二維都市漫地流之分析研究

Chia-Chen Chien; 簡嘉貞

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/70724

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	游景雲(Jiing-Yun You)
dc.contributor.author	Chia-Chen Chien	en
dc.contributor.author	簡嘉貞	zh_TW
dc.date.accessioned	2021-06-17T04:36:12Z	-
dc.date.available	2018-08-13
dc.date.copyright	2018-08-13
dc.date.issued	2018
dc.date.submitted	2018-08-08
dc.identifier.citation	Abdullah, A. F., et al. 'Improved methodology for processing raw LiDAR data to support urban flood modelling–accounting for elevated roads and bridges.' Journal of Hydroinformatics 14.2 (2012): 253-269. Casas, A., et al. 'A method for parameterising roughness and topographic sub-grid scale effects in hydraulic modelling from LiDAR data.' (2010). Delleur, Jacques W. 'The evolution of urban hydrology: past, present, and future.' Journal of hydraulic engineering 129.8 (2003): 563-573. Devia, Gayathri K., B. P. Ganasri, and G. S. Dwarakish. 'A review on hydrological models.' Aquatic Procedia 4 (2015): 1001-1007. Downer, Charles W., and Fred L. Ogden. 'GSSHA: Model to simulate diverse stream flow producing processes.' Journal of Hydrologic Engineering 9.3 (2004): 161-174. El‐Nasr, Ahmed Abu, et al. 'Modelling the hydrology of a catchment using a distributed and a semi‐distributed model.'Hydrological processes 19.3 (2005): 573-587. Fatichi, Simone, et al. 'An overview of current applications, challenges, and future trends in distributed process-based models in hydrology.' Journal of hydrology 537 (2016): 45-60. Ghavidelfar, Saeed, Sayed Reza Alvankar, and Arash Razmkhah. 'Comparison of the lumped and quasi-distributed Clark runoff models in simulating flood hydrographs on a semi-arid watershed.' Water resources management 25.6 (2011): 1775-1790. Ghimire, Bidur, et al. 'Formulation of a fast 2D urban pluvial flood model using a cellular automata approach.' Journal of Hydroinformatics 15.3 (2013): 676-686. Guo, James C., and Ben Urbonas. 'Conversion of natural watershed to kinematic wave cascading plane.' Journal of Hydrologic Engineering 14.8 (2009): 839-846. Margot Leicher “Urban flood analyses in sloping areas with 3Di modelling.” A case study of Banholt and Mheer, the Netherlands (2016) Hamedi, Amirmasoud, and Hector R. Fuentes. 'Comparative Effectiveness and Reliability of NEXRAD Data to Predict Outlet Hydrographs Using the GSSHA and HEC-HMS Hydrologic Models.' World Environmental and Water Resources Congress 2015. 2015. Kazezyılmaz-Alhan, Cevza Melek, and Miguel A. Medina Jr. 'Kinematic and diffusion waves: analytical and numerical solutions to overland and channel flow.' Journal of Hydraulic Engineering 133.2 (2007): 217-228. Lal, AM Wasantha. 'Performance comparison of overland flow algorithms.' Journal of Hydraulic Engineering 124.4 (1998): 342-349. Leandro, Jorge, et al. 'Comparison of 1D/1D and 1D/2D coupled (sewer/surface) hydraulic models for urban flood simulation.' Journal of hydraulic engineering 135.6 (2009): 495-504. Lee, Joong Gwang, and James P. Heaney. 'Estimation of urban imperviousness and its impacts on storm water systems.' Journal of Water Resources Planning and Management 129.5 (2003): 419-426. Liu, Q. Q., et al. 'Two-dimensional kinematic wave model of overland-flow.' Journal of Hydrology 291.1-2 (2004): 28-41. Maksimović, Čedo, et al. 'Overland flow and pathway analysis for modelling of urban pluvial flooding.' Journal of Hydraulic Research 47.4 (2009): 512-523. Mejía, Alfonso I., and Glenn E. Moglen. 'Impact of the spatial distribution of imperviousness on the hydrologic response of an urbanizing basin.' Hydrological Processes 24.23 (2010): 3359-3373. Pina, Rui, et al. 'Semi-distributed or fully distributed rainfall-runoff models for urban pluvial flood modelling? ' (2014). Vojinovic, Zoran, et al. 'Modelling floods in urban areas and representation of buildings with a method based on adjusted conveyance and storage characteristics.' Journal of Hydroinformatics 15.4 (2013): 1150-1168. Zhang, Yu, and William Shuster. 'Impacts of spatial distribution of impervious areas on runoff response of hillslope catchments: simulation study.' Journal of Hydrologic Engineering 19.6 (2013): 1089-1100.
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/70724	-
dc.description.abstract	因極端氣候的發生，近年來洪災頻傳，都市淹水成為非常熱門的議題。起初，由於資料不足，再加上對都市漫地流的運作模式沒有完全性的了解，人們使用一維模式模擬都市漫地流。一維模式將整個集水區做子集水區切割，每一個子集水區中的漫地流則透過計算矩形斜板流的方式計算。近年來，電腦科技的進步帶動二維模式快速發展。透過二維模式模擬，我們可以更清楚的了解都市漫地流在二維空間中的流動方式，以及造成的影響。然而，越精細的二維模擬就需耗費越多的計算資源、模擬時間，以及非常多的資料量需求，因此這次研究主要探討二維模式的必要性。這次研究使用了兩種不同的水文模式，第一個是一維模式EPA SWMM，它的控制方程式為運動波方程式。在使用一維模式時，我們使用集水區轉換法將自然集水區轉換為一維模式中的集水區。第二個是二維模式GSSHA，它的控制方程式為擴散波方程式。研究中有許多不同的模式測試，透過測試結果了解建物及不透水面積對漫地流流況的影響，以及兩種模式結果的差異。如若建物對漫地流的影響很大，那麼在都市漫地流模擬中二維模式的使用則非常重要，因為一維模擬較難表現建物造成的影響。	zh_TW
dc.description.abstract	In the past, the overland flow in urban watershed is always simulated in a very simplified manner. Currently, most models for urban flood planning and management simulate flood transform based on lumped concept. One reason is the lack of enough data, the other is we do not fully understand its behavior. However, with the development of fully-distributed model, we can more carefully examine the two-dimensional movement of urban flood. However, on the other side, it would consume more time due to large amount of calculation. With the help of fully-distributed hydraulic model, the study would like to examine whether a lumped model can take the effect of building and impervious area into account well with some factors. By this way, will lumped model be precious enough to represent urban flooding? In this study, the results are compared by two models. The first model is SWMM, a lumped model, which uses kinematic-wave equation as governing equation. The second one is GSSHA, a distributed model, which uses diffusive-wave equation. By comparing the result of SWMM and GSSHA, we will be able to examine whether the result of the currently wide-used KW approach is appropriate for modeling urban flooding or any further improvement is required.	en
dc.description.provenance	Made available in DSpace on 2021-06-17T04:36:12Z (GMT). No. of bitstreams: 1 ntu-107-R05521316-1.pdf: 2426294 bytes, checksum: 1f60bff1b3e76fc3baa2f9c911904303 (MD5) Previous issue date: 2018	en
dc.description.tableofcontents	口試委員會審定書 i 誌謝 ii 中文摘要 iii ABSTRACT iv CONTENTS v LIST OF FIGURES ix LIST OF TABLES xiii Chapter 1 Introduction 1 1.1 Background 1 1.2 Research objectives 4 Chapter 2 Literature Review 6 2.1 Review of lumped and distributed models 6 2.2 Overland flow 9 2.3 Real application 11 Chapter 3 Methodology 15 3.1 EPA SWMM 5.1 15 3.1.1 Overland flow 17 3.1.2 Drainage pipeline 22 3.2 Conversion of natural watershed 25 3.3 Distributed Model: GSSHA 33 3.3.1 Channel routing 36 3.3.2 Overland flow routing 38 Chapter 4 Results and Discussions 41 4.1 Effect of channel position 41 4.1.1 Watershed design 41 4.1.2 Comparison 42 4.2 Two-plane watershed 46 4.2.1 Watershed design 46 4.2.2 Comparison 47 4.3 Different construction distribution 49 4.3.1 Watershed design 49 4.3.2 Comparison 50 4.4 Case Study 55 4.4.1 Part of Gueishan Industrial Park 55 4.4.2 Comparison 59 Chapter 5 Conclusion and Recommendation 65 5.1 Conclusion 65 5.2 Recommendation 66 REFERENCES 68
dc.language.iso	en
dc.title	二維都市漫地流之分析研究	zh_TW
dc.title	Examination of Two-Dimensional Urban Overland Flow	en
dc.type	Thesis
dc.date.schoolyear	106-2
dc.description.degree	碩士
dc.contributor.oralexamcommittee	張駿暉,許永佳,楊智傑,楊尊華
dc.subject.keyword	一維模式,二維模式,建物影響漫地流,降雨逕流模式,GSSHA,EPA SWMM,	zh_TW
dc.subject.keyword	lumped model,distributed model,effect of constructions,rainfall-runoff model,GSSHA,EPA SWMM,	en
dc.relation.page	70
dc.identifier.doi	10.6342/NTU201802827
dc.rights.note	有償授權
dc.date.accepted	2018-08-09
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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