水庫操作對於短期洪災與長期缺水風險分析之研究

Wen-Ming Cheng; 鄭文明

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/31596

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	徐年盛
dc.contributor.author	Wen-Ming Cheng	en
dc.contributor.author	鄭文明	zh_TW
dc.date.accessioned	2021-06-13T03:15:31Z	-
dc.date.available	2011-08-03
dc.date.copyright	2011-08-03
dc.date.issued	2011
dc.date.submitted	2011-07-29
dc.identifier.citation	Anderson, M.G. and Burt, T.P., 1985. Hydrological forecasting. John Wiley & Son, Chichester. Ang, A.H. and Cornell, C.A., 1974. Reliability bases of structure safety and design. Journal of Structure Division, ASCE, 100 (9): 1755-1769. Archfield, S.A. and Vogel, R.M., 2005. Reliability of reservoir firm yield determined from the historical drought of record. World Water and Environmental Resources Congress 2005, Anchorage, Alaska. Bertoli, L. and Moisello, U., 1993. A regional model for estimating the probability distribution of routed peak discharges. Journal of Hydrology, 153: 103-138. Chang, L.C., Chang, F.J., 2009. Multi-objective evolutionary algorithm for operating parallel reservoir system. Journal of Hydrology, 377: 12-20. Chang, L.C., Chang, F.J., 2001. Intelligent control for modelling of real-time reservoir operation. Hydrological Processes, 15: 1621-1634. Chow, V.T., Maidment, D.R. and Mays, L.W., 1988. Applied hydrology. McGraw-Hill, New York. Eisel, L.M. and Haimes, Y.Y.,1981. Uncertainty: the water resources decision-making dilemma. Risk/Benefit Analysis in Water Resources Planning and Management, Plenum Press. Hazen, A., 1914. Discussion on ‘Flood flows’ by W. E. Fuller. Transactions of the American Society of Civil Engineers, 77: 526-632. Howe, C.W. and Smith, M.G., 1994. The value of supply reliability in urban water system. Journal of Environmental Economic and Management, 26: 19-30. Hsu, N.-S., Cheng, W.-C., Cheng, W.-M., Wei, C.-C., Yeh, W. W.-G., 2008. Optimization and capacity expansion of a water distribution system. Advances in Water Resources, 31(5): 776-786. Klemes, V., 1967. Reliability of water supply performed by means of a storage reservoir within a limited period of time. Journal of Hydrology, 5: 70-92. Klemes, V., 1969. Reliability estimates for a storage reservoir with seasonal input. Journal of Hydrology, 7: 198-216. Kuo, J.-T., Hsu, N.-S. and Chiu, S.-K., 2006. Optimization and risk analyses for rule curves of reservoir operation: application to Tien-Hua-Hu Reservoir in Taiwan. Water Science & Technology, 53(10): 317-325. Kuo, J.-T., Yen, B.-C., Hsu, Y.-C. and Lin, H.-F., 2007. Risk analysis for dam overtopping-Feitsui Reservoir as a case study. Journal of Hydraulic Engineering, 133(8): 955-963. Levin, O., 1969. Optimal control of a storage reservoir during a flood season. Automatica, 5(1): 27-34. Neumann, J.V., Metropolis, N., Ulam, S., 1949. The Monte Carlo Method. Journal of American Statistic Association, 44(247): 335-341. Ostfeld, A., 2001. Reliability analysis of regional water distribution systems. Urban Water, 3: 253-260. Paik, K., 2008. Analytical derivation of reservoir routing and hydrological risk evaluation of detention basins. Journal of Hydrology, 352(1-2): 191-201. Panda, R.K., Pramanik, N., Bala, B., 2010. Simulation of river stage using artiﬁcial neural network and MIKE 11 hydrodynamic model. Computers & Geosciences. 36: 735-745. Rosenblatt, F. 1958. The perceptron: a probabilistic model for information storage and organization in the brain. Psychological Review, 65: 386-408. Salas, J.A., Johnstone, K. and Ellar, D.J., 1985. Role of uricase in the triggering of germination of Bacillus fastidiosus spores. Biochemical Journal, 229: 241-249. Seibert, J., 2001. On the need for benchmarks in hydrological modeling. Hydrological Processes, 15(6): 1063-1064. Soncini-Sessa, R., Zuleta, J. and Piccardi, C., 1990. Remarks on the application of a risk-averse approach to the management of ‘ElCarrizal’ reservoir. Advances in Water Resources, 13(2): 76-84. Stedinger, J.R., Vogel, R.M., Foufoula-Georgiou, E., 1993. Frequency analysis of extreme events. McGraw-Hill, New York. Tolson, B.A., Maier, H.R. and Simpson, A.R., 2001. Water distribution network reliability estimation using the first-order reliability method. World Water and Environmental Resources Congress 2001, Orlando, Florida, USA. Tung, Y.K. and Yen, B.C., 2005. Hydrosystems engineering reliability assessment and risk analysis. McGraw-Hill, New York, 7.1-7.55. Tu, M.-Y., Hsu, N.-S., Yeh, W. W.-G., 2003. Optimization of reservoir management and operation with hedging rules. Journal of Water Resources Planning and Management, ASCE, 129(2): 86-97. Vogel, R.M. and Bolognese, R.A., 1995. Storage-reliability-resilience-yield relations for over-year water supply systems. Water Resources Research, 31(3): 645-654. Weibull, W., 1939. A statistical theory of the strength of materials. Irg. Vetenskaps Akad. Handl. Wood, E.A., 1977. An analysis of flood levee reliability. Water Resources Research, 13(3): 665-671. Wurbs, R.A., 2005. Modeling river/reservoir system management, water allocation, and supply reliability. Journal of Hydrology, 300: 100-113. Wurbs, R.A. and Cabezas, L.M., 1987. Analysis of reservoir storage reallocations. Journal of Hydrology, 92: 77-95. 魏志強，多水庫系統最佳防洪操作之研究，國立台灣大學土木工程學系博士論文，2007。經濟部水利署水利規劃試驗所，提升台灣水資源運用效率之研究(3/3)，台灣大學水工所，2006。經濟部水利署水利規劃試驗所，提升台灣水資源運用效率之研究總報告，台灣大學水工所，2006。經濟部水利署北區水資源局，北部地區水源及自來水系統最佳調配及可靠度分析，台灣大學水工所，2006。林宥成，水利設施多元系統可靠度之研究，國立台灣大學土木工程學系碩士論文，2006。蔡亞欣，模糊範例學習推論系統於水位預測之研究，國立台灣大學生物環境系統工程學系碩士論文，2004。蔡嘉訓，多水庫系統聯合操作模擬模式與逐時段優選求解方法之建立與應用，國立台灣大學生物環境系統工程學系碩士論文，2004。徐年盛、魏志強，水庫防洪運轉規則對缺水風險之影響分析，中華水資源管理學會，水資源管理2003研討會，pp.8-1-8-13，2003.12。張斐章、張麗秋、黃浩倫，類神經網路：理論與實務，台灣東華書局，2003。台灣地區水資源開發綱領計畫，經濟部，2002。黃文政、袁倫欽、楊富堤，石門水庫供水能力之探討，中華水資源管理學會，水資源管理2002研討會，pp.297-308，2002。郭振泰、徐年盛、許勝田，濁水溪流域水資源整體最佳利用規劃，國立台灣大學水工試驗所研究報告，經濟部水利處中區水資源局委託計畫，2001。經濟部水資源局，水文設計應用手冊，國立台灣大學生物環境系統工程學系，2001。徐年盛、葉文工、杜明彥、魏志強，水庫清淤對供水營運之風險評估，國立台灣大學水工試驗所研究報告，經濟部水資源局委託計畫，2001。許永佳，水壩溢流之風險分析－以翡翠水庫為例，國立台灣大學土木工程學系碩士論文，2001。李光敦，水文學，五南圖書出版公司，2000。顏本琦、林惠芬，台灣地區水庫入流泥砂、水質觀測方法及水壩安全評估風險分析-水庫安全評估風險分析(三)，美國伊利諾大學土木工程系，經濟部水資源局委託計畫，2000。鄭志偉，最佳防洪運轉下水庫洪峰水位之不確定性，國立成功大學水利及海洋工程研究所碩士論文，2000。周乃昉、黃義銘，南部區域水資源調配模式之初步研究，第九屆水利工程研討會論文集，pp.D23-D33，1998。張景忠，「翡翠水庫洪水溢流風險分析之研究」，國立台灣大學農業工程學研究所碩士論文，1997。林佳珍，馬可夫鏈在評估水庫容量風險性之應用，國立成功大學水利及海洋工程學系碩士論文，1995。周乃昉、徐享崑、林佳珍，水庫蓄水機率分佈及供水可靠度，八十三年度農業工程研討會論文集，pp.59-69，1994。
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/31596	-
dc.description.abstract	本研究之目的在於提出一方法及研究分析步驟，以供評估水庫防洪操作在不同之起始水位下，對長期枯水期間缺水及短期颱風期間下游控制點溢流之風險。本研究蒐集歷史颱風期間之水庫洪水入流歷線，藉由蒙地卡羅模擬法合成大量之水庫入流量歷線，放入防洪操作模式模擬得到防洪操作結束之水庫水位，並以此為起始條件由水庫優化調配模式，計算枯水期間之供水情形；颱風期間模擬防洪操作時之水庫放水量，則由倒傳遞類神經模式計算河道下游之水位變化，進而求得間下游控制點颱風期間之最高水位。最後經由風險分析之方法以考量安全邊際之方式，計算得到不同水庫防洪起始下，枯水期間之缺水及颱風期間下游溢流風險。本研究以台灣大漢溪流域石門水庫作為研究區域，研究結果顯示不同之水庫防洪起始水位，對於需水點枯水期缺水風險之變化影響甚大，且缺水風險隨著水庫上限值之增加而明顯降低，但對於颱風期間下游控制點溢流風險之變化影響甚小，且溢流風險隨著水庫上限值之增加而些微升高。由上述分析結果，建立洪災與缺水風險關係圖，以此作為水庫操作者及決策者，制訂洪汛期間水庫最佳起始水位之參考。	zh_TW
dc.description.abstract	This study proposes a methodology to assess the risk of the water shortage during a drought period and the risk of the downstream over-levee flows during a flood period based on the reservoir operation rules for flood control. These rules are defined by upper limits (or flood control storage zone). Through a Monte Carlo simulation, a series of hydrographs are generated to represent the reservoir inflow during a flood period based on historic typhoon events. This series of generated hydrographs are then applied to a reservoir flood operation simulation model. The simulation model calculates the water levels of reservoir at the end of a flood period and the reservoir release during the typhoon events. Reservoir release is used to calculate the water level at downstream control locations for evaluation of a short-term over-levee risk. The ending water level of the reservoir is used as the initial condition for a water distribution optimization model that evaluates drought conditions for long-term water supply. By applying risk analysis, an assessment is made on the risk of both the water shortage during a drought and over-levee flows during flooding seasons. Based on the results of the risk analysis, we evaluate the relationship among upper-limit sets, shortage risk, and over-levee risk and also provide reservoir operation suggestions based on the risk evaluation.	en
dc.description.provenance	Made available in DSpace on 2021-06-13T03:15:31Z (GMT). No. of bitstreams: 1 ntu-100-D95521029-1.pdf: 1551057 bytes, checksum: 0f350586616d86140639eb38e062599a (MD5) Previous issue date: 2011	en
dc.description.tableofcontents	口試委員會審定書 i 致謝 ii 摘要 iv Abstract v 目錄 vi 圖錄 viii 表錄 ix 一、前言 1 1.1 研究動機 1 1.2 研究目的 2 二、文獻回顧 3 2.1 水庫供水系統可靠度或缺水風險分析方面 3 2.2 水庫防洪運轉風險分析方面 5 2.3 水庫等其他相關風險及可靠度分析方面 6 三、研究方法及步驟 10 3.1 流量歷線之合成方法 12 3.2 防洪操作模擬 21 3.3 優化調配模式 22 3.4 類神經網路原理概述及應用 27 3.5 風險分析理論 37 四、方法應用 41 4.1 區域概述 41 4.2 水庫入流歷線之合成 45 4.3 優化調配模式輸入資料及模式建立 51 4.4 類神經網路模式計算水庫下游控制點水位 56 4.5 風險分析之作業函數選定與阻抗門檻值設定 63 4.6 方法應用結果 66 五、結論與建議 74 5.1 結論 74 5.2 建議 75 參考文獻 76 附錄一石門水庫防洪操作規則附錄一-1 附錄二風險分析相關成果附錄二-1 簡歷簡-1
dc.language.iso	zh-TW
dc.title	水庫操作對於短期洪災與長期缺水風險分析之研究	zh_TW
dc.title	A Risk Analysis Study: Management of Short-term Flood Events and Long-term Water Needs via Reservoir Operation	en
dc.type	Thesis
dc.date.schoolyear	99-2
dc.description.degree	博士
dc.contributor.oralexamcommittee	張斐章,劉振宇,廖朝軒,魏志強
dc.subject.keyword	風險分析,優化調配模式,水庫防洪操作,蒙地卡羅模擬,	zh_TW
dc.subject.keyword	Optimization model,Reservoir flood operation,Monte Carlo simulation,	en
dc.relation.page	80
dc.rights.note	有償授權
dc.date.accepted	2011-07-29
dc.contributor.author-college	工學院	zh_TW
dc.contributor.author-dept	土木工程學研究所	zh_TW
顯示於系所單位：	土木工程學系

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