Dissertation/ Thesis
以色格法描述淡水河系污染狀況之研究 ; Pollution in Danshuei River System as Illustrated by A Segmental Block Color Method
| العنوان: | 以色格法描述淡水河系污染狀況之研究 ; Pollution in Danshuei River System as Illustrated by A Segmental Block Color Method |
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| المؤلفون: | 陳妙玲, Chen, Miao-Ling |
| المساهمون: | 白書禎, 臺灣大學:海洋研究所 |
| سنة النشر: | 2005 |
| المجموعة: | National Taiwan University Institutional Repository (NTUR) |
| مصطلحات موضوعية: | 色格法, Segmental Block Color Method |
| الوصف: | 本研究建立一個可同時提供地理位置及測值濃度多項資訊的色格圖展示法,綜觀描述淡水河水質污染情形。所使用的資料來自環保署淡水河系河川水質2001年度監測計畫,該計畫在3大支流設有32個測站,經重整劃分成66個河段,在Excel試算表上依地理分布之相關位置設定色格,選定每季10個測項,分別將數據填入格中,再依濃度範圍標以顏色,如此可突顯淡水河系各測項的異常分布情形。由2001年度資料所畫的四季色格圖譜,可發現異常分佈河段通常為:新店溪,秀朗橋到華江橋之間;大漢溪,三鶯橋與浮州橋之間;基隆河,暖江橋到成美大橋之間。此種污染分佈趨勢幾無季節差別。三條支流會合後,各污染指標逐漸恢復正常,乃是因為受河口潮汐沖刷與海水稀釋之故。本文所建議的色格法將許多不同的資訊同時展現,使觀者得以快速進行數據之研判,更能貼切的描述河川水質污染狀況。用色格法表示的圖譜也適合製作成網頁,供一般產官學界人士及民眾參考。 ; A segmental block color method has been proposed for displaying pollution conditions in the Danshuei River System, which provides the geographic location and other information simultaneously on a diagram. Data used in this work was taken from a monitoring report for the Environmental Protection Agency. A total of 32 station’s along the three major branches were re-arranged into 66 sections, and data were filled into the MS Excel worksheet according to their corresponding positions. The cell block was colored in different hue levels in order to signify its concentration range. The results for the 4 seasons plotting show that the major polluting river sections are : Hsingdien River, between Shulong and Huajiang Bridges; Dahan River, between Sanyin and Fuchao Bridges; Keelung River, between Neonjiang and Chenmei Bridges. Seasonal variations have been found but can not be identified without considering the river flux and rainfall. After merging with the three branches, the water quality in the main Danshuei River was found gradually back to normal, probably due to the dilution of seawater from the Taiwan Strait. The method has clearly illustrated many information on the same worksheet, thus facilitates readers to understand quickly the general status of pollution. The type of presentation as proposed in this work may be recommended for the public uses through an internet homepage. ; 目錄 目錄 --- Ⅰ 圖目錄 --- Ⅲ 表目錄 --- Ⅴ 摘要 --- Ⅵ 第一章前言 --- 01 1.1 緣起 --- 01 1.2 研究區域及背景 --- 02 1.3 研究動機及目的 --- 06 第二章材料及研究方法 --- 08 2.1資料來源及監測方法 --- 08 2.2水質項目之選取 --- 10 2.3測站統合 --- 17 2.4單位的統一 --- 19 2.5色標選擇 --- 21 2.6 作圖流程 --- 25 第三章河川監測色格圖法討論 --- 29 ... |
| نوع الوثيقة: | thesis |
| وصف الملف: | 772590 bytes; application/pdf |
| اللغة: | Chinese English |
| Relation: | 1.內政部營建署(2001)九十年營建統計年報。 2.行政院環保署(1997)八十五年台灣地區河川水質年報。 3.台北市衛生下水道工程處(1986)1986年淡水河系水污染調查報告。 4.行政院環保署(1992)泰晤士河整治史。 5.姚關穆(1999)淡水河系污染整治溯源,環境工程會刊,10(3)。 6.行政院環保署 (1996)淡水河系水污染防治決策系統之建立。 7.經濟部水利署(2003)九十年台灣地區水文年報。 8.行政院環保署(1992)81年淡水河系水質監測報告。 9.黃文政、楊富堤(1997)淡水河流域賀伯與溫妮颱風降雨量分析比較,八十六年電子計算機於土木水利工程應用論文研討會。 10.白書禎(2002)淡水河口的水質化學探析,科學月刊, 386(2):112-116。 11.郭子彥(2003)懸浮顆粒濃度在淡水河口之時空變化,國立臺灣師範大學地球科學研究所碩士論文。 12.行政院環保署(1996)淡水河系河川水質監測採樣技術手冊。 13.行政院環保署(1998)親近河-淡水河之戀。 14.行政院環保署(1998)淡水河系水質監測年報。 15.黃國銘(2002)淡水河系懸浮顆粒與沉積物重金屬之時空及沉降變化之研究,國立台灣大學海研所博士論文。 16.蘇仲卿、洪楚璋、陳汝勤(1985)淡水河流域河川流域及底泥重金屬分析之研究,中央研究院,環科會刊(34)。 17.台北市衛工處(1989)淡水河系水污染調查討論報告。 18.Hsu, M.H., Kuo, A.Y., Liu, W.C., Kuo, J.T. (1999) Water quality modeling of the Tanshui estuarine system in northern Taiwan, J. Environ. Sci. Health, A34 (7) : 1415-1453. 19.Hsu, M.H., Kuo, A.Y., Liu, W.C., Kuo, J.T. (1998) Modeling estuaryine hydrodynamics and salinity for wetland restoration, J. Environ. Sci. Health, A33 (5) : 891-921. 20.孫毓璋、彭竟凱(2001)大漢溪流域水體環境中重金屬及營養鹽分布之探討,台灣海洋學刊,39(2): 105-119。 21.陳章波、林志高、楊平世、謝蕙蓮、王慎之、龐元勳(1998)淡水河系污染整治對生物相群聚動態影響,行政院環境保護署。 22.林曉武(1999)淡水河底泥重金屬之沉降通量與垂直變化,行政院環保署。 23.Fang, T.H. (2000) Partitioning and behavior of different forms of phosphorus in Tanshui Estuary and one of its tributaries, northern Taiwan, Estuarine, Coastal and Shelf Sci. 50 : 689-701. 24.溫良碩、簡國童、楊益(2004)激盪之淡水河,全球變遷期刊,(42): 1-8。 25.行政院環保署(2001)九十年度淡水河系河川水質監測計畫。 26.U.S. APHA-AWWA-WPCF (1998) Standard Methods for the Examination of Water and Wastewater, 20th ed., American Public Health Assoc. , Washington D.C. 27.Warren, H.F., Whipple, G.C. (1895) The termophone - A new instrument for determining temperature, Mass. Inst. Technol. Quart., 8:125-137. 28.Clark, W.M. (1928) The Determination of Hydrogen Ions, 3rd ed. Williams&Wilkins Co., Baltimore, Maryland. 29.Willard, H.H., Merritt, L.L., Dean, J.A. (1974) Instrumental Methods of Analysis, 5th ed., D.Van Nostrand Co., New York, New York. 30.Kolthoff, I.M., Stenger, V.A. (1947) Volumetric Analysis, 2nd ed., Interscience Publishers, New York, New York. 31.Benson, B.B., Kravse, D. (1984) The concentration and isotopic fractionation of oxygen dissolved in freshwater and seawater in equilibrium with the atmosphere, Limnol. Oceanogr., 29:620. 32.Sawyer, C.N. (1953) pH adjustment for determination of ammonia nitrogen, Anal. Chem., 25: 816. 33.Boltz, D.F. (1958) Colorimetric Determination of Normentals, Interscience Publishers, New York, New York. 34.Symons, G.E., Morey, B. (1941) The effect of drying time on the determination of solids in sewage and sewage sludges, J. Sewage Works., 13:936. 35.Clark, H.F., Geldreich, E.E., Jeter, H.L., Kabler, P.W. (1951) The member filter in sanitary bacteriology, Pub. Health Rep., 66:951. 36.U.S. Environmental Protection Agency (1993) Methods for Determination of Inorganic Substances in Environmental Samples, EPA-600/R/93/100 – Draft, Environmental Monitoring Systems Lab., Cincinnati, Ohio. 37.Hazen, A. (1979) On the determination of chlorine in water, J. Amer. Chem., 11:409. 38.U.S. Environmental Protection Agency (1979) Methods for Chemical Analysis of Water and Wastes, Method 353. 3, U.S. Environmental Protection Agency, Washington D.C. 39.Edwards, G.P., Molof , A.H., Schneeman, R.W. (1965) Determination of orthophosphate in fresh and saline waters. J. Amer. Water Works Assoc., 57:917. 40.Sawyer, C.N., Bradney, L. (1946) Modernization of the BOD test for determining the efficiency of the sewage treatment process, J. Sewage Works., 18:1113. 41.Putwell, L.R. (1983) Standard COD, Chem. Brit., 19 : 907. 42.American Society for Testing and Material (1986) Annual Book of ASTM Standards, American Soc. Testing & Materials, Philadelphia, Pennsylvania. 43.溫良碩、劉康克、陳鎮東(1992)溶氧測定技術手冊,國科會海科中心。 44.陳鎮東(1994)海洋化學,國立編譯館編印、茂昌圖書有限公司發行。 45.歐陽嶠暉、徐玉標、溫清光、徐崇仁、陳伯中、曾迪華、余志達、萬騰州(1990)河川分類水質指標及河川污染指標之檢討,行政院環保署。 46.白書禎、張淑惠、郭廷瑜、李延財、曾婉綢(1999)翡翠水庫水體各種混濁指標之應用與濁度之時序對比,中華民國環境保護學會會誌,22 (2) : 85-98。 47.白書禎(2001)生活有機物污染,海洋(岸)污染的研判與採証技術訓練,海巡署,37 -41。 48.楊岱宜(2000)海水中氨氮測定干擾之研究,國立台灣大學海研所碩士論文。 49.許智為(2003)淡水河河口營養鹽變化之研究:多點採樣與定點延時觀察之比較,國立台灣大學海研所碩士論文。 50.行政院環保署(2002)91年河川環境整體調查監測計畫。 51.王玉懷、溫良碩(2001)淡水河口的潮流觀測,第二十三屆全國海洋工程研討會暨國科會海洋工程學門成果發表會。 52.高樹基、劉康克(2001)運用蘭陽溪之水文歷史資料做懸浮輸沙計算,地球科學集刊, 12 (2) : 401-414。 53.台北市翡翠水庫管理局(2002)翡翠水庫垂直結構季節變化檢驗與監測。 54.行政院行政院環保署環境水體水質監測資料庫,http://www.epa.gov.tw/。 55.交通部氣象局颱風資料庫,http://www.cwb.gov.tw/。 56.經濟部水利署水利資訊資料庫,http://www.wra.gov.tw/。; zh-TW; http://ntur.lib.ntu.edu.tw/handle/246246/56466; http://ntur.lib.ntu.edu.tw/bitstream/246246/56466/1/ntu-94-R89241410-1.pdf |
| الاتاحة: | http://ntur.lib.ntu.edu.tw/handle/246246/56466 http://ntur.lib.ntu.edu.tw/bitstream/246246/56466/1/ntu-94-R89241410-1.pdf |
| رقم الانضمام: | edsbas.EEAC379 |
| قاعدة البيانات: | BASE |
| الوصف غير متاح. |