged sites. |
第三語言摘要 | |
論文目次 |
誌謝 I 中文摘要 II Abstract III 目錄 V 表目錄 VIII 圖目錄 IX 符號表 X 第一章、緒論 1 1.1研究動機及目的 1 1.2文獻回顧 2 1.3本文架構 4 第二章、研究方法 5 2.1雨量資料趨勢檢定 5 2.2區域頻率模式的建立 6 2.2.1 均勻區域的劃分 7 2.2.2指數洪水法 11 2.2.3線性動差法推估參數 13 2.2.4資料不一致性檢定 15 2.2.5資料均勻性檢定 16 2.2.6機率分佈適合度檢定 17 2.3無因次區域年最大一日雨量機率分佈 18 2.4 區域頻率分析 23 2.4.1設站地點之頻率分析 23 2.4.2未設站地點之頻率分析 24 第三章、雨量資料概述 34 第四章、結果與討論 35 4.1年最大一日雨量趨勢檢定 35 4.2均勻區域劃分結果 35 4.3均勻區域內年最大一日雨量檢定 43 4.3.1一致性檢定 43 4.3.2均勻性檢定 43 4.4均勻區域內頻率模式建立 44 4.5設站地點之頻率分析 47 4.6未設站地點之頻率分析 54 4.7區域頻率模式驗證 60 五、結論 62 參考文獻 63 表目錄 表2- 1不一致估量的刪除標準 16 表3- 1本文所選用雨量站基本資料 29 表3- 2本文所選用各雨量站之年最大一日雨量特性 31 表4- 1各區域各雨量站動差比及不一致估量 37 表4- 2各區域異質性估量 44 表4- 3各區域適合度估量 45 表4- 4各區域所選定之機率分佈函數及其參數值 45 表4- 5各區域各站不同復現期之年最大一日雨量 52 表4- 6未設站地點之頻率分析 59 表4- 7各均勻區域刪除站頻率分析誤差 60 圖目錄 圖3- 1本文所選用雨量站相關位置圖 28 圖3- 2各雨量站年最大ㄧ日雨量平均值之等值線圖 33 圖3- 3各雨量站年最大ㄧ日雨量變異係數之等值線圖 34 圖4- 1不同分群數目之側影圖 39 圖4-2各均勻區域分區結果 42 圖4-3各區域之無因次年最大一日雨量機率分佈函數 46 圖4-4各區域之無因次年最大一日雨量分位數 47 圖4-5各區域不同復現期與無因次年最大一日雨量關係圖 48 圖4- 6第Ⅰ區各站不同復現期之年最大一日雨量關係圖 50 圖4- 7第Ⅱ區各站不同復現期之年最大一日雨量關係圖 50 圖4- 8第Ⅲ區各站不同復現期之年最大一日雨量關係圖 51 圖4- 9理論變異量模式與實測變異量之比較 55 圖4- 10假設未設站地點之位置圖 57 |
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