Academic literature on the topic 'SuDS - Sustainable Urban Drainage Systems'
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Journal articles on the topic "SuDS - Sustainable Urban Drainage Systems"
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Ngong Deng, Abraham Ayuen, Nursetiawan, and Jazaul Ikhsan. "Sustainable Urban Drainage Systems (2014-2023) by Using Bibliometric Analysis Method." Journal of Sustainable Civil Engineering and Technology 3, no. 1 (March 29, 2024): 145–70. http://dx.doi.org/10.24191/jscet.v3i1.145-170.
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Sustainable urban drainage systems (SUDS) are increasingly crucial for stormwater management. This bibliometric review analyses research trends on sustainable urban drainage systems over the past decade (2014- 2023) using data from Scopus. The analysis found 705 articles, 192 conference papers, 85 book chapters, and 64 reviews on sustainable urban drainage systems. Publication volume increased by 66% during the study period, indicating rising research interest. The most cited article (294 citations) was a 2019 review by Andrés-Doménech et al. on innovations in sustainable urban drainage systems. Analysis of author keywords revealed 8 clusters of research topics, with "sustainable urban drainage systems" being the dominant term with 889 keywords. Although general sustainable urban drainage system terms prevail, the use of keywords related to network visualization methods like VOS viewer is rapidly increasing. The United Kingdom published the most SUDS research (315 articles), followed by China (149), Spain (135), the United States (126), and Italy (107 articles). Research was concentrated in the environmental science and engineering fields. However, this bibliometric analysis provides insights into SUDS research trends, the most active countries and institutions, and emerging topic areas. The rapid increase in publications and use of network visualization techniques demonstrates SUDS' growing importance in urban stormwater management. The results can help inform future research directions, such as applying advanced data analytics to improve SUDS design and performance. Expanding bibliometric analyses with additional techniques like VOS viewer could further enhance understanding of this critical area of urban environmental research. Developing bibliometric methods and adding feature extraction algorithms when selecting features used to model data can increase the efficiency and accuracy of the data on sustainable urban drainage systems. The development of research data using Vos viewers images with this type of data processing research can also be maximized for research related to the sustainable urban drainage system.
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Andrés-Doménech, Ignacio, Jose Anta, Sara Perales-Momparler, and Jorge Rodriguez-Hernandez. "Sustainable Urban Drainage Systems in Spain: A Diagnosis." Sustainability 13, no. 5 (March 5, 2021): 2791. http://dx.doi.org/10.3390/su13052791.
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Sustainable urban drainage systems (SUDS) were almost unknown in Spain two decades ago; today, urban drainage in the country is transitioning towards a more sustainable and regenerative management in a global context where green policies are gaining prominence. This research establishes a diagnosis of SUDS in Spain and examines the extent to which the country is moving towards the new paradigm in three dimensions: (a) the governance and social perception of the community, (b) the regulative background, and (c) the implementation and the technical performance of SUDS. The diagnosis identifies barriers that hinder the change. Then, we define the challenges that Spain has to face to overcome obstacles that delay the transition. Barriers to the governance sphere are related to the lack of involvement, knowledge, and organisational responsibilities. Within the regulative framework, the absence of national standards hinders the general implementation at the national scale, although few regional and local authorities are taking steps in the right direction with their own regulations. From the technical perspective, SUDS performance within the Spanish context was determined, although some shortcomings are still to be investigated. Despite the slowdown caused by the hard recession periods and the more recent political instability, SUDS implementation in Spain is today a fact, and the country is close to reaching the stabilisation stage.
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Jefferies, C., A. Duffy, N. Berwick, N. McLean, and A. Hemingway. "Sustainable Urban Drainage Systems (SUDS) treatment train assessment tool." Water Science and Technology 60, no. 5 (May 1, 2009): 1233–40. http://dx.doi.org/10.2166/wst.2009.463.
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This paper outlines a rationale and scoring system for the stormwater treatment train assessment tool (STTAT) which is a proposed regulatory tool for Sustainable Urban Drainage Systems (SUDS). STTAT provides guidance and regulatory consistency for developers about the requirements of planners and the Scottish Environment Protection Agency (SEPA). The tool balances the risks of pollution to the receiving water body with the treatment provided in a treatment train. It encourages developers to take SUDS into account early, avoiding any misunderstanding of SUDS requirements at the planning stage of a development. A pessimistic view on pollution risks has been adopted since there may be a change of land use on the development in the future. A realistic view has also been taken of maintenance issues and the ‘survivability’ of a SUDS component. The development of STTAT as a response to the requirements of the Water Framework Directive is explored, the individual scores being given in tabular format for receiving water and catchment risks. Treatment scores are proposed for single SUDS components as well as multiple components within treatment trains. STTAT has been tested on a range of sites, predominantly in Scotland where both development and receiving water information was known. The operational tool in use by SEPA is presented.
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Fryd, Ole, Torben Dam, and Marina Bergen Jensen. "A planning framework for sustainable urban drainage systems." Water Policy 14, no. 5 (June 5, 2012): 865–86. http://dx.doi.org/10.2166/wp.2012.025.
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Sustainable urban drainage systems (SUDS) call for collaborative and interdisciplinary practices. The problem with this is the social and technical complexities involved, and the absence of a shared understanding of the challenge and the scope of integrated solutions. It is necessary to clarify the contributions and interactions between disciplines in order to achieve integrated planning and design of SUDS. This paper reviews the literature across disciplinary fields and outlines key messages and uncertainties within each discipline. The outcome is a framework comprising time, space and human values, as well as biophysical processes (e.g. engineering), spatial strategies (e.g. urban design) and adaptive strategies (e.g. management). It identifies the planning of SUDS as a collective learning process with continuous iterations between disciplines, while also reflecting the past, present and future of a specific site.
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Oladunjoye, Oluwayemi, David Proverbs, and Hong Xiao. "Retrofitting Sustainable Urban Drainage Systems (SuDS): A Cost-Benefit Analysis Appraisal." Water 14, no. 16 (August 16, 2022): 2521. http://dx.doi.org/10.3390/w14162521.
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Sustainable Urban Drainage Systems (SuDS) are known to help mitigate flooding whilst simultaneously delivering other positive outcomes, such as the provision of environmental, economic, educational, and business benefits. Despite this, there has been a relatively low uptake of SuDS in new developments and even less of an uptake in the opportunities for retrofitting SuDS in existing buildings. A major barrier to uptake has been a lack of understanding regarding the value of the benefits provided by SuDS. This study presents an appraisal of the costs and benefits derived from the retrofitting of SuDS in existing buildings and reveals some of the key decision-making considerations during the design and installation of such schemes. A qualitative research approach that included a number of case studies of successfully retrofitted SuDS schemes within public buildings was conducted. A novel feature of the research was the use of the Willingness to Pay (WTP) approach to value the tangible and intangible benefits provided by the various schemes from the perspectives of the property owners. The findings revealed that the retrofit provided a net value to the client of over £100,000 over 10 years, a mean CBA ratio of 5.3/10, and a return on investment (ROI) that would be achieved in less than 3 years. The importance of stakeholder engagement during the decision-making process was highlighted in helping to overcome many of the design, installation, and maintenance challenges. The findings demonstrate a significant ROI for these SuDs retrofit schemes and highlight useful approaches to overcoming the barriers in valuing the importance of the intangible benefits. In supporting the uptake of the retrofitting of SuDS, it is recommended that these benefits are given full consideration by property owners, urban planners, and architects during the design of retrofit schemes and throughout the decision-making stage.
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Zhang, Yiyang. "SUDS: New solution for urban flooding." Applied and Computational Engineering 58, no. 1 (April 30, 2024): 283–88. http://dx.doi.org/10.54254/2755-2721/58/20240734.
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Climate change causing extreme weather events across the world. The excising urban drainage system facing the great stress of managing heavy precipitation events and caused urban flooding. The specialists in the urban designing field are searching for more effective way of managing flooding events. Sustainable Urban Drainage System is kind of drainage system design which simulating nature rainwater managing practices. In this research, the SUDS is analyzed mainly from three aspects: Flood managing ability, economic benefits, and ecological benefits. This research reviews the existing SUDS examples and research basing on the SUDS designing strategies. Research has found that the SUDS is more than capable of managing stormwater but also can generate both monetary and indirect economic benefit. Furthermore, the nature feature of SUDS facilities can provide ecological benefits like providing habitats for animals, improving hydrological feature, and increase comfortability for residents. Thus, SUDS can be an ideal solution for the new urban drainage systems.
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Jiménez Ariza, Martínez, Muñoz, Quijano, Rodríguez, Camacho, and Díaz-Granados. "A Multicriteria Planning Framework to Locate and Select Sustainable Urban Drainage Systems (SUDS) in Consolidated Urban Areas." Sustainability 11, no. 8 (April 17, 2019): 2312. http://dx.doi.org/10.3390/su11082312.
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The implementation of sustainable urban drainage systems (SUDS) is increasing due to their advantages, which transcend runoff control. As a result, it is important to find the appropriate SUDS locations to maximize the benefits for the watershed. This study develops a multiscale methodology for consolidated urban areas that allows the analysis of environmental, social, and economic aspects of SUDS implementation according to multiple objectives (i.e., runoff management, water quality improvements, and amenity generation). This methodology includes three scales: (a) citywide, (b) local, and (c) microscale. The citywide scale involves the definition of objectives through workshops with the participation of the main stakeholders, and the development of spatial analyses to identify (1) priority urban drainage sub-catchments: areas that need intervention, and (2) strategic urban drainage sub-catchments: zones with the opportunity to integrate SUDS due the presence of natural elements or future urban redevelopment plans. At a local scale, prospective areas are analyzed to establish the potential of SUDS implementation. Microscale comprises the use of the results from the previous scales to identify the best SUDS placement. In the latter scale, the SUDS types and treatment trains are selected. The methodology was applied to the city of Bogotá (Colombia) with a population of nearly seven million inhabitants living in an area of approximately 400 km2. Results include: (a) The identification of priority urban drainage sub-catchments, where the implementation of SUDS could bring greater benefits; (b) the determination of strategic urban drainage sub-catchments considering Bogotá’s future urban redevelopment plans, and green and blue-green corridors; and (c) the evaluation of SUDS suitability for public and private areas. We found that the most suitable SUDS types for public areas in Bogotá are tree boxes, cisterns, bioretention zones, green swales, extended dry detention basins, and infiltration trenches, while for private residential areas they are rain barrels, tree boxes, green roofs, and green swales.
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Thodesen, Bridget, Berit Time, and Tore Kvande. "Sustainable Urban Drainage Systems: Themes of Public Perception—A Case Study." Land 11, no. 4 (April 18, 2022): 589. http://dx.doi.org/10.3390/land11040589.
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Climate adaptation measures address the challenges that densification and climate change impose on the urban environment. Sustainable urban drainage system (SUDS) constructs include the introduction of natural elements, such as riparian buffers, vegetative filters, rain beds, water spills, watermark filters, retainers and dams, and are an integral part of these climate adaptation measures. SUDS are commonly undertaken at a municipal level in Norway but, unfortunately, the implementation of SUDS projects has lagged behind expectation. Norway is a normative and egalitarian society, where public resistance to local projects is a factor in the delayed adoption of SUDS. That is why a greater understanding of public perceptions and priorities is needed to build consensus and support for these climate adaptation measures. This research looked at the Blaklibekken SUDS case study in Trondheim, Norway. A cross-section of interviews with the municipality and users was undertaken to establish themes within local perceptions of the project. Themes of environmental benefit, child-related activities, maintenance of the site and funding were established to provide a better understanding of public expectations and what aspects of the project correlated with public acceptance or resistance. This work provides a starting point for further research to establish public ‘themes of interest’ that can provide decision makers greater insight into public priorities.
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Andrés-Valeri, V. C., D. Castro-Fresno, L. A. Sañudo-Fontaneda, and J. Rodriguez-Hernandez. "Comparative analysis of the outflow water quality of two sustainable linear drainage systems." Water Science and Technology 70, no. 8 (September 2, 2014): 1341–47. http://dx.doi.org/10.2166/wst.2014.382.
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Three different drainage systems were built in a roadside car park located on the outskirts of Oviedo (Spain): two sustainable urban drainage systems (SUDS), a swale and a filter drain; and one conventional drainage system, a concrete ditch, which is representative of the most frequently used roadside drainage system in Spain. The concentrations of pollutants were analyzed in the outflow of all three systems in order to compare their capacity to improve water quality. Physicochemical water quality parameters such as dissolved oxygen, total suspended solids, pH, electrical conductivity, turbidity and total petroleum hydrocarbons were monitored and analyzed for 25 months. Results are presented in detail showing significantly smaller amounts of outflow pollutants in SUDS than in conventional drainage systems, especially in the filter drain which provided the best performance.
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Semadeni-Davies, Annette. "Implications of climate and urban development on the design of sustainable urban drainage systems (SUDS)." Journal of Water and Climate Change 3, no. 4 (December 1, 2012): 239–56. http://dx.doi.org/10.2166/wcc.2012.043.
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This paper explores the implications of climate change and urban development on the design of sustainable urban drainage systems (SUDS) using the example of ponds and raingardens in Auckland, New Zealand. Many of Auckland's coastal and freshwater receiving environments have been degraded due to stormwater inflows and are potentially at further risk due to continued urbanisation and climate change. SUDS have been suggested as a possible means of adapting to those risks. However, there is little guidance available on how they should be designed for future conditions. Response-curves which relate changes in SUDS sizing to both climate change and imperviousness are presented as a means of displaying a range of possible future design needs. It is suggested that they could aid in the selection of adaptation strategies. The methodology followed is based on publicly available guidance material to provide a real world example of the design issues facing stormwater managers. An incremental adaptation strategy, whereby construction is staggered over time, is recommended for ponds which vary greatly in size depending on the projected climate and imperviousness. In contrast, adapting raingardens at the time of construction is pragmatic as the change in size, with even the maximum projected climate change, is modest.
Dissertations / Theses on the topic "SuDS - Sustainable Urban Drainage Systems"
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Karlsson, Amanda, and Maria Bergström. "IMPLEMENTERING AV SUSTAINABLE DRAINAGE SYSTEMS I STADSBYGGNADSPROJEKT I JÖNKÖPINGS KOMMUN." Thesis, Tekniska Högskolan, Högskolan i Jönköping, JTH, Byggnadsteknik, 2016. http://urn.kb.se/resolve?urn=urn:nbn:se:hj:diva-31021.
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Purpose: Climate change and increased proportion of hard surfaces due to urbanization is causing problems with flooding. Although it has been known for a long time that traditional stormwater management needs to be complemented, progress towards Sustainable Drainage Systems, SuDS, is slow. Techniques to locally handle storm water are available for most situations, but there is a lack of knowledge and experience. The aim of this thesis is to present a proposal on how implementation of SuDS can be promoted in urban development projects in Jönköping municipality. Method: Using literature review, interviews, document analysis and observation a qualitative study was conducted in two urban development projects; Ekostaden Augustenborg in Malmö and Munksjöstaden in Jönköping. Findings: The majority of the stormwater management techniques available in Augustenborg have also been discussed in Munksjöstaden by Jönköping municipality. Only one third of the techniques which has been discussed will be realized. Jönköping municipality lacks clear goals and a vision that is integrated into the planning process, which can explain this. During the interviews the site conditions were presented as arguments to why SuDS is difficult to implement. However the analysis showed that it is the other conditions that are decisive, something that also the scientific studies indicated. In order to promote the implementation of SuDS general and project-specific actions were elaborated. Implications: The local plan is the municipality’s sharpest tool for control of the physical development and demands must be submitted in the local plan in order to promote SuDS. The municipality needs to reprocess a practice level and equate SuDS with traditional stormwater management in order to make relevant demands on developers. To promote the implementation of SuDS, the authors suggests that Jönköping municipality carry out a pilot project focusing on sustainable stormwater management in an upcoming urban development project. Limitations: Since the thesis only includes two projects, there is a limitation of the conditions treated. Since the other conditions and the recommended actions are based on the factors identified in a national survey, the applicability is considered to be good. Although the project-specific actions are based on Jönköping municipality, it is possible for other municipalities to apply the PDSA-wheel to the extent that is suitable for the municipality.Syfte: Klimatförändring och urbanisering med ökad andel hårdgjorda ytor orsakar problem med översvämningar. Trots att det sedan länge är känt att den traditionella dagvattenhanteringen behöver kompletteras går utvecklingen mot Sustainable Drainage Systems, SuDS, långsamt. Tekniker för att ta hand om dagvattnet lokalt finns för de flesta situationer men det saknas kunskap och erfarenhet. Målet med arbetet är därför att presentera ett förslag på hur implementering av SuDS kan främjas i stadsbyggnads-projekt i Jönköpings kommun. Metod: Med hjälp av litteraturstudie, intervjuer, dokumentanalys och observation har en kvalitativ studie genomförts på två stadsbyggnadsprojekt; Ekostaden Augustenborg i Malmö och Munksjöstaden i Jönköping. Resultat: Majoriteten av de tekniker för dagvattenhantering som finns i Augustenborg har diskuterats även i Munksjöstaden från Jönköpings kommuns sida. Det visade sig dock att endast en tredjedel av det som diskuterats kommer att förverkligas. Detta kan bland annat förklaras av att Jönköpings kommun saknar tydliga mål och en vision som är integrerad i planeringsprocessen. Vid intervjuerna lyftes platsen förutsättningar fram som argument till varför SuDS är svårt att tillämpa. Analysen visade dock att det är de övriga förutsättningarna som är avgörande, något som även de vetenskapliga studierna pekat på. För att främja implementeringen av SuDS har därför generella och projektspecifika åtgärder riktade mot de övriga förutsättningarna utarbetats. Konsekvenser: Detaljplanen är kommunens skarpaste verktyg för att styra den fysiska bebyggelsen och för att främja SuDS är det därför viktigt att det finns krav i detaljplanen. Kommunen behöver upparbeta en praxisnivå och likställa SuDS med traditionell dagvattenhantering för att kunna ställa relevanta krav på exploatörer. För att främja implementeringen är författarnas förslag att Jönköpings kommun genomför ett pilotprojekt med fokus på hållbara dagvattenlösningar i ett kommande stadsbyggnadsprojekt. Begränsningar: Eftersom arbetet endast innefattar två projekt finns det en begränsning i vilka förutsättningar som behandlats. Eftersom de övriga förutsättningarna och de rekommenderade åtgärderna utgår från faktorer som identifierats i en nationell enkät-undersökning bedöms ändå tillämpligheten vara god. Även om de projektspecifika åtgärderna utgår från Jönköpings kommun, är det möjligt för andra kommuner att tillämpa PGSA-hjulet i den omfattning som passar den aktuella kommunen.
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Swan, Andrew D. "A decision-support system for the design of retrofit sustainable urban drainage systems (SUDS)." Thesis, University of Sheffield, 2003. http://etheses.whiterose.ac.uk/3635/.
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Sustainable Urban Drainage Systems (SUDS) is a generic term that refers to various measures aimed at minimising surface runoff (and consequent flooding and pollution problems) from urban catchments. SUDS technologies include local infiltration, storage and storm-water re-use devices. Although there is considerable international evidence of the successful incorporation of SUDS technologies in new developments, there is very little indication of the extent to which they represent a viable rehabilitation option for retrofit applications to problem urban catchments in the UK. It is believed that uncertainties about the design, hydraulic performance and cost of retrofit SUDS schemes, as well as some regulatory issues, have prevented UK engineers from exploiting the full potential of this approach. This thesis presents two case studies in which retrofit SUDS have been evaluated against 'conventional' (i. e. in-sewer) drainage rehabilitation schemes. The case studies relate to the City of Leeds in Northern England, UK. In both cases it was found that SUDS technologies were viable, both in terms of hydraulic performance criteria (number and volume of CSO spills or flooding events) and in terms of comparative construction costs. Novel procedures were developed for evaluating hydraulic performance and SUDS scheme costings. The identification of the most cost-effective from all feasible SUDS technologies for a given location is not straightforward. This thesis, therefore, proposes a design methodology for retrofit SUDS. The methodology comprises a decision making model (flow chart) that indicates whether SUDS-based approaches are likely to be viable, and cost-effective for a particular application. The flow charts make reference to SUDS design criteria (such as land-take, slope and infiltration capacity) and regulatory constraints (such as Building Regulations and local groundwater protection policies). Fundamental to the flow charts arc hierarchies that characterise urban surface type, the treatment train concept, the disposal mechanism, and cost.
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Hellberg, Madeleine. "Planning and implementing sustainable urban drainage systems in the built environment." Thesis, Luleå tekniska universitet, Arkitektur och vatten, 2020. http://urn.kb.se/resolve?urn=urn:nbn:se:ltu:diva-82068.
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Our planet stands before many great challenges, where climate change and urbanization are two of the major challenges. One of the challenges due to climate change is the increased amount of precipitation and of extreme rainfall, which creates a higher amount of stormwater within the urban areas and an increased risk of urban flooding. Urbanization and an increasing global population put pressure on the environment as more land is exploited and existing urban areas are further developed and densified. Urban areas are already under high pressure to handle the risks of climate change, therefore is climate change adaptation prominent to create more resilient and sustainable urban areas, where stormwater management is one of the challenges that need to be tackled. The aim of this study is to answers one main research question and three sub research question about enablers, barriers, and key factors regarding planning, designing, and implementing sustainable urban drainage systems in the built environment. The used methods are literature study research and multiple case study research. Five case study areas where studied to gather knowledge about areas that have implemented sustainable urban drainage systems. Lessons learned for each of the case study areas where gathered and connected to the literature and used to answer the research questions. The gathered knowledge from the literature and case studies where used to compile recommendations of how a sustainable urban drainage system could be planned and implemented at a pilot study area, which is Välsviken in Karlstad, Sweden. To be able to achieve a sustainable and resilient urban drainage system, that can handle the challenges of climate change and urbanization, it is important that the stormwater planning process is changing. It is crucial to implement facilities and systems that are sustainable, multifunctional, and flexible. The planning process needs to use planning and costing approaches that include flood mitigation and co-benefits, in the long-term and short-term simultaneously. Implementation of sustainable urban drainage systems also needs to be enabled in new areas or being retrofitted into already exploited areas. This could make it possible to create urban areas that are able to tackle the challenges of climate change and urbanization, and create multifunctional, sustainable, and flood mitigated urban areas.Vår planet står inför många stora utmaningar, där klimatförändringar och urbanisering är två av dessa. En av utmaningarna med avseende på klimatförändringarna är den ökade mängden av nederbörd och extrema regntillfällen, vilka bidrar till större mängder dagvatten i urbana områden och en ökad risk för översvämningar. Urbaniseringen och det ökande antalet invånare globalt sätter press på miljön eftersom mer landyta exploateras och nuvarande urbana områden fortsätter att bebyggas och förtätas. De urbana områdena har redan stora utmaningar med att hantera riskerna med klimatförändringarna. Klimatanpassning är därför viktigt för att skapa mer resilienta och hållbara urbana områden, där dagvattenhanteringen är en av utmaningarna som behöver hanteras. Målet med denna studie är att besvara en övergripande forskningsfråga och tre underliggande forskningsfrågor om möjliggörare, barriärer och nyckelfaktorer gällande planering, design och implementering av hållbara urbana dagvattensystem i den bebyggda miljön. Metoderna som användes var litteraturstudie och multipel fallstudie. Arbetet började med litteraturstudien och sedan genomfördes en fallstudie där fem områden som implementerat hållbara urbana dagvattensystem undersöktes. Lärdomar från varje område sammanställdes och kopplades samman med den andra litteraturen för att besvara forskningsfrågorna. Utifrån litteraturen och fallstudierna sammanställdes rekommendationer för hur ett hållbart urbant dagvattensystem kan planeras och implementeras inom ett utvalt studieområde, vilket är Välsviken i Karlstad, Sverige. För att åstadkomma ett hållbart och resilient urbant dagvattensystem, som kan hantera utmaningarna gällande klimatförändringar och urbanisering, är det viktigt att planeringsprocessen för dagvatten ändras. Det är viktigt att implementera anläggningar och system som är hållbara, multifunktionella och flexibla. Planeringsprocessen behöver använda planerings- och kostandsmetoder som inkluderar översvämningsanpassning och sidofördelar, både långsiktigt och kortsiktigt samtidigt. Man behöver också möjliggöra implementering av hållbara urbana dagvattensystem i nya områden eller anpassa områden som redan är bebyggda. Detta kan bidra till att skapa urbana områden som kan hantera klimatförändringarnas och urbaniseringens utmaningar, och skapa multifunktionella, hållbara och översvämningssäkrade områden.
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Singh, Rohit. "Integrating the planning of green spaces and sustainable drainage systems." Thesis, Abertay University, 2012. https://rke.abertay.ac.uk/en/studentTheses/0a86d97d-4a27-429a-8dae-6afa03659ca9.
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In recent times urban flooding has become more frequent and more complex due to the effects of increasing urban areas and climate change. In some established urban areas the existing drainage infrastructure is unable to cope with the volume of surface runoff and flooding events are more frequent, therefore new approaches to create more space for water within developments are required. This research was conceived in that context. It aims to investigate the potential for integrating green space planning with water planning and to develop a framework for the same in order to reduce the risk of flooding. An extensive literature review was carried out in the areas of urban planning, water planning, planning legislations, and issues related to integrating green space and water planning. The review identified the need for an inclusive framework which could integrate aspects of green space and storm water planning more holistically to achieve greater spatial planning efficiency. To satisfy this need, a conceptual framework was developed which took into consideration the opinions of various stakeholders. The conceptual framework included green spaced planning for SUDS, recreational and storm water indicators and a mechanism for integrated evaluation of SUDS for recreation and storm water management. The conceptual framework provided a joint approach where both engineers and planners will need to work together for the development of integrated storm water and green space plans. The framework showed processes for both disciplines and also indicates how spatial planning and water planning interfaced so that there was clarity of roles. In order to evaluate integrated plans, an ‘integrated evaluation tool’ was developed which uses indicators from both the areas of green space planning and water planning. The evaluation tool also contained a scoring system which can be used to select storm water management options with more recreational potential. The tool provides a mechanism to balance the requirements of recreation and storm water management so that more holistic solutions can be developed by teams of engineers and planners. The conceptual framework and the integrated evaluation tool were applied to two case study catchments. Results from the case studies showed the relationship of spatial planning and flooding. It further tested whether recreational aspects could be integrated into storm water planning. A number of drainage options were tested to show the application of the evaluation tool under various scenarios. This results of the research showed that the conceptual framework was appropriate in both case study areas even though the areas had different patterns of development. It is therefore proposed that the approach has potential for wider application in other geographical areas. Results from the two areas also showed that the integrated approach established in this research could enhance the recreational aspects associated with urban storm water management. The framework presented in this thesis will potentially be of use to a wide range of stakeholders such policy makers, local authorities, water companies, consultants and researchers. It could also be useful in informing the evolution of planning policies and technical guidance associated with water and green space planning.
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Chunglim, Mak. "Linking sustainable drainage systems (SuDS) together with ecosystem services and disservices : new connections in urban ecology." Thesis, University of Salford, 2015. http://usir.salford.ac.uk/37781/.
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Increased flooding, urban diffuse pollution and habitat fragmentation are predicted as the climate changes and urbanisation increases; all will affect human and wildlife well-being negatively. Sustainable drainage systems (SuDS) have the potential to mitigate these effects and also provide additional amenity and biodiversity benefits. However, the current SuDS approach is site-specific and technically focused, hence, failing to generate anticipated amenity and biodiversity benefits. Therefore, a new SuDS approach is required. A critical evaluation of the SuDS approach, the Ecosystem Approach, ecosystem services and disservices enabled an innovative SuDS Communication and Planning Framework to be created. The framework highlights key amenity and biodiversity related ecosystem services and disservices produced by vegetated SuDS systems, coupled with drivers affecting the production of these services and disservices. This framework was validated by examining 49 representative sites within Greater Manchester using two ecosystem services and disservices variables assessment methods (vegetation structure cover-abundance and cultural ecosystem services and disservices appraisals). Resultant scores for five ecosystem services were calculated, where habitat for species and recreation ecosystem services were found to be synergistically linked to each other in a positive correlation. The result also enabled recommendations to be made that future vegetated SuDS development would benefit from involving local communities. Overall the research produced practical Ecosystem Approach methods for SuDS development decision making, and the SuDS Communication and Planning Framework provides an innovative, easy to use tool to implement Ecosystem Approach compliant solutions for key SuDS stakeholders (planners, developers, designers, researchers and policy makers). Finally, the SuDS Communication and Planning Framework can now be found in the second part of the UK National Ecosystem Approach, UK NEA follow-on, as part of a series of Ecosystem Approach toolkits incorporated into the decision making processes for managing the urban environment in a sustainable way.
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Tukiman, Izawati. "Public perception and acceptance of the Sustainable Urban Drainage System (SUDS) in housing schemes in Malaysia." Thesis, University of Sheffield, 2008. http://etheses.whiterose.ac.uk/10327/.
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A study conducted by The Department of Environment Malaysia shows that there is an increase in numbers of polluted rivers. One problem is said to be due to indiscriminate dumping of wastes into the rivers. This phenomenon adversely affects the drainage capacities of rivers which then leads to more frequent occurrences of floods as well as an increase in the intensity of the floods. The issues are critical since 97% of the total water use originates from rivers. In Malaysia, 40-60% of water use comes from the domestic domain. Domestic wastewater gives an impact on the quality of water. Public involvement is very important in order to control the current water situation as public contributions to water issues are very significant. In daily activities, the public pollutes the drainage runoff unconsciously. Increasing urban population causes a massive impact on human activities, especially in a developing country like Malaysia. In Malaysia, urbanization has a lot of advantages for the economic sector. Therefore, development needs to be carried out in order to provide a range of facilities for the population. On the other hand, living in comfortable and convenient spaces has persuaded many people to renovate their houses. This then results in an increase in the number of impervious areas because housing developers only have to comply with providing 10% of open space. Developers usually choose to maximise the built-up areas to take full advantage of land use and this situation has resulted in an increase in surface run-off. This is in fact a major cause of flash floods. Natural filtration devices have been incorporated in Sustainable Urban Drainage System (SUDS) as a means of imitating natural hydrological processes. They are found to be more effective compared to the conventional drainage system, and delay filtration and run-off of surface water. SUDS not only improve the technical approaches of a drainage system, but also assists in `Best Management Practices' (BMPs). This includes management and maintenance together with better daily water usage. However, to assist the success of SUDS, public participation should be encouraged. The wider public and all stakeholders should have a better understanding of SUDS in order to allow them to get a clearer idea of their potential role. Improvement in the education system, frequent updates on information and training for maintenance workers are some of the actions that might influence the implementation of SUDS in Malaysia.
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Apostolaki, Stella. "The social dimension of stormwater management practices, including sustainable urban drainage systems and river management options." Thesis, Abertay University, 2007. https://rke.abertay.ac.uk/en/studentTheses/21435036-c7d8-4bd8-b76e-54b26ad63dc2.
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The research programme was relevant to urban planning and in particular to the design of stormwater management schemes that are more environmentally and socially acceptable. It examined social and perception issues relating to stormwater management techniques within residential areas, and in particular to the application of SUDS, mainly ponds, and river management schemes. The thesis arose from a project funded by the Environment Agency of England and Wales through SNIFFER under a programme titled “Social impacts o f stormwater management techniques including river management and SUDS”, SNIFFER Code: SUDS01. The public perception of construction is becoming a matter of increasing importance both in the UK and internationally since socio-economic parameters and public consultation both have to be taken into consideration in the planning and implementation of relevant projects. This research programme endeavoured to match the relevant legislative goals with society’s actual needs. The main aims of the research programme were to obtain an in-depth understanding and knowledge of the perceptions of popular stormwater management practices (SUDS and river management), and to evaluate these techniques from a social perspective. To satisfy these aims the following objectives were set: • To assess public awareness and perceptions of SUDS (particularly retention ponds) in the UK; • To assess professional perceptions of SUDS in the UK; • To assess perceptions of different stormwater management techniques, in three European cities; • To compare perceptions of different stormwater management techniques, SUDS and river management practices; • To link the research findings with trends in perceptions of nature and water. To meet the programme’s aims and to satisfy the objectives, the perceptions of SUDS in the UK (principally ponds) were investigated over a wide range of locations. In addition, the different river management approaches used in three heavily urbanised European cities, Glasgow, London, and Athens were investigated. The results of this research programme provide a means to understand perceptions of stormwater management and to appreciate what types of schemes will be more readily accepted by the public. The research has shown that members of the public hold strong views as to what they like or dislike about SUDS and water management installations in their local area, in spite of the fact that there were demonstrably low levels of public awareness of SUDS. The amenity, recreational value and aesthetics of new schemes seem to be of major importance for public acceptability, while function, efficiency, and maintenance are primarily important in areas facing flooding problems. Other key findings include the fact that there is a general preference for sustainable urban water management and for river restoration schemes compared with more conventional, ‘hard engineering’ approaches, such as culverting of rivers. This preference was expressed both by members of the public and by professionals involved in their planning and implementation. Another important result was that although unfamiliarity can produce negativity, education can influence attitudes positively even in sensitive issues such as safety, and can be used by authorities and planners as a means of enhancing the acceptability of new schemes. Consequently, the results of the surveys can be used as arguments towards the application of informative campaigns which should be taken into account prior to scheme implementation. This information can be utilised not only for stormwater management design, but also for other environmentally friendly constructions which the public may have a low level of awareness. Recommendations are made with respect to public and professional attitudes for improving the public acceptability of new and modified stormwater management systems. Recommendations and barriers to the uptake outlined in this thesis mainly refer to the appearance of schemes rather than technical issues. They are therefore of most use as guidance for improving aesthetics and increasing public acceptability. The outcomes of this research will be of use to policy makers, water companies, local authorities, environment agencies, planners, developers, consultants active in urban development, and researchers in applying wider-accepted practices for the assessment of public perception. Some findings from this research have been presented at several stakeholders’ meetings, at 4 conferences, and are published in the form of papers and reports, including the DTI SR 622 report titled “An Assessment of the Social Impacts of Sustainable Drainage Systems in the UK”, and the Environment Agency & SNIFFER report, SUDS01, 2005, titled “Social Impacts of stormwater management techniques including river management and SUDS”. This publication also constitutes Environment Agency R&D Technical report P2-258.
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Perales, Momparler Carmen Sara. "A regenerative urban stormwater management methodology. The role of SuDS construction and monitoring in the transition of a Mediterranean city." Doctoral thesis, Universitat Politècnica de València, 2015. http://hdl.handle.net/10251/59063.
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[EN] Under the well-known slogan 'think global, act local', cities in the 21st century face the enor-mous challenge of catalyzing, intensifying and accelerating sustainable urban transformations. Without losing a holistic view, the methodology presented in this thesis places the focus on 're-source management and climate mitigation and adaptation', in particular in urban stormwater management, proposing processes that can bring about the required change, shaped by the place-based approach of the regenerative sustainability paradigm.
Building upon literature and practice that supports a flexible approach to stormwater manage-ment in urban environments that mimic natural processes and predevelopment hydrology (Sus-tainable Drainage Systems, SuDS) as one way to, amongst others, help to prevent and adapt to climate change, the thesis highlights the relevance of the connection to the place for adoption of best practices that conduct towards a regenerative system. Hence, it incorporates this con-nection to the place to the SuDS representation, naming it the SuDS 'landed rocket'.
The proposed methodology includes a conceptual framework, specific method and tools, that allows for the understanding and the characterization of the current situation of a urban stormwater system in a process that guides future actions to move towards the desired regen-erative urban built environment concept, with a place-based holistic view.
This methodology has been applied to Benaguasil, a Mediterranean city, where stormwater management is the local authority's responsibility and has been historically guided by main-stream conventional drainage practices. The thesis shows how, by taking a multi-dimensional and trans-disciplinary approach to solve environmental problems, future actions can be proper-ly addressed. Working with academia has been essential to develop wider evidence base. In this case, a sequence of research projects has advanced the innovative approach to stormwater management in Benaguasil, but it is contended that this methodology could be applied to any urban context.
The thesis aims to enhance smart governance by providing information about the successful implementation and monitoring of SuDS showcase sites in Mediterranean Spain. These show-case sites are catalysts in the transition towards regenerative urban built environments in the region. In addition, it provides international examples that add further credence for improved urban ecological infrastructure by demonstrating what success can look like.[ES] Bajo el conocido eslogan 'piensa global, actúa local', las ciudades del siglo XXI se enfrentan al gran reto de catalizar, intensificar y acelerar las transformaciones hacia un urbanismo sostenible. Desde una perspectiva holística, la metodología presentada en esta tesis se centra en 'la gestión de los recursos y la adaptación y mitigación al cambio climático', en particular en la gestión de las escorrentías urbanas, proponiendo los procesos que pueden ayudar al cambio requerido, bajo el enfoque del paradigma de la sostenibilidad regenerativa local. A partir de las referencias bibliográficas y experiencias que avalan a los Sistemas de Drenaje Sostenible (SuDS) como enfoque flexible a la gestión de las escorrentías urbanas, tratando de mimetizar los procesos hidrológicos previos al desarrollo urbano (que entre otros, contribuyen a la prevención y adaptación frente al cambio climático de las ciudades), la tesis subraya la relevancia de la conexión con el lugar para la selección de las mejores soluciones que lo conduzcan hacia un sistema regenerativo. Así, se incorpora esta conexión con el lugar a la representación de los SuDS, dándole el nombre de 'SuDS landed rocket'. La metodología propuesta incluye un marco conceptual, un método y herramientas específicas que permiten el entendimiento y caracterización de la situación actual de un sistema de drenaje urbano en un proceso que guíe acciones futuras para progresar hacia el concepto del medioambiente urbano regenerativo deseado, con una perspectiva holística local. La metodología se ha aplicado en Benaguasil, una ciudad mediterránea, donde la gestión del agua de lluvia es responsabilidad local y que ha estado influenciada históricamente por prácticas convencionales de drenaje. La tesis muestra cómo adoptando un enfoque multidimensional y multidisciplinar para resolver problemas medioambientales, las acciones futuras se pueden plantear correctamente. El trabajo con las instituciones académicas se ha demostrado esencial para desarrollar evidencias de base más amplias. En este caso, una serie de proyectos de investigación ha permitido el avance de Benaguasil hacia una gestión del agua de lluvia más innovadora. La experiencia demuestra que la metodología podría ser aplicada a cualquier otro contexto urbano. La tesis pretende mejorar la gobernanza inteligente proveyendo información respecto de la implementación y monitorización exitosas de SuDS en experiencias piloto en la España mediterránea. Estas demostraciones son catalizadoras de la transición hacia un medio ambiente urbano regenerativo en la región. Además, presenta ejemplos que se añaden al catálogo internacional de experiencias, mostrando el camino del éxito hacia un entorno urbano más saludable y habitable.
[CAT] Sota el conegut lema 'pensa global, actua local', les ciutats del segle XXI s'enfronten al gran repte de catalitzar, intensificar i accelerar les transformacions cap a un urbanisme sostenible. Des d'una perspectiva holística, la metodologia presentada en esta tesis es centra en 'la gestió dels recursos i la adaptació i mitigació al canvi climàtic', en particular en la gestió de les escorrenties urbanes, proposant processos que poden ajudar al canvi requés, des d'una òptica del paradigma de la sostenibilitat regenerativa local. A partir de les referències bibliogràfiques i experiències que avalen els Sistemes de Drenatge Sostenible (SuDS) com una aproximació flexible a la gestió de les escorrenties urbanes, tractant de mimetitzar els processos hidrològics previs al desenvolupament urbà (que entre altres, contribueixen a la prevenció i adaptació al canvi climàtic de les ciutats), la tesis subratlla la rellevància de la connexió al lloc per a la selecció de les millors solucions que el puguen conduir cap a un sistema regeneratiu. D'esta manera, s'incorpora esta connexió al lloc en la representació dels SuDS, donant-li el nom de 'SuDS landed rocket'. La metodologia proposta inclou un marc conceptual, un mètode i unes eines especifiques que permeten l'enteniment i caracterització de la situació actual d'un sistema de drenatge urbà en un procés que guie accions futures per a progressar cap al concepte de medi ambient urbà regeneratiu desitjat, amb una perspectiva holística local. La metodologia s'ha aplicat a Benaguasil, una ciutat mediterrània, on la gestió de l'aigua de pluja és responsabilitat local, i que ha estat influenciada històricament per pràctiques convencionals de drenatge. La tesis mostra com adoptant un punt de mira multidimensional i multidisciplinari per a resoldre problemes medi ambientals, les accions futures es poden plantejar correctament. El treball amb les institucions acadèmiques s'ha demostrat essencial per a crear evidències de base més amples. En este cas, una sèrie de projectes europeus d'investigació ha permès l'avanç de Benaguasil cap a una gestió de l'aigua de pluja més innovadora. L'experiència demostra que la metodologia podria ser aplicada a qualsevol altre context urbà. La tesis pretén millorar la governança intel¿ligent aportant informació respecte de la implementació i monitorització exitoses de SuDS en experiències pilot en la Espanya mediterrània. Estes demostracions son catalitzadores de la transició cap a un medi ambient urbà regeneratiu en la regió. A més a més, presenta exemples que s'afegeixen al catàleg internacional d'experiències, mostrant el camí del èxit cap a un entorn urbà més saludable i habitable.
Perales Momparler, CS. (2015). A regenerative urban stormwater management methodology. The role of SuDS construction and monitoring in the transition of a Mediterranean city [Tesis doctoral no publicada]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/59063
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Smith, Kerry W. S. "Development of a transitioning approach to reduce surface water volumes in combined sewer systems." Thesis, Abertay University, 2016. https://rke.abertay.ac.uk/en/studentTheses/b7c5021f-2efe-421a-b32f-0ac3161fc511.
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The overarching goal of this research is to establish a successful forum for a transition from the existing paradigm of managing wastewater infrastructure to a more sustainable paradigm that achieves a more efficient utilisation of wastewater assets. A transitioning approach to support a more efficient utilisation of surface water and wastewater assets and infrastructure is proposed and developed. The determined transitioning approach possesses key stages namely developing the arena, developing the agenda, case study, and monitoring. The case study stage investigates a drainage utility identifying their improvement drivers, the removal of surface water through detailed drainage modelling and the financial examination of the costs incurred under the various scenarios conducted. Understanding the implications of removing/attenuating surface water from the network is improved through obtaining data by detailed drainage modelling. Infoworks software is used to investigate and assess the current and future operational scenarios of a wastewater system operating over one calendar year. Modelling scenarios were conducted removing surface water from selected areas focusing on the volumes requiring pumping and durations of pumping station(s) operation prior to treatment during storm conditions. The financial implication of removing surface water in combined sewer systems is examined in three main components. Firstly the costs of electricity incurred at the single sewage pumping station (SPS) investigated during the various scenarios modelled require to be addressed. Secondly the costs to retrofit sustainable urban drainage system (SUDS) solutions needs to be identified. Thirdly the implications of removing surface water for the drainage utility at the national level and the potential saving for householder’s committing to a surface water disconnection rebate scheme. When addressed at the macro level i.e., with over 2,100 pumping stations, some operating in sequence and contained within one drainage utility annually treating 315,360 megalitres the significance of the same multiple quantifiable and intangible benefits becomes amplified. The research aims, objectives and findings are presented to the identified and convened stakeholders. The transitioning approach developed encourages positive discourse between stakeholders. The level of success of the transitioning approach determined is then tested using a quantitative methodology through the completion of questionnaires. From the questionnaires completed the respondents unanimously agreed that surface water flows should be removed as well as reduced from the combined sewer system. The respondents agreed that the removal of surface water from a typical combined sewer system is justified by applying a transitioning approach focusing on the energy consumption required to pump increased volumes during storm events. This response is significant based upon the economic evidence and is contrary to the respondents previous position that finance was their most influencing factor. When provided with other potentially available benefits the respondents were even more supportive of the justification to remove surface water from the combined sewer system. The combined findings of the work presented in this thesis provide further justification that the transitioning approach applied to the removal of surface water from a typical combined sewer system, as determined in this research has been successful.
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Asry, Asra. "Modélisation hydrologique de l'infiltration des eaux pluviales dans les sols urbains en prenant en compte les chemins préférentiels." Electronic Thesis or Diss., Lyon, INSA, 2023. http://www.theses.fr/2023ISAL0095.
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L'infiltration joue un rôle crucial dans le cycle urbain de l'eau en servant comme limite entre le ruissellement et l'absorption. Cette étude vise à relever le défi de modéliser de manière pratique et fiable l'infiltration pour les Systèmes de Gestion Durable des Eaux Pluviales (SUDS), en mettant l'accent sur une approche facilement ajustable basée sur des principes physiques, cherchant à équilibrer entre complexité et parcimonie. Cela implique la nécessité de réduire au maximum le nombre de paramètres, l'utilisation de paramètres physiques collectés sur le terrain et l'examen de l'impact des macropores sur les taux d'infiltration à travers les SUDS. Diverses méthodes ont été introduites et évaluées pour répondre à ces questions. Dans un premier temps, cette thèse propose le développement d'un nouveau module appelé INFILTRON-Mod, un modèle d'infiltration basé sur des principes physiques et pouvant être calibré facilement, démontrant ainsi son potentiel d’intégration dans des modèles hydrologiques. Un ensemble important de données expérimentales ainsi que des résultats synthétique (Hydrus) sont utilisés pour la validation. Ensuite, la thèse étend le modèle proposé en incorporant un concept de perméabilité duale pour prendre en compte les écoulements préférentiels dans les SUDS. Finalement, cette étude conduit à une analyse de l'incertitude et de la sensibilité des modèles proposés. Pour conclure, cette thèse a produit des informations cruciales pour l’optimisation de la modélisation des outils de gestion des eaux urbaines en couplant un volet « science du sol » et un volet « modélisation hydrologique des SUDS ». Il est recommandé de poursuivre les recherches pour améliorer et élargir la portée des modèles proposés, contribuant ainsi à une représentation plus précise des phénomènes hydrologiques dans leur complexité au sein des SUDSInfiltration plays a crucial role in the urban water cycle by acting as a threshold between runoff and absorption. This study aims to address the challenge of modeling infiltration in a robust and practical way for Sustainable Urban Drainage Systems (SUDS), focusing on an easily adjustable physically-based approach that balances complexity and parsimony. This involves minimizing the number of parameters, using physical parameters collected in the field, and examining the impact of macropores on infiltration rates through SUDS. Various methods have been introduced and evaluated to answer these questions. Firstly, this thesis proposes the development of a new module called INFILTRON-Mod, a physically based infiltration model that can be easily calibrated, thus proving its potential for integration into hydrological models. A large set of experimental data and synthetic results (Hydrus) are used for validation. This thesis then develops further the proposed model by incorporating a dual permeability concept to take into consideration the preferential flows in SUDS. Finally, this study leads to an analysis of the uncertainty and sensitivity of the proposed models. In conclusion, this thesis has produced crucial information for optimizing the modeling of urban water management tools by coupling a 'soil science' component with a 'hydrological modeling of SUDS' component. Further research is recommended to improve and extend the scope of the proposed models, thus contributing to a more accurate representation of hydrological phenomena in their complexity within SUDS
Books on the topic "SuDS - Sustainable Urban Drainage Systems"
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Ralls, Katherine Ann. Post-project appraisal of SUDS: Evaluating the implementation of sustainable urban drainage systems. [Oxford]: Oxford Brookes University, 2002.
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Everard, Mark. Sustainable Drainage Systems (SuDS). Cheltenham: Natural Step, 2001.
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Scotland. Scottish Executive. Development Department. Planning and sustainable urban drainage systems. [Edinburgh]: Scottish Executive Development Dept., 2001.
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Everard, Mark. Sustainable Drainage Systems (SuDS): An evaluation using The Natural Step Framework. Cheltenham: Natural Step, 2001.
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Peter, Martin, and Construction Industry Research and Information Association., eds. Sustainable urban drainage systems: Design manual for England and Wales. London: CIRIA, 2000.
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Les, Lampe, Water Environment Research Foundation, AWWA Research Foundation, and United Kingdom Water Industry Research., eds. Performance and whole life costs of best management practices and sustainable urban drainage systems: (final report for phases 1 and 2 of project 01-CTS-21T). Alexandria, VA: WERF, 2005.
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Martin, P., and et al. Sustainable Urban Drainage Systems. Construction Industry Research and Information Ass, 2000.
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Martin, P., and et al. Sustainable Urban Drainage Systems. Construction Industry Research & Information Association (CIRIA), 2000.
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Sustainable Urban Drainage Systems. Construction Industry Research & Information Association (CIRIA), 2001.
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Sustainable urban drainage systems: An introduction. Stirling: SEPA, 2000.
Find full textBook chapters on the topic "SuDS - Sustainable Urban Drainage Systems"
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Vernon, Siobhan, Susan Irwine, Joanna Patton, and Neil Chapman. "Sustainable urban Drainage Systems – SuDS." In Landscape Architect's Pocket Book, 84–92. 3rd ed. London: Routledge, 2021. http://dx.doi.org/10.4324/9781003119500-13.
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Loc, Hohuu, K. N. Irvine, and Nirakar Pradhan. "Social-Based Exploratory Assessment of Sustainable Urban Drainage Systems (Suds)." In Modeling Methods and Practices in Soil and Water Engineering, 169–86. Oakville, ON ; Waretown, NJ : Apple Academic Press, [2016] |: Apple Academic Press, 2017. http://dx.doi.org/10.1201/b19987-9.
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Alba-Rodríguez, Mª Desirée, Rocío Ruíz-Pérez, M. Dolores Gómez-López, and Madelyn Marrero. "A Model for the Assessment of the Water Footprint of Gardens that Include Sustainable Urban Drainage Systems (SUDS)." In Water Footprint, 61–102. Singapore: Springer Singapore, 2021. http://dx.doi.org/10.1007/978-981-33-4377-1_3.
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Hamill, Les. "Sustainable Drainage Systems (SUDS)." In Understanding Hydraulics, 551–68. London: Macmillan Education UK, 2011. http://dx.doi.org/10.1007/978-0-230-34586-7_14.
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Green, Andrew. "Sustainable Drainage Systems (SuDS) in the UK." In Applied Environmental Science and Engineering for a Sustainable Future, 69–101. Cham: Springer International Publishing, 2019. http://dx.doi.org/10.1007/978-3-030-11818-1_4.
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Coupe, Stephen J., Amal S. Faraj, Ernest O. Nnadi, and Susanne M. Charlesworth. "Integrated Sustainable Urban Drainage Systems." In Water Efficiency in Buildings, 147–63. Oxford: John Wiley & Sons, 2013. http://dx.doi.org/10.1002/9781118456613.ch9.
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Radinja, Matej, Joaquim Comas, Lluis Corominas, and Nataša Atanasova. "Multi-criteria Evaluation of Sustainable Urban Drainage Systems." In New Trends in Urban Drainage Modelling, 269–74. Cham: Springer International Publishing, 2018. http://dx.doi.org/10.1007/978-3-319-99867-1_45.
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Deletic, Ana, Kefeng Zhang, Behzad Jamali, Adam Charette-Castonguay, Martijn Kuller, Veljko Prodanovic, and Peter M. Bach. "Modelling to Support the Planning of Sustainable Urban Water Systems." In New Trends in Urban Drainage Modelling, 10–19. Cham: Springer International Publishing, 2018. http://dx.doi.org/10.1007/978-3-319-99867-1_2.
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Hapsari, Ratih Indri, Muhammad Aly Kamil, and Medi Efendi. "Improving Sustainable Urban Drainage Systems through Topography-Based Design." In Proceedings of the International Conference on Applied Science and Technology on Social Science 2023 (iCAST-SS 2023), 469–76. Paris: Atlantis Press SARL, 2023. http://dx.doi.org/10.2991/978-2-38476-202-6_68.
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de Sousa Moretti, Ricardo, and Edson Aparecido da Silva. "Urban Drainage and Sewage Systems: Diffuse Pollution and System’s Interconnection." In Encyclopedia of the UN Sustainable Development Goals, 636–43. Cham: Springer International Publishing, 2022. http://dx.doi.org/10.1007/978-3-319-95846-0_186.
Full textConference papers on the topic "SuDS - Sustainable Urban Drainage Systems"
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Marchioni, M., and G. Becciu. "Permeable pavement used on sustainable drainage systems (SUDs): a synthetic review of recent literature." In URBAN WATER 2014. Southampton, UK: WIT Press, 2014. http://dx.doi.org/10.2495/uw140161.
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Mittal, Aashna, Jessica Nguyen, Lisa Scholten, and Zoran Kapelan. "UrbanLemma: A serious game to support the adoption of sustainable urban drainage solutions." In 2nd WDSA/CCWI Joint Conference. València: Editorial Universitat Politècnica de València, 2022. http://dx.doi.org/10.4995/wdsa-ccwi2022.2022.14138.
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Long-term planning of urban drainage systems is required to prevent pluvial flooding and the effects of droughts. Sustainable urban drainage systems (SUDS), e.g., permeable pavements, detention ponds, and rainwater harvesting systems are increasingly used to manage water and build resilience in urban environments. However, the adoption of these solutions remains low due to various socio-institutional barriers. Improving awareness about SUDS and highlighting their multifunctional benefits and trade-offs through an engaging medium could help address these barriers. Serious games provide an immersive and engaging experience that can be used to motivate and impart knowledge or train skills to improve decision-making. The potential of serious games to support the adoption of SUDS has not been investigated so far. This paper presents the proof-of-concept of the serious game UrbanLemma, designed to improve awareness and decision-making of stakeholders about SUDS along with the additional goals of increased engagement and communication among stakeholders. Initial results from play-test sessions conducted with researchers at TU Delft are presented and lessons learned from the game development process are discussed.
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Abdulraheem, Sahar, and Nawari O. Nawari. "Sustainable Techniques for Public School in Florida: Application of the Sustainable Urban Drainage System (SUDS)." In ASME 2015 9th International Conference on Energy Sustainability collocated with the ASME 2015 Power Conference, the ASME 2015 13th International Conference on Fuel Cell Science, Engineering and Technology, and the ASME 2015 Nuclear Forum. American Society of Mechanical Engineers, 2015. http://dx.doi.org/10.1115/es2015-49805.
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Floods are among the most common natural hazards in Florida. They are threatening the safety and economic welfare of Floridians. Every year Florida spends millions of dollar to mitigate direct flood damages. Amongst the effective solutions to these flood damages is the control of urban drainage in school buildings and nearby grounds to conserve and preserve natural resources and to promote sustainable thinking. This paper discusses how public schools in Florida can benefit from sustainable techniques by applying the sustainable urban drainage system (SUDS) to school designs. The article also illustrates how Florida can use school sites as double functions to provide an active educational environment and to manage storm water runoff at the same time. Construction costs estimation for sustainable techniques is calculated based on data available for the year 2011 and compared with the conventional construction methods for schools. The result indicates a high initial cost that can easily be offset by considering the cost of conventional drainage structure, conserved storm water, flooding impact, storm water sewage disposal, and other measures.
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Tota-Maharaj, K., P. Grabowiecki, and M. Akintoye. "A hydrodynamic experimental study of green roofs as an effective sustainable urban drainage system (SuDS)." In BHS 11th National Hydrology symposium. British Hydrological Society, 2012. http://dx.doi.org/10.7558/bhs.2012.ns52.
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Ursino, N. "Reliability analysis of sustainable storm water drainage systems." In URBAN WATER 2014. Southampton, UK: WIT Press, 2014. http://dx.doi.org/10.2495/uw140131.
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Andoh, Robert Y. G., and Kenneth O. Iwugo. "Sustainable Urban Drainage Systems: A UK Perspective." In Ninth International Conference on Urban Drainage (9ICUD). Reston, VA: American Society of Civil Engineers, 2002. http://dx.doi.org/10.1061/40644(2002)19.
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Rodríguez-Rojas, M. I., F. Huertas-Fernández, G. Martínez, and B. Moreno. "The use of urban drainage systems in sustainable cities." In SUSTAINABLE DEVELOPMENT AND PLANNING 2016. Southampton UK: WIT Press, 2016. http://dx.doi.org/10.2495/sdp160651.
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Miguez, M. G., J. M. Bahiense, O. M. Rezende, and A. P. Veról. "New urban developments: flood control and LID—a sustainable approach for urban drainage systems." In The Sustainable City 2012. Southampton, UK: WIT Press, 2012. http://dx.doi.org/10.2495/sc120391.
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Schlüter, W., A. Spitzer, and C. Jefferies. "Performance of Three Sustainable Urban Drainage Systems in East Scotland." In Ninth International Conference on Urban Drainage (9ICUD). Reston, VA: American Society of Civil Engineers, 2002. http://dx.doi.org/10.1061/40644(2002)18.
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Tota-Maharaj, K., and D. Cheddie. "Implementation and Operation of Coconut Fiber/Husks Stormwater Filters as Sustainable Drainage Systems (SuDS) for Rural Communities across the Caribbean." In International Low Impact Development 2015. Reston, VA: American Society of Civil Engineers, 2015. http://dx.doi.org/10.1061/9780784479025.010.
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