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Non structural flood mitigation in Canada : linking the resources of today with a strategy for tomorrowSlater, Alyson 05 1900 (has links)
Flooding poses one of the greatest natural hazard dangers to Canadians. As human
populations increase and concentrate in areas vulnerable to floods, and uncertainty about
future flood risk increases with the possibility of a changing climate, major urban
communities, coastal settlements and communities located within floodplains are faced with
an even greater risk of floods in the coming years. Canada's policies and practices
towards flood control are best described as ad hoc, and have developed over the years in
response to experiences with floods. No national scale flood damage reduction program
exists, and there is currently no opportunity for Canadian homeowners to purchase flood
insurance.
This study specifically examines how a national mitigation strategy, focused mainly on non
structural techniques could help decrease damages from floods in Canadian communities.
The strategy proposed here is theoretically based in EPC and IBC suggestions for a greater
national mitigation strategy, as well as IDNDR research, and federal, provincial and
municipal goals for sustainable development and sound land use planning objectives.
Ideally, a successful non structural flood mitigation strategy for Canada would address
issues at the national scale, yet be implementable at the local level in accordance with
community needs, risk characteristics, and local expertise. The strategy proposed here
would maximize the efficiency of federal resources and private industry as well as allow
local expertise and existing mitigation schemes to be formalized, bolstered and improved.
There are three major components of the non structural flood mitigation strategy. Risk
avoidance measures such as early warning systems, land use and resource planning and
ecological conservation all work towards reducing the chances of a dangerous flood
occurring. Risk spreading measures help communities deal with flood risks by improving
equity and accountability, they include tax incentives, disaster financial assistance, and
flood insurance. Lastly, vulnerability reduction measures help reduce damages if a flood
were to strike, and these include enforcement of building codes and the maintenance of
existing protective infrastructure.
An integrated, non structural flood mitigation strategy would require basin-wide cooperation
between all levels of government, citizens and the private sector. This strategy is also an
opportunity for communities and individuals to meet goals of environmental conservation
and sustainable development.
The focus in this study lies on the mitigation tools, although it is the overall process of
inserting the premise of mitigation into all land use and planning decision making processes
that will be the key to successful flood mitigation strategies in Canadian communities.
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Towards Sustainable Flood Management in upper Sindh, Pakistan : A case study of District SukkurKhan, Imran January 2013 (has links)
Flooding is the most devastating natural hazard in Pakistan and the recent flooding has demonstrated its severeness. Floods are common all over the country, though the province of Sindh experience the most damages. River Indus flows on a ridge here and once the surplus water during flood events leave the main channel does not return back. Therefore it is very important to adapt to this disaster. This study aims at identifying ways to address the problem of floods in upper Sindh for which Sukkur district was chosen. Questionnaire survey and interviews were conducted in three talukas of the district in the aftermath of recent floods (2010, 2011 and 2012) to provide a baseline study for Sustainable Flood Disaster Management Plan for the upper Sindh region. Recommendations were put to reduce the flood losses for the future floods.
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Preliminarus potvynių rizikos vertinimas Mituvos baseine / Preliminary flood risk assessment - Mituva river case studyČimieliūtė, Aida 21 June 2013 (has links)
Darbo apimtis: magistrantūros studijų baigiamasis darbas 46 puslapių, 25 paveikslai, 11 lentelių, 37 literatūros šaltiniai.
Tiriamojo darbo objektas: Mituvos upės baseinas.
Tiriamojo darbo tikslas: atlikti preliminarų potvynių rizikos įvertinimą, nustatyti maksimalius debitus, esant skirtingoms potvynių tikimybėms bei nustatyti Mituvos upės slėnio teritorijas, kurios gali būti užtvindytos atitinkamų tikimybių potvynio metu.
Tiriamojo darbo uždaviniai:
1. surinkti Mituvos upės baseino hidrologinių stebėjimų duomenis;
2. aptarti hidrologiniams skaičiavimams ir modeliavimui naudojamą programinę įrangą ir pasirinkti tiriamam atvejui tinkamiausią;
3. nustatyti maksimalius debitus naudojant programinę įrangą;
4. apskaičiuoti tarpinius maksimalius debitus naudojant empirines formules;
5. sukurti Mituvos upės dalies hidrodinamikos (1D) modelį ir sumodeliuoti užliejamas teritorijas, esant skirtingų tikimybių potvyniams.
Tiriamojo darbo metodika: Mituvos upės hidrologiniai duomenys surinkti iš Lietuvos hidrometeorologijos tarnybos (LHMT) (1986 – 2010 metų) ir hidrologijos metraščių nuo 1954 iki 1985 metų. Literatūros apžvalgos skyrius rašomas, analizuojant praeityje vykusius potvynius bei šiuo metu taikomus metodus, siekiant sumažinti jų padaromą žalą. Išsamiai išanalizuojama naudojama programinė įranga, apskaičiuojami maksimalūs debitai, susisteminami gauti rezultatai, parengiamos išvados.
Tiriamojo darbo rezultatai:
1. Naudojant programinę įrangą „HYFRAN“ nustatyti maksimalūs... [toliau žr. visą tekstą] / Final work of University Master thesis: 46 pages, 25 figures, 11 tables, 37references sources.
Object of the research: Mituva river basin.
Aim of the research: to perform a preliminary flood risk assessment: determine the maximum flow rate of different return period (10, 100 and 1000 year), develop 1D hydrodinamic model for flood mapping of part of Mituva river.
Objectives of the research:
1. Create annual peak flow time series using of gauging stations on Mituva river;
2. Review the general methods and software for processing of hydrological data series;
3. Determine the maximum flow rate for different return periods using data series;
3. Calculate intermediate maximum flow rate along river using the empirical formulas;
5. Develop 1D hydrodynamic model and perform river flow modeling for flood mapping purposes.
Methods of the research: Mituva of the river hydrologic data collected from the Lithuanian Hydrometeorological Service (LHS) (1986 - 2010 years) and hydrological yearbooks from 1954 to 1985. Literature review section describes the analysis of a history of flooding, and the methods used to minimize the damage caused. For detailed analysis the software to calculate the maximum flow is used, the results obtained are systemized, the conclusions drawn.
Results of the research:
1. Using software HYFRAN the maximum Mituva river flow rates at Žindaičiai and Vertimai VMS- by Q0,1%= 135 m3/s and Q0,1%= 176 m3/s, Q1%= 101 m3/s and Q1%= 132 m3/s, irQ10%= 65,7 m3/s and Q10%= 86... [to full text]
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Auswertung von Wasserspiegellagenberechnungen mit historischen Datensätzen für die HochwasseranalysePohl, Reinhard 10 March 2015 (has links) (PDF)
Am Beispiel der Elbe in Dresden wird der Entwicklungsgeschichte eines Flusslaufes nachgegangen. Mit Hilfe der früheren Fließquerschnitte werden Wasserspiegellagenberechnungen zur Ermittlung historischer Schlüsselkurven durchgeführt. die neu gewonnenen Durchflussscheitelwerte erfordern auch eine Neubewertung der Hochwasserstatistik und der Wiederkehrintervalle.
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Dam break during the flood in Saxony/Germany in August 2002Bornschein, Antje, Pohl, Reinhard 10 February 2015 (has links) (PDF)
The heavy rainfall event in August 2002 in Saxony/Germany caused the break of a flood retaining basin in a valley of the Erzgebirge Mountains. The rainfall event with ists hyrologic characteristics and dam break event were analysed and an outflow hydrograph was determing. The propagation of the dam break flood wave in the valleyas of the Briesnitz and Müglitz Rivers has been simulated. Calculated values were compared with some observed data.
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Untersuchungen zu Hochwasserschutzmassnahmen an der Unstrut (1500-1900)Deutsch, Mathias. January 2007 (has links)
Thesis (doctoral)--Universität, Göttingen, 2006/2007. / Includes bibliographical references (p. 194-214).
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Design flood estimation for ungauged catchments in Victoria ordinary & generalised least squares methods compared /Haddad, Khaled. January 2008 (has links)
Thesis (M.Eng. (Hons.)) -- University of Western Sydney, 2008. / A thesis submitted towards the degree of Master of Engineering (Honours) in the University of Western Sydney, College of Health and Science, School of Engineering. Includes bibliographical references.
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Reconstructing the levees the politics of flooding in nineteenth-century Louisiana /Poe, Cynthia R. January 1900 (has links)
Thesis (Ph.D.)--University of Wisconsin--Madison, 2006. / eContent provider-neutral record in process. Description based on print version record. Includes bibliographical references (p. 265-291).
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Private vs. public flood insurance rates is there a national flood insurance subsidy? /Geiger, Andrea Lynn. January 2006 (has links)
Thesis (M.M.P.)--University of Delaware, 2006. / Principal faculty advisor: George R. Parsons, Dept. of Marine and Earth Studies. Includes bibliographical references.
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Risk-based flood protection decisions in the context of climatic variability and changeRehan, Balqis Mohamed January 2016 (has links)
Flood events have caused detrimental impacts to humans' lives and anthropogenic climate change is anticipated to exacerbate the impact. It has been recognized that a long-term planning through risk-based optimization of flood defence will lead to a cost-effective solution for managing flood risk, but the prevailing assumption of stationarity may lead to an erroneous solution. In attempt to investigate the potential impact of the uncertain underlying statistical characteristics of extreme flow series to flood protection decisions, this research explores risk-based flood protection decisions in the context of climatic variability and change. In particular, the implications of persistence series and nonstationarity were investigated through hypothetical and real case studies. Monte Carlo simulation approach was adopted to capture the uncertainty due to the natural variability. For persistence model, AR(1) was integrated with the GEV model to simulate extreme flow series with persistence. To test the effects of nonstationary, GEV models with a linear location parameter and time as covariate were adopted. Rational decision makers' behaviours were simulated through a designed decision analysis framework. One of the main findings from the research is that the traditional stationary assumption should remain the basic assumption due to insignificant difference of the decisions' economic performance. However, exploration of the nonstationarity assumption enabled identification of options that are robust to climate uncertainties. It is also found that optimized protection of combined measures of flood defence and property-level protection may provide a cost-effective solution for local flood protection. Overall, the simulation and case studies enlighten practitioners and decision makers with new evidence, and may guide to practical enhancement of long term flood risk management decision making.
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