Geothermal paving systems for urban runoff treatment and renewable energy efficiency

Tota-Maharaj, Kiran

January 2010

Water and energy are two of the most precious and essential resources which are inseparably connected; vital for the survival and well-being of humanity. Sustainable water resources and energy management emphasizes the requirement for a holistic approach in meeting the needs of the present and future generations. In order to indentify the needs and obstacles relating to water reuse and renewable energy initiatives, Hanson Formpave in partnership with The University of Edinburgh implement a five-year pilot project between May 2005 and June 2010. The research project addressed the use of sustainable urban drainage systems (SUDS) such as permeable pavements systems (PPS) and integration of renewable energy tools such as geothermal heat pumps (GHPs). The research uses the novel and timely urban drainage system and focuses on water quality assessment when incorporated with GHPs. Twelve-tanked laboratory scaled experimental PPS were evaluated at The King’s Building campus (The University of Edinburgh, Scotland) using different compositions. Variations in designs included the presence of geotextiles layers and geothermal heating/cooling applications. The experimental rigs were examined for a two year period (March 2008 to April 2010). Two types of urban stormwater were used in the analysis; (i) gully pot liquor and (ii) gully pot liquor spiked with Canis lupus familiaris (dog) faeces. This urban wastewater represented the extreme worstcase scenario from a storm event, which can occur on a permeable pavement parking lot. The pavement systems operated in batch-flow to mimic weekly storm events and reduce pumping costs. Six PPS were located indoor in a controlled environment and six corresponding PPS were placed outdoors to allow for a direct comparison of controlled and uncontrolled environmental conditions. The outdoor rig simulated natural weather conditions whilst the indoor rig operated under controlled environmental conditions such as regulated temperature, humidity and light. The project assessed the performance of these pavement rigs with the integration of ground-source heating and cooling, standalone PPS and the abilities for water quality treatment from a physical, chemical and microbiological perspective. The performance efficiency of the GHP was measured by the energy efficiency ration (EER) for steady state cooling efficiency and the coefficient of performance (COP) for the heating cycle efficiency. Findings from the combined PPS and GHP system and standalone systems were able to significantly lower levels for all physiochemical and microbial water quality parameters in the range of (70-99.99%) respectively. Outflow concentrations for all pavement systems met the European Commission Environment Urban Wastewater Treatment Directive (91/271/EEC). The presence of geotextiles resulted in a significant reduction of contaminants when compared to PPS systems without (p <0.05). Photocatalytic disinfection with titanium dioxide (TIO2) was applied to the effluent from PPS for further treatment and polishing of the stormwater. After the photocatalytic disinfection, the water met the requirements for the United States Environmental Protection Agency (US EPA) water recycling guidelines and the World Health Organisation (WHO) guidelines for potable water consumption with regards to microbial contamination. An Energy and temperature balance was developed for two PPS using a 4th order Runge-Kutta numerical method to model the heat fluxes and energy balance within the pavement system. Machine learning techniques such as artificial neural networks (backpropagatioin feed forward neural networks) and self-organising maps (SOM) were applied and successfully predicted the effluent concentrations of nutrients, biochemical oxygen demand (BOD) and microbial pollutants. The overall outcome of this research is a significant contribution to the development of a new generable of sustainable and eco-friendly pavements. The research project proves scientifically that PPS is one of the most appropriate systems for GHP installation and does not affect its efficiency for water pollutant removal.

628

Engineering ; sustainable urban drainage

Flux de micropolluants dans les eaux de ruissellement urbaines : effets de différents modes de gestion à l'amont / Micropollutant fluxes in urban runoff : effects of sustainable urban drainage systems

Bressy, Adèle

14 June 2010

Ce travail de thèse a évalué les niveaux et les voies d'introduction de la contamination en micropolluants des eaux pluviales d'un petit bassin versant urbain, et mis en évidence les impacts de l'utilisation de techniques alternatives (TA) sur les flux d'eau et de contaminants. Quatre bassins versants à Noisy-le-Grand, homogènes par leur taille et leur occupation du sol (1 à 2 ha, résidentiel dense), et présentant une diversité de gestion des eaux pluviales (séparatif classique et différentes combinaisons de TA) ont été étudiés. La présence d'un certain nombre de substances prioritaires de la directive cadre européenne sur l'eau (HAP, alkylphénols, phtalates, diuron, isoproturon, atrazine, plomb) a été mise en évidence dans les eaux pluviales d'un bassin versant amont, à des niveaux de contamination globalement plus faibles qu'à l'aval des réseaux séparatifs. Cette contamination est tout de même significative pour certains paramètres qui ont été mesurés au dessus des normes de qualité. Pour le zinc, la contamination à l'amont est même plus élevée qu'à l'aval du fait de l'émission par des matériaux de couverture.Ce travail a montré que les TA diminuent les volumes d'eau rejetés vers l'aval d'environ 50% et réduisent les masses de contaminants émises de 20 à 80% (MES, DCO, PCB, HAP, alkylphénols, métaux traces). Cette réduction de masse est essentiellement liée à la diminution de volume, l'effet épuratoire sur les concentrations n'étant pas systématiquement mis en évidence. L'amplitude de ces effets varie suivant l'importance de la pluie, mais surtout en fonction du type d'ouvrage mis en place.La gestion à l'amont des eaux pluviales est donc à favoriser car elle évite la sur-contamination liée aux processus en réseau (mauvais branchements, érosion...). Elle permet de séparer les eaux peu chargées (infiltration ou rejet au milieu) des effluents contaminés qui pourront être traités localement ou à l'aval. Dans un objectif de réduction des flux polluants la conception des TA devra prendre en compte les pluies courantes et non pas seulement les événements exceptionnels / This thesis aimed at evaluating the contamination of urban stormwater from an upstream watershed by micropollutants and their introduction pathways, and estimating the hydrological effects and the pollutant removal performances of Sustainable Urban Drainage Systems (SUDS). Four watersheds located in Noisy-le-Grand were studied. They had comparable sizes (1 to 2 ha) and land use patterns (dense residential), but one was drained by a classical separate sewers system, and the other was managed by SUDS.We showed that stormwater from an upstream watershed is contaminated by some priority substances of the Water Framework Directive (PAHs, alkylphenols, phtalates, diuron, isoproturon, atrazine, lead), but at lower levels than the downstream. The concentrations of some parameters still excede the quality standards. Zinc concentrations are even higher than downstream, as a result of emissions from metallic materials from roong.SUDS reduce the volume of surface water discharged by 50 %. The mass of contaminants also decreases by 20 to 80 % (SS, COS, PCB, PAH, alkylphenol, metals). The discharge reduction is mainly due to water losses, whereas removal performances on concentrations are not systematically highlighted. These effects vary with rainfall and particularly with the type of SUDS.The upstream management of stormwater should be encouraged to avoid over contamination due to processes in sewer systems (erosion, bad connections...). Lightly contaminated effluents (infiltration or discharge to middle) can be separated from strongly contaminated ones that can be treated locally or downstream. In order to integrate depollution goals, the design of SUDS, currently based on exceptional events, should also rely on frequent events

Eaux pluviales

Micropolluants

Techniques alternatives

Ruissellement

Gestion amont

Stormwater

Micropollutants

Sustainable urban drainage systems

Runoff

Dagvattenhantering i hänsyn till kulturmiljön

Torffvit, Felicia

January 2016

This bachelor thesis aims to clarify the relationship between urban stormwater management and heritage sites. The topic is so far relatively unexplored, but may become highly relevant in the near future. Scientifically there is a lot of information about the impact from stormwater in heritage objects, also when repeated. The solution is sustainable urban drainage systems (SUDS) and insertion of green infrastructure in the actual area or the surrounding areas. However, science and local management are not the same. At a local level, more information is requested. It appears that, from the investigated examples in this thesis, the problem is to find available areas for the drainage systems. Also the protection and conservation of the heritage objects create restrictions considering changes in the actual area. However, it is not impossible to apply these solutions, as showed in the thesis concluding chapter. In general both experts and laymen are positive to the insertion, as long as SUDS are introduced in respect to the heritage values. / Denna kandidatuppsats har tittat på förhållandet dagvattenhantering och kulturmiljö. Det är ett relativt outforskat ämne, men kommer att bli relevant i en snar framtid. Forskningen visar på en kemisk nedbrytningsprocess av på kulturhistoriska objekt från dagvatten. Det är en problematik som ökar med klimatförändringarna. Lösningen som forskningen förespråkar är införande av en hållbar dagvattenhantering och grönska, vilket begränsas av kulturmiljöns riktlinjer och skydd. Det råder dessutom en platsbrist inom områden för kulturhistoriska objekt. Generellt sett finns det inget hinder från kulturmiljöns sida kring dagvattenhantering, men varje förändring ska noga vägas mot de kulturhistoriska värdena. Däremot är både tjänstemän och lekmän positivt inställda till miljömässiga fördelar så som en hållbar dagvattenhantering även i denna miljö.

sustainable urban drainage system

urban water

stormwater

heritage sites

långsiktigt hållbar dagvattenhantering

kulturmiljö

världsarv

byggnadsminne

Bioretention for diffuse pollution control in SUDS using experimental-adaptive approaches of ecohydrology / Bioretenção para o controle da poluição difusa em drenagem urbana sustentável (SUDS) utilizando abordagens experimentais-adaptativas de ecohidrologia

Altair Rosa

24 November 2016

Problems of land use and occupation in urban areas may prevent the infiltration of water, thus increasing runoff. Bioretention techniques are solutions, which are emerging from the hydrology field to mitigate the consequences of increasing urbanization, including, flooding and contamination of rivers. The general objective of this research is to study the general efficiency of combined Compensatory Techniques (CT) with detention and bioretention control of diffuse pollutants from an urban drainage system. Specific objectives are defined in each chapter and relates to sizing and to the bioretention systems of modeling and monitoring, located in southeastern Brazil, São Paulo &#8211; São Carlos. The first chapter presents the general introduction of the thesis, the objectives and research hypotheses, as well as, the description of the general methodology for the thesis construction and the goals related to each chapter. The second chapter discusses the scope and some limitations of the classifications of terms frequently used in the theme of sustainable urban drainage. This chapter, in a way, approaches the other chapters, which composes this thesis, by providing them comprehensive database of references. The third chapter presents the design criteria used for the construction of experimental bioretention system and compares the design with the model HEC &#8211; HMS - Hydrologic Engineering Center - Hydrologic Modeling System. The fourth chapter talks about some criteria to identify areas for building bioretention systems and presents the GIS - Geographic Information System and ecohydrology indicators, in this characterization, considering the quantity and quality aspects in the urban drainage. The fifth chapter shows the use of PCSWMM model (Personal Computer Stormwater Management Model) to simulate future scenarios, assuming progressive modular expansion of CTs, modeling efficiency in qualitative and quantitative aspects diffuse pollution for scenarios 2015, 2025, 2050, 2100. The conclusion of this research is that compensatory techniques can be used not only to assess the impacts of diffuse pollution stemmed from urban drainage system, but as a contribution to the sustainability of watersheds and to mitigation of extremes risks derived by increased urban drainage demand. / Problemas decorrentes do uso e ocupação do solo em áreas urbanas podem dificultar a infiltração da água, aumentando o escoamento superficial. Técnicas de bioretenção são soluções decorrentes do campo da hidrologia para mitigar as consequências resultantes da crescente urbanização, entre elas, enchentes e contaminação de rios. O objetivo geral da pesquisa é estudar a eficiência generalizada de Técnicas Compensatórias (TCs) experimentais, adaptáveis combinadas de detenção e bioretenção para controle da poluição difusa da drenagem urbana. Objetivos específicos são definidos em cada capítulo e relacionam-se com o dimensionamento e monitoramento de modelagem de sistema de bioretenção, localizado no Sudeste do Brasil, São Paulo &#8211; São Carlos. O Primeiro capítulo apresenta a introdução geral da tese, objetivos e hipóteses, bem como, descreve a metodologia geral para construção da tese e relação dos objetivos com os respectivos capítulos. O Segundo capítulo discute os alcances e limitações de nomenclaturas sobre termos frequentemente utilizados na temática drenagem urbana sustentável. Este capítulo de certa forma aporta os demais capítulos que compõe esta tese, por propiciar vasto banco de dados referenciais. O Terceiro capítulo apresenta os critérios de dimensionamento utilizados para a construção de um sistema de bioretenção experimental e uma comparação com o dimensionamento com o modelo HEC &#8211; HMS - Hydrologic Engineering Center - Hydrologic Modeling System. O Quarto capítulo discorre sobre critérios de escolha de áreas propicias para a construção de sistemas de bioretenção usando Sistemas de Informações Geográficas para a caracterização de áreas, utilizando indicadores ecohidrológicos, considerando os aspectos de quantidade e de qualidade na drenagem urbana. O Quinto capítulo demonstra o uso do modelo PCSWMM &#8211; Personal Computer Stormwater Management Model, na simulação de cenários futuros assumindo expansões modulares progressivas da TC, modelando a eficiência para os aspectos qualitativos e quantitativos da poluição difusa para os 2015, 2025, 2050, 2100. Conclui-se com esta pesquisa que técnicas compensatórias podem ser empregadas não só para avaliação dos impactos da poluição difusa provindos da drenagem urbana, mas como forma de contribuir com a sustentabilidade de bacias hidrográficas e para mitigação de riscos de extremos advindos do aumento da demanda de drenagem urbana.

Drenagem urbana sustentável

Poluição difusa

Compensatory techniques sizing

Diffuse pollution

Sustainable urban drainage

Bioretention for diffuse pollution control in SUDS using experimental-adaptive approaches of ecohydrology / Bioretenção para o controle da poluição difusa em drenagem urbana sustentável (SUDS) utilizando abordagens experimentais-adaptativas de ecohidrologia

Rosa, Altair

24 November 2016

Problems of land use and occupation in urban areas may prevent the infiltration of water, thus increasing runoff. Bioretention techniques are solutions, which are emerging from the hydrology field to mitigate the consequences of increasing urbanization, including, flooding and contamination of rivers. The general objective of this research is to study the general efficiency of combined Compensatory Techniques (CT) with detention and bioretention control of diffuse pollutants from an urban drainage system. Specific objectives are defined in each chapter and relates to sizing and to the bioretention systems of modeling and monitoring, located in southeastern Brazil, São Paulo &#8211; São Carlos. The first chapter presents the general introduction of the thesis, the objectives and research hypotheses, as well as, the description of the general methodology for the thesis construction and the goals related to each chapter. The second chapter discusses the scope and some limitations of the classifications of terms frequently used in the theme of sustainable urban drainage. This chapter, in a way, approaches the other chapters, which composes this thesis, by providing them comprehensive database of references. The third chapter presents the design criteria used for the construction of experimental bioretention system and compares the design with the model HEC &#8211; HMS - Hydrologic Engineering Center - Hydrologic Modeling System. The fourth chapter talks about some criteria to identify areas for building bioretention systems and presents the GIS - Geographic Information System and ecohydrology indicators, in this characterization, considering the quantity and quality aspects in the urban drainage. The fifth chapter shows the use of PCSWMM model (Personal Computer Stormwater Management Model) to simulate future scenarios, assuming progressive modular expansion of CTs, modeling efficiency in qualitative and quantitative aspects diffuse pollution for scenarios 2015, 2025, 2050, 2100. The conclusion of this research is that compensatory techniques can be used not only to assess the impacts of diffuse pollution stemmed from urban drainage system, but as a contribution to the sustainability of watersheds and to mitigation of extremes risks derived by increased urban drainage demand. / Problemas decorrentes do uso e ocupação do solo em áreas urbanas podem dificultar a infiltração da água, aumentando o escoamento superficial. Técnicas de bioretenção são soluções decorrentes do campo da hidrologia para mitigar as consequências resultantes da crescente urbanização, entre elas, enchentes e contaminação de rios. O objetivo geral da pesquisa é estudar a eficiência generalizada de Técnicas Compensatórias (TCs) experimentais, adaptáveis combinadas de detenção e bioretenção para controle da poluição difusa da drenagem urbana. Objetivos específicos são definidos em cada capítulo e relacionam-se com o dimensionamento e monitoramento de modelagem de sistema de bioretenção, localizado no Sudeste do Brasil, São Paulo &#8211; São Carlos. O Primeiro capítulo apresenta a introdução geral da tese, objetivos e hipóteses, bem como, descreve a metodologia geral para construção da tese e relação dos objetivos com os respectivos capítulos. O Segundo capítulo discute os alcances e limitações de nomenclaturas sobre termos frequentemente utilizados na temática drenagem urbana sustentável. Este capítulo de certa forma aporta os demais capítulos que compõe esta tese, por propiciar vasto banco de dados referenciais. O Terceiro capítulo apresenta os critérios de dimensionamento utilizados para a construção de um sistema de bioretenção experimental e uma comparação com o dimensionamento com o modelo HEC &#8211; HMS - Hydrologic Engineering Center - Hydrologic Modeling System. O Quarto capítulo discorre sobre critérios de escolha de áreas propicias para a construção de sistemas de bioretenção usando Sistemas de Informações Geográficas para a caracterização de áreas, utilizando indicadores ecohidrológicos, considerando os aspectos de quantidade e de qualidade na drenagem urbana. O Quinto capítulo demonstra o uso do modelo PCSWMM &#8211; Personal Computer Stormwater Management Model, na simulação de cenários futuros assumindo expansões modulares progressivas da TC, modelando a eficiência para os aspectos qualitativos e quantitativos da poluição difusa para os 2015, 2025, 2050, 2100. Conclui-se com esta pesquisa que técnicas compensatórias podem ser empregadas não só para avaliação dos impactos da poluição difusa provindos da drenagem urbana, mas como forma de contribuir com a sustentabilidade de bacias hidrográficas e para mitigação de riscos de extremos advindos do aumento da demanda de drenagem urbana.

Compensatory techniques sizing

Diffuse pollution

Drenagem urbana sustentável

Poluição difusa

Sustainable urban drainage

Sustainable drainage of sports pitches

Simpson, Murray R.

January 2016

The drainage behaviour of sports pitches is not well understood nor has performance been measured in the past. Within planning authorities there is a perceived contribution of pitch water discharge to local flood risk; whereby all the rainfall surface runoff is rapidly channelled through the drainage system to the pitch outfall. However, empirical evidence from industry suggested that this may not be a realistic assumption from observations of low drainage volumes yielded from pitch drainage systems. Furthermore, discharge constraints imposed have in many cases resulted in grossly over-designed off-line drainage attenuation systems for new sports developments through lack of understanding. In contrast, sports pitches indeed have the potential to enhance the attenuation performance of the subsoils and provide localised effective management of surface water runoff, and a significant storage volume if designed appropriately The findings in this thesis confirm that pitch bases demonstrate the key functions that are in fact reflected in the design requirements of Sustainable Urban Drainage Systems (SuDS). This PhD research project was conducted to investigate and document the performance of common pitch construction and drainage systems to better characterise the key drainage mechanisms that occur and control the flow of surface rain water through the pitch to the discharge outfall. The project developed a triangulated approach to the investigations, comprising: field measurements of climate and discharge behaviour at a range of artificial and natural turf pitches in England; laboratory physical model testing of pitch component hydraulics; and predictive mathematical modelling of how a pitch system may be expected to perform hydraulically based on key material and system drainage principles. The field monitoring systems were developed as part of the research, as was bespoke laboratory physical simulation of a pitch construction. It was found that very variable yields (% out versus % in) of water were detected from the monitored field sites. The values varied across a range of < 1 to 88%, with the natural turf providing higher yields in general. The antecedent weather patterns did not show a clear relationship with yield as might have been expected. However, it was not always possible to retrieve detailed information on the subsoil conditions or hydraulic capability reducing the conclusiveness of the discharge flow measurements. The scaled laboratory testing of pitch materials established the importance and magnitude of barriers to percolation of surface water through the layers of the pitch constructions, in particular artificial pitch profiles. It was found that a significant proportion of the total rainfall head was required to instigate percolation of surface water through the carpet and into the pitch i.e. breakthrough head. In addition, several constituent pitch materials exhibited water retention characteristics that reduced that rate of free percolation of surface water through the pitch profile. The net impact is to reduce the net available head of water to further drive flow through the layers to the pipe network drainage system. A conceptual hydraulic model, developed from the literature, was further developed into a simple numerical model. The model was informed by parameters determined from the laboratory measurements and key groundwater drainage flow theory to attempt to replicate a pitch drainage system. It was envisaged that the models would be validated by the field data, although this proved challenging as a result of the field data variability and the multivariate nature of the influences on flows measured. A key finding of the modelling was further establishing the likely head of water generated at the interfaces between the bottom of the granular sub-base and the pipe collection drainage system beneath. This resulted in limited pipe infiltration and low total flows to the outfall, further corroborating the project field results and the anecdotal observations from practitioners. The combined unique data sets provide a refined model for sports pitch drainage to both reinforce understanding and inform practical design and operation.

628

The superior option for stormwater management : A case study of Årstafältet / Det optimala alternativet för dagvattenhantering : – En fallstudie om Årstafältet

Lundqvist, Andreas

January 2021

Dagens dagvattenhantering i urbana områden är inte hållbar vilket resulterar i översvämningar, förfallav naturen och hälsoproblem. Fortsatt urbanisering och klimatförändringar påverkar systemet negativtoch kräver en brådskande förändring. Ett alternativ till traditionell dagvattenhantering är naturligalösningar, NBS, definierat som inspiration och användandet av naturen för att hanterasamhällsproblem. Det kan ge resilienta och adaptiva lösningar som främjar biologisk mångfald,människors välbefinnande, ett lovande alternativ för att tackla de här problemen. NBS är dock förenatmed osäkerheter såsom kunskapsbrister kring prestanda, underhåll och möjliga negativakonsekvenser. Även om NBS kan anses vara en hållbar lösning är den inte frekvent implementerad iurbana områden. Den här uppsatsen använder fallstudien Årstafältet för att samla och analysera föroch nackdelar av NBS och traditionella dagvattenlösningar. Med hjälp av intervjuer med inblandadeaktörer, plandokument, regleringar och en litteraturstudie visar resultatet att NBS kan ge ett resilient,flexibelt och kostnads-effektivt system med multipla fördelar vilket kan uppfylla t.ex. vattendirektivet(WFD), hållbarhetsmålen (SDGs) och miljömålen. Det traditionella systemet är en oelastisk lösninginkapabel att förebygga miljöförändringarna och med frekvent breddning av smutsigt dag- ochavloppsvatten. Systemet är sett som oförmögen att uppfylla mål kring biologisk mångfald, miljömåloch reningskrav och därav en ohållbar lösning. Existerande infrastruktur och ett välarbetat arbetssättgör att det traditionella systemet dock fortfarande förlitas på. Problem som identifierades med NBSvar kunskapsbrister, en ny process för att hantera dagvatten som inkluderar en omfattande inblandningav aktörer, övergångsbarriärer, oklarheter gällande ansvarsfördelning, brist på deltagande frånallmänheten, avsaknad av tekniskt vägledning, bristen och behovet av att kontrollera och mätalösningar samt beroendet av entusiastiska aktörer. / The current stormwater management in urban areas is not sustainable, resulting in frequent floodingevents, degeneration of the environment and human health issues. Increased urbanization and climatechange negatively impact the outcome and calls for an urgent change. An alternative to traditionalstormwater management is nature-based solution, NBS, broadly defined as the usage or inspiration ofnature to address societal challenges. It can provide resilient, adaptive solutions which promotebiodiversity and human well-being, a solution to address these challenges. NBS is however unitedwith uncertainties such as knowledge gaps of performance, maintenance, efficiency and potentialtradeoffs. Although NBS can be considered a sustainable solution, it is not widely adopted andimplemented in urban areas. This thesis uses the case study of Årstafältet project to identify andanalyze opportunities and challenges of NBS and conventional drainage system. Based on interviewswith involved actors, plans, regulation and a conceptual framework, the result shows that NBS canprovide a resilient, flexible and cost-effective system with multiple benefits which addresses allaspects of sustainability. It is widely supported by laws and policies, addressing the EU WaterFramework Directive (WFD), the Sustainable Development Goals (SDGs) and the EnvironmentalObjectives for example. The conventional drainage system is an inflexible system unable to mitigateclimate change, with frequent overflows (CSOs) of dirty storm and sewage water. It is unable toachieve biodiversity goals, environmental objectives and water quality targets and thus recognized asan unsustainable solution. With an existing infrastructure and an established way of managing theconventional drainage system, it is however still relied on. Identified challenges of NBS areknowledge gaps, a new management process with extensive stakeholder involvement, transitionbarriers, unclear division of responsibilities, lack of public participation and technical guidance, lackof and the need to monitor solutions and the dependence on enthusiastic actors.

Stormwater

NBS

conventional drainage system

Sustainable urban drainage systems

Årstafältet

Other Social Sciences

Annan samhällsvetenskap

Achieving Sustainable Urban Drainage through Multifunctionality / Hållbar dagvattenhantering genom multifunktionalitet

Schäfer, Benjamin

January 2019

No description available.

Sustainable Urban Drainage

Relational Planning

Multifunctionality

Public Space

Urban Nature

Other Social Sciences

Annan samhällsvetenskap

Flexible Urban Drainage Systems in New Land-Use Areas

Eckart, Jochen

01 January 2012

Urban drainage systems are influenced by several future drivers that affect the performance as well as the costs of the systems. The uncertainties associated with future drivers and their impact creates difficulties in designing urban drainage systems sustainably. A review of the different future drivers for urban drainage systems illustrates that no sufficient future predictions for the long operational life spans of the systems are possible. This dissertation contends that to deal with future uncertainties, flexibility in urban drainage systems is necessary. At present, profound insights about defining, measuring, and generating flexible urban drainage systems do not exist. This research systematically approaches these issues. First, a clear definition of flexibility and an approach for the measurement and optimization of flexibility is operationalized. Based on the generic definitions of flexibility used in other disciplines, a definition tailored for urban drainage systems is generated. As such, flexibility in sustainable urban drainage systems is defined as `the ability of urban drainage systems to use their active capacity to act and respond to relevant alterations during operation in a performance-efficient, timely, and cost-effective way'. Next, a method for measuring flexibility is provided based on the developed definition of flexibility including the metrics, 'range of change', 'life-cycle performance' and 'effort of change'. These metrics are integrated into a framework for the measurement of flexibility based on a comparison of performance and effort in different alternative solution with respect to different future states. In addition the metrics are the core components for optimizing flexible design of urban drainage system. The measurement method is successfully applied in two case studies in Tuttle Hill, UK and Hamburg-Wilhelmsburg, Germany. Using the developed definition and method for the measurement of flexibility, this dissertation illustrates that a transfer of the general theoretical background of flexibility to the field of urban drainage is possible. It is currently unclear how the flexible design of urban drainage systems can be executed. Based on a review, this research identifies nine potential principles of flexible design, described by the indicators of modularity, platform design, flexible elements, cost efficiency, decentralized design, real time control, low degree of specialization, scalability, and a combination of these principles. A case study of Hamburg-Boberg is then presented to analyze which of these principles of flexible design can be verified. For each alternative solution in the sample, the indicators for the different potential principles of flexible design as well as the flexibility provided by the design are calculated. Testing is done to determine if there is a significant correlation between the potential principles of flexible design and the measured flexibility using a chi-square-test and F-test. Two principles are verified with a high degree of confidence, 'platform design' and `flexible elements'. The `platform design' principle provides high flexibility, in which urban drainage system elements with high change costs are designed robustly with huge tolerance margins, whereas elements with low change costs are designed with flexibility options. The 'flexible elements' principle aims to include as many component elements as possible, which provides high individual flexibility in the design of the urban drainage system. These design principles and associated static indicators enable a quick screening of huge number alternative solutions and provide guidance for the development and optimization of flexible urban drainage system. Within the framework for optimization of flexibility, the design principles can help identify the most promising alternative solutions for the design of urban drainage systems. The optimization framework includes the following steps: identification of the required flexibility, generation of alternative solutions for the design of urban drainage systems, screening of the most promising alternative solutions, detailed measurement of flexibility provided by the alternative solutions; and selection of optimal solution. Hence out of a sample of different design approaches, the solutions with the highest flexibility could be identified. The successful application of flexible design in three case studies illustrates that the concept provides a suitable strategy for dealing with the challenges associated with future uncertainties. For urban drainage systems, flexible design guarantees high levels of performance in uncertain future states while reducing the effort required to adapt the system to changing future conditions. This study contends that flexibility allows for profound decision making for urban drainage design despite future uncertainties.

adaptation

flexibility options

robustness

stormwater management

sustainable urban drainage systems

American Studies

Arts and Humanities

Civil Engineering

Environmental Engineering

Planejamento urbano sustentável: diretrizes de urbanização embasadas nas características geomorfológicas/pedológicas de vertentes

Barbosa, Camila [UNESP]

05 October 2010

Made available in DSpace on 2014-06-11T19:27:49Z (GMT). No. of bitstreams: 0 Previous issue date: 2010-10-05Bitstream added on 2014-06-13T20:17:14Z : No. of bitstreams: 1 barbosa_c_me_rcla.pdf: 1307938 bytes, checksum: a167df37db7781a3ae4feb27906a971b (MD5) / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) / A impermeabilização das áreas urbanas repercute na capacidade de infiltração das águas no solo, favorecendo o escoamento superficial, a concentração de enxurradas e a ocorrência de cheias, interfere no arranjo dos armazenamentos e das trajetórias das águas. Tais alterações, no sistema hidrológico natural, desencadeiam problemas ambientais como: aumento da cota das enchentes e erosões. Os problemas ambientais reforçam as desigualdades sociais, uma vez que, o acesso ao ambiente seguro e saudável é desigual e a população de baixa renda ocupa as áreas de maior fragilidade: encostas íngremes e fundos de vales. O reconhecimento das características hidrogeomorfológicas naturais, mediante a análise geomorfológica, pode fundamentar uma proposta de ocupação que favoreça a manutenção da infiltração e consequente diminuição do escoamento superficial. Dentro da análise geomorfológica destaca-se a vertente, unidade hidrogeomorfológica e elemento dominante do relevo, onde materializam-se as relações das forças produtivas e as transformações que compõem a paisagem. O presente trabalho tem por objetivo estabelecer diretrizes para um planejamento urbano em conformidade com as características naturais de infiltração e escoamento, inter-relacionando planejamento urbano e análise ambiental. Para tanto, toma-se a vertente (latu sensu) como unidade espacial de análise. Considera-se que o Estado, através do planejamento urbano e mediante a análise ambiental, possa regular a organização espacial da sociedade a favor do bem estar e segurança coletivos, contribuindo para que a cidade se desenvolva de maneira sustentável e evitando que as regras de uso do solo urbano sejam condicionadas pela obtenção de lucro / The impermeabilization of urban areas prevents the water infiltration, supports the runoff and flood concentration and interferes on its storages and trajectories. Such changes in the hydrological system increase the floods and erosion levels. These urban environmental problems reinforce the social inequalities, since the access to safe and healthy environment is uneven, low-income population occupies the areas of greatest fragility, such as steep slopes and valley bottoms. The recognition of natural hydrogeomorphological features may support an occupation proposal that facilitates the infiltration, decreasing the rainwater volume and time transfer in urban areas. In the geomorphological analysis, the slope, the hydrogeomorphological unit and the prevailing landform element are emphasized. The slope materializes the productive forces relations and transformations that compose the landscape. Therefore, this study aims to establish guidelines for urban planning in accordance with the natural characteristics of infiltration and drainage slope (latu sensu), linking urban planning and environmental analysis. It is considered that the Government should determine the spatial organization for the prosperity of the society and collective security, contributing for the development of the city in a sustainable way, preventing that the urban land rules are determined by profit

Geografia física - Aspectos ambientais

Drenagem

Planejamento urbano

Análise geomorfológica

Drenagem urbana sustentável

Urban planning

Geomorphological analysis

Sustainable urban drainage