A Review of Sustainable Urban Drainage Systems Considering the Climate Change and Urbanization Impacts

Zhou, Qianqian

doi:10.3390/w6040976

Cited by 371 publications

(267 citation statements)

References 84 publications

(131 reference statements)

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“…The negative sign in the coefficients indicates that flow in a lesser depth or higher ground will be less than on a steeper or lower ground. The reason as noted by Zhou (2014) is because the motion between successive water layers is accumulated upward from the bed and outward from the banks. The Chenzy equation confirms this when it states in words that "mean velocity varies directly as the square-root of the slope..."…”

Section: Interpretation Of Results and Discussion Of Findingsmentioning

confidence: 99%

A Hydrophysical Analysis of Urban Surface Runoff, Channel Characteristics, and the Incidence of Flood and Erosion Over the Calabar Drainage Area, Nigeria.

Ugbong¹,

Budagov²

2016

J. Ecol. Eng.

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Hydro-physical processes operating in the Calabar drainage area were analyzed by estimating the volume of surface runoff carried in each basin and sub-basin, using field measurements of flow velocities in conjunction with the "Rational Method" mathematical model proposed by civil and environmental engineers. It was found that run-off flow is affected by at least three factors which either produce floods or erosion conditions. The factors include size of catchment areas, gradient and lengths of flow channels. The Multiple Regression statistic was used to test these relationships. The results showed a strong statistical correlation among these variables, as well as between these variables and flow characteristics. It was found that for all the basins, runoff volume increased with increasing surface area of the catchment; just as areas with lower elevations register higher flow volume accompanied by flooding; with a reversed condition in higher ground where higher velocities are found with resultant erosion conditions. Also channels with considerable lengths receive higher flows along their courses downstream, and thus produce floods. It was therefore, recommended that in addition to the six major drainage channels recommended for the area, each channel and each segment of a channel should be determined by its gradient, drainage area, length of flow channel.

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Section: Interpretation Of Results and Discussion Of Findingsmentioning

confidence: 99%

A Hydrophysical Analysis of Urban Surface Runoff, Channel Characteristics, and the Incidence of Flood and Erosion Over the Calabar Drainage Area, Nigeria.

Ugbong¹,

Budagov²

2016

J. Ecol. Eng.

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“…Critérios de sustentabilidade da drenagem urbana englobam um novo paradigma, envolvendo várias áreas da engenharia e de ciên-cias urbanas a fim de se considerar a complexidade do meio urbano e suas interações e soluções (ZHOU, 2014).…”

Section: Introductionunclassified

Poluição difusa nas águas pluviais de uma bacia de drenagem urbana

Righetto

Gomes

Freitas

2017

Eng. Sanit. Ambient.

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Professor titular aposentado da Universidade Federal do Rio Grande do Norte (UFRN) -Natal (RN), Brasil. Professor associado (aposentado) da Universidade de São Paulo (USP) -São Carlos (SP), Brasil. Professor colaborador do Programa de Pós-graduação em Engenharia Sanitária da UFRN. 2Mestre em Engenharia Sanitária pela UFRN. Consultora em Engenharia Ambiental. Programa de Pós-graduação em Engenharia Sanitária da UFRN -Natal (RN), Brasil.

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“…Instead of focusing on 'end-of-pipe' or 'at the point of the problem' solutions as is the case with many purely 'grey' infrastructure solutions, sustainable urban drainage systems aim to slow down and reduce the quantity of surface water runoff in an area in order to minimize downstream flood risk and reduce the risk of resultant diffuse pollution to urban water bodies (Rose and Lamond 2013;Woods Ballard et al 2015;Zhou 2014). As a nature-based solution, SUDS achieves these aims by utilizing a mix of natural processes 3 and green/grey components 4 to harvest, infiltrate, slow, store, convey and treat runoff onsite; examples include the following (from Woods ):…”

Section: Using Green Alongside Grey As An Alternative Approach To Flomentioning

confidence: 99%

“…However, these drainage infrastructures often no longer have the capacity to keep pace with on-going urbanisation and the increasing rate of storm water due to climate change and soil sealing, and can lead to increased run-off and a higher risk of urban flooding (EEA 2012;PeralesMomparler et al 2016;Zhou 2014). Additional indirect consequences are an insufficient discharge of excess water to the regional water system, and an increase of pollutants in the water caused by run-off (e.g., oil, organic matter and toxic metals), leading to increases in algal blooms, harm to wildlife and reductions in amenity value (Sharma 2008).…”

Section: Introductionmentioning

confidence: 99%

Making the Case for Sustainable Urban Drainage Systems as a Nature-Based Solution to Urban Flooding

Davis

Naumann

2017

Theory and Practice of Urban Sustainability Transitions

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European cities continue to experience a steady increase in the intensity and frequency of floods, largely due to high urban densities and resultant soil sealing. In the last decade, flooding as a natural hazard has produced the highest economic losses in Europe and storm water management has become a serious urban challenge.The traditional solution to cope with excess rainwater in western cities has been piped drainage systems. These are mainly single-objective oriented designs that often no longer have the capacity to keep pace with on-going urbanisation and the impacts of climate change, and frequently involve high construction, maintenance, and repair costs. While such approaches have certainly reduced the damages incurred from flooding events during the past two centuries and are arguably still necessary for extreme flood events in the future, alternative approaches that accomplish these aims and offer additional benefits are progressively being pursued. Given these conditions, one increasingly utilised solution for managing flood risk by dealing with water at the source is sustainable urban drainage systems (SUDS). Other terms which also aim to minimise potential impacts on the neighbouring environment, people and development include inter alia BMP (Best Management Practices); LID (Low Impact Development); WSUD (Water Sensitive Urban Design) (see: Fletcher et al., Urban Water J 12 (7):525-542, 2015 for a complete taxonomy).SUDS as a promising nature-based solution are the focus of this chapter, utilizing a range of case studies and evidence from across Europe to underline the arguments presented. Besides reducing the negative effects of urban flooding and interlinked water pollution, the many supplementary benefits and potential cost-effectiveness of SUDS as compared to grey infrastructure solutions are also presented. In addition to highlighting relative advantages, the chapter also outlines current challenges facing a wider uptake of SUDS and presents approaches to help overcome existing social and political barriers.The promise of ongoing research, targeted collaboration and partnerships and an ever-growing evidence base on the effectiveness and associated costs and benefits of SUDS serve as strong tools to improve the confidence and competence associated

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A Review of Sustainable Urban Drainage Systems Considering the Climate Change and Urbanization Impacts

Cited by 371 publications

References 84 publications

A Hydrophysical Analysis of Urban Surface Runoff, Channel Characteristics, and the Incidence of Flood and Erosion Over the Calabar Drainage Area, Nigeria.

A Hydrophysical Analysis of Urban Surface Runoff, Channel Characteristics, and the Incidence of Flood and Erosion Over the Calabar Drainage Area, Nigeria.

Poluição difusa nas águas pluviais de uma bacia de drenagem urbana

Making the Case for Sustainable Urban Drainage Systems as a Nature-Based Solution to Urban Flooding

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