Data analysis of rainfall event characteristics and derivation of flood frequency distribution equations for urban stormwater management purposes

Hassini, Sonia

January 2018

further development of the simple and promising analytical probabilistic approach / Urban stormwater management aims at mitigating the adverse impacts of urbanization. Hydrological models are used in support of stormwater management planning and design. There are three main approaches that can be applied for this modeling purpose: (1) continuous simulation approach which is accurate but time-consuming; (2) design storm approach, which is widely used and its accuracy highly depends on the selected antecedent moisture conditions and temporal distribution of design storms; and (3) the analytical probabilistic approach which is recently developed and still not used in practice. Although it is time-effective and it can produce results as accurate as the other two approaches; the analytical probabilistic approach requires further developments in order to make it more reliable and accurate. For this purpose, three subtopics are investigated in this thesis. (1) Rainfall data analysis as required by the analytical probabilistic approach with emphasis on testing the exponentiality of rainfall event duration, volume and interevent time (i.e., time separating it from its preceding rainfall event). A goodness-of-fit testing procedure that is suitable for this kind of data analysis was proposed. (2) Derivation of new analytical probabilistic models for peak discharge rate incorporating trapezoidal and triangular hydrograph shapes in order to include all possible catchment’s responses. And (3) the infiltration process is assumed to continue until the end of the rainfall event; however, the soil may get saturated earlier and the excess amount would contribute to the runoff volume which may have adverse impact if not taken into consideration. Thus, in addition to the infiltration process, the saturation excess runoff is also included and new models for flood frequencies are developed. All the models developed in this thesis are tested and compared to methods used in practice, reasonable results were obtained. / Thesis / Doctor of Philosophy (PhD) / Urban stormwater management aims at mitigating the adverse impacts of urbanization. Hydrological models are used in support of stormwater management planning and design. The analytical probabilistic stormwater management model (APSWM) is a promising tool for planning and design analysis. The purpose of this thesis is to further develop APSWM in order to make it more reliable and accurate. First, a clear procedure for rainfall data analysis as required by APSWM is provided. Second, a new APSWM is derived incorporating other runoff temporal-distribution patterns. Finally, the possibility of soil layer saturation while it is still raining is added to the model. All the models developed in this thesis are tested and compared to methods used in engineering practice, reasonable results were obtained.

rainfall data analysis

flood frequency

analytical models

probabilistic models

stormwater management

goodness of fit

rainfall events

hydrograph shapes

Poisson test

saturation-excess runoff

infiltration-excess runoff

hydrological models

design storm approach

event-based approach

Water Fluxes in Soil-Pavement Systems: Integrating Trees, Soils and Infrastructure

de la Mota Daniel, Francisco Javier

31 January 2019

In urban areas, trees are often planted in bare soil sidewalk openings (tree pits) which recently are being covered with permeable pavements. Pavements are known to alter soil moisture and temperature, and may have implications for tree growth, root development and depth, drought resilience, and sidewalk lifting. Furthermore, tree pits are often the only unsealed soil surface and are important for water exchange between soil and atmosphere. Therefore, covering tree pits with pavement, even permeable, may have implications for the urban water balance and stormwater management. A better understanding of permeable pavement on tree pavement soil system functioning can inform improved tree pit and street design for greater sustainability of urban environments. We conducted experiments at two sites in Virginia, USA (Mountains and Coastal Plain) with different climate and soil. At each location, we constructed 24 tree pits in a completely randomized experiment with two factors: paved with resin-bound porous-permeable pavement versus unpaved, and planted with Platanus x acerifolia 'Bloodgood' versus unplanted (n = 6). We measured tree stem diameter, root growth and depth, and soil water content and temperature over two growing seasons. We also monitored tree sap flow one week in June 2017 at the Mountains. In addition, we calibrated and validated a soil water flow model, HYDRUS-1D, to predict soil water distribution for different rooting depths, soil textures and pavement thicknesses. Trees in paved tree pits grew larger, with stem diameters 29% (Mountains) and 51% (Coastal Plain) greater. Roots developed faster under pavement, possibly due to the increased soil water content and the extended root growing season (14 more days). Tree transpiration was 33% of unpaved and planted pit water outputs, while it was 64% for paved and planted pits. In June 2016, planted pits had decreased root-zone water storage, while unplanted pits showed increased storage. A water balance of the entire experimental site showed overall decreased soil water storage due to tree water extraction becoming the dominant factor. HYDRUS-1D provided overall best results for model validation at 10 cm depth from soil surface (NSE = 0.447 for planted and paved tree pits), compared to 30- and 60 cm depths. HYDRUS-1D simulations with greater pavement thickness resulted in changes in predicted soil water content at the Coastal Plain, with higher values at 10- and 30-cm depths, but lower values at 60-cm depth. At the Mountains, virtually no difference was observed, possibly due to different soil texture (sandy vs clayey). Tree pits with permeable pavement accelerated tree establishment, but promoted shallower roots, possibly increasing root-pavement conflicts and tree drought susceptibility. Paved tree pits resulted in larger trees, increasing tree transpiration, but reduced soil evaporation compared to unpaved pits. Larger bare soil pits surrounded by permeable pavement might yield the best results to improve urban stormwater retention. Also, HYDRUS 1D was successful at simulating soil water content at 10-cm depth and may be valuable to inform streetscape design and planning. / PHD / Trees in cities are often planted in pavement cutouts (tree pits) that are usually the only available area for water exchange between soil and atmosphere. Tree pits are typically covered with a variety of materials, including permeable pavement. Pavements are known to modify soil water distribution and temperature, affecting tree growth, rooting depth, drought resilience, and sidewalk lifting. A better understanding of this system can inform tree pit and street design for greater sustainability. We constructed 24 tree pits at each of two regions in Virginia, USA (Mountains and Coastal Plain). These tree pits were paved with permeable pavement or unpaved, and planted with London Plane or unplanted. We measured stem diameter, root growth, and soil water content and temperature over two years and tree sap flow for one week in summer (Mountains only). We also used a soil water flow model, HYDRUS-1D, to predict water distribution for different rooting depths, soil textures and pavement thicknesses. After the first growing season trees in pavement were larger, with stem diameters 29% (Mountains) and 51% (Coastal Plain) greater. Roots developed faster under pavement, possibly due to increased soil water content and a 14-day increase in root growing season. Also, in June 2017, tree transpiration was 33% of unpaved-and-planted pit water outputs, and 64% of paved-and-planted pits. In June 2016, root-zone water storage decreased in planted pits but increased in unplanted pits. When considering the entire experimental site, soil water storage decreased, with tree water extraction being the dominant factor. HYDRUS-1D performed better at 10-cm soil depth than at 30- and 60-cm depths. At the Coastal Plain, HYDRUS-1D predicted higher soil water content at 10- and 30-cm depths with increased pavement thickness, but lower values at 60-cm depth. At the Mountains, there was no effect, possibly due to higher clay content. Permeable pavement accelerated tree establishment, but promoted shallower roots, increasing drought susceptibility and risk for root-pavement conflicts. Pavement resulted in larger trees and greater transpiration, but reduced soil evaporation. Larger bare-soil pits surrounded by permeable pavement might optimize stormwater retention.

Platanus x acerifolia

street tree

tree roots

porous pavement

resin-bound gravel

soil temperature

soil water

tree transpiration

sap flow

SuDS

stormwater management

green infrastructure

tree pits

planted streetscapes

HYDRUS

Réduction du ruissellement par l’augmentation de surfaces perméables : évaluation de 2 scénarios d’aménagement d’un ensemble résidentiel à Laval

Fernet, Catherine

07 1900

L’implantation répandue de nouveaux quartiers résidentiels sur le territoire de la périphérie urbaine est en partie responsable de la baisse du couvert végétal et de l’augmentation des surfaces imperméables à grande échelle. Les villes sont maintenant aux prises avec une augmentation constante de la production de ruissellement qu'elles doivent gérer au moyen d’un vaste réseau d’égouts et de canalisations. Des données sur les impacts de ces modèles de quartier résidentiel nous révèlent que cette forme d’habitat provoque la dégradation des milieux naturels et aquatiques. La présente étude vise à mettre à l’épreuve la stratégie d’aménagement de l’Open space design en comparant l’effet de trois situations d’aménagement d’ensembles résidentiels sur le coefficient de ruissellement pondéré (Cp). Les trois situations étudiées sont 1 : le développement actuel tel que conçu par le promoteur, 2 : un scénario de quartier visant la préservation des cours d’eau existants ainsi qu’une réduction des lots et des surfaces imperméables et 3 : un quartier avec des types d’habitation plus denses. Les coefficients pondérés obtenus sont respectivement de 0,50 pour le quartier actuel, de 0,40 pour le scénario 1 et de 0,34 pour le scénario 2. Au terme de cet exercice, il apparaît, d’une part, que la densification du bâti, la nature des surfaces et l’organisation spatiale peuvent concourir à diminuer la production de ruissellement d’un quartier. Cette étude permet de situer l’importance de la gestion du ruissellement dans la planification et l’aménagement du territoire. / The widespread introduction of new residential developments in the urban periphery is partly responsible for declining vegetation cover and a large scale increase in impervious surfaces. Cities are now grappling with a constant increase in runoff, which they have to manage through a vast network of sewers and drains. Data on the impacts of current residential models reveal that this form of development causes the degradation of natural and aquatic environments. The present study aims to test Open space design strategy by comparing the effect of three development situations on the weighted runoff coefficient (Cw). The three situations are 1: the actual development as conceived by the project’s promoter; 2: development aimed at preserving existing streams, reducing lot sizes and impervious surfaces; and 3: a higher-density cluster development plan. The weighted coefficients obtained are 0.50 for scenario 1, 0.40 for scenario 2 and 0.34 for scenario 3. As a result, it appears that the density of the structures, the nature of the surfaces and the spatial organization can all contribute to reducing the runoff in a given area. This study underlines the importance of runoff management in planning and land use.

Gestion intégrée du ruissellement

Planification urbaine

Quartier vert

Scénario d’aménagement

Green neighborhood

Integrated management of runoff

Low-impact residential planning

Open space residential design (OSRD)

Sustainable neighbourhood

Urban planning

Transfert de masse en milieux poreux : modélisation, analyse de sensibilité et estimation de paramètres appliquées à deux études de cas / Mass transfer in porous media : modelling, sensitivity analysis and parameter estimation applied to two remediation facilities

Moezzibadi, Mohammad

28 September 2018

Des analyses de sensibilité et des estimations de paramètres sont étudiées sur deux études de cas de transfert de masse en milieu poreux. La première partie est consacrée à la sensibilité des écoulements souterrains dans une modélisation des échanges drain-aquifère pour mettre en évidence les différences entre les deux méthodes de discrétisation mises en œuvre. La seconde partie est dédiée à la modélisation de l’écoulement en milieu poreux variablement saturé dans une zone humide artificielle, au calage des paramètres du modèle de van Genuchten-Mualem et à l’évaluation de son efficacité à reproduire des données piézométriques collectées sur le site de l’Ostwaldergraben. La variabilité temporelle des paramètres hydrodynamiques, incluant l’effet d’hystérésis, montre que ceux de la couche active du filtre changent au cours du temps. Ces deux études sont conduites à l’aide de la différenciation automatique. / Sensitivity analyses and parameter estimation are applied to mass transfer in porous media for two remediation facilities. The first part is devoted to the sensitivity analysis of groundwater flows in a modeling of drain-aquifer exchanges to highlight the differences between the two implemented methods of discretization. The second part is dedicated to the modeling of the flow in a variably saturated porous medium in a stormwater constructed wetland, to the calibration of van Genuchten-Mualem parameters and to the evaluation of its efficiency in the reproduction of piezometric data collected on the Ostwaldergraben site. The temporal variability of the hydrodynamic parameters, including the hysteresis effect, shows that the characteristics of the filter layer alters along time. Both studies are carried using automatic differentiation.

Échanges nappe-rivière

Zones humides artificielles

Modèle de van Genuchten-Mualem

Effet d’hystérésis

Différentiation automatique

Analyse de sensibilité

Méthode inverse

River-aquifer exchanges

Stormwater constructed wetland

Van Genuchten-Mualem model

Hysteresis effect

Mixed hybrid finite element method

Automatic differentiation

Sensitivity analysis

Inverse method

532.5

620

Investigating Rainwater Harvesting as a Stormwater Best Management Practice and as a Function of Irrigation Water Use

Shannak, Sa'D Abdel-Halim

2010 December 1900

Stormwater runoff has negative impacts on water resources, human health and environment. In this research the effectiveness of Rain Water Harvesting (RWH) systems is examined as a stormwater Best Management Practice (BMP). Time-based, evapotranspiration-based, and soil moisture-based irrigation scheduling methods in conjunction with RWH and a control site without RWH were simulated to determine the effect of RWH as a BMP on a single-family residence scale. The effects of each irrigation scheduling method on minimizing water runoff leaving the plots and potable water input for irrigation were compared. The scenario that reflects urban development was simulated and compared to other RWH-irrigation scheduling systems by a control treatment without a RWH component. Four soil types (sand, sandy loam, loamy sand, silty clay) and four cistern sizes (208L, 416L, 624L, 833L) were evaluated in the urban development scenario. To achieve the purpose of this study; a model was developed to simulate daily water balance for the three treatments. Irrigation volumes and water runoff were compared for four soil types and four cistern sizes. Comparisons between total volumes of water runoff were estimated by utilizing different soil types, while comparisons between total potable water used for irrigation were estimated by utilizing different irrigation scheduling methods. This research showed that both Curve Number method and Mass-Balance method resulted in the greatest volumes of water runoff predicted for Silty Clay soil and the least volumes of water runoff predicted for Sand soil. Moreover, increasing cistern sizes resulted in reducing total water runoff and potable water used for irrigation, although not at a statistically significant level. Control treatment that does not utilize a cistern had the greatest volumes of predicted supplemental water among all soil types utilized, while Soil Moisture-based treatment on average had the least volume of predicted supplemental water.

Rainwater harvesting

Best Management Practices

Cistern

Irrigation

Soil type

Zoysia grass

Landscape

Stormwater

Runoff

Depletion

Irrigation Scheduling

Potable water

Supplemental water

Flood control

Urbanization

Curve Number

Mass Balance

Model

Effectiveness

Soil Moisture, Evapotranspiration

Time

Rainfall

Soil depth

Cistern size

Turfgrass

Simulation

Impact of Climate Change on the Storm Water System in Al Hillah City-Iraq

Al Janabi, Firas

21 January 2015

The impact of climate change is increasingly important to the design of urban water infrastructure like stormwater systems, sewage systems and drinking water systems. Growing evidence indicates that the water sector will not only be affected by climate change, but it will reflect and deliver many of its impacts through floods, droughts, or extreme rainfall events. Water resources will change in both quantity and quality, and the infrastructure of stormwater and wastewater facilities may face greater risk of damage caused by storms, floods and droughts. The effect of the climate change will put more difficulties on operations to disrupted services and increased cost of the water and wastewater services. Governments, urban planners, and water managers should therefore re-examine development processes for municipal water and wastewater services and are adapt strategies to incorporate climate change into infrastructure design, capital investment projects, service provision planning, and operation and maintenance. According to the Intergovernmental Panel on Climate Change, the global mean temperature has increased by 0,7 °C during the last 100 years and, as a consequence, the hydrological cycle has intensified with, for example, more acute rainfall events. As urban drainage systems have been developed over a long period of time and design criteria are based upon climatic characteristics, these changes will affect the systems and the city accordingly. The overall objective of this thesis is to increase the knowledge about the climate change impacts on the stormwater system in Al Hillah city/Iraq. In more detail, the objective is to investigate how climate change could affect urban drainage systems specifically stormwater infrastructure, and also to suggest an adaptation plan for these changes using adaptation plans examples from international case studies. Three stochastic weather generators have been investigated in order to understand the climate and climate change in Al Hillah. The stochastic weather generators have been used in different kind of researches and studies; for example in hydrology, floods management, urban water design and analysis, and environmental protection. To make such studies efficient, it is important to have long data records (typically daily data) so the weather generator can generate synthetic daily weather data based on a sound statistical background. Some weather generators can produce the climate change scenarios for different kind of global climate models. They can be used also to produce synthetic data for a site that does not have enough data by using interpolation methods. To ensure that the weather generator is fitting the climate of the region properly, it should be tested against observed data, whether the synthetic data are sufficiently similar. At the same time, the accuracy of the weather generator is different from region to region and depends on the respective climate properties. Testing three weather generators GEM6, ClimGen and LARS-WG at eight climate stations in the region of Babylon governorate/Iraq, where Al Hillah is located, is one of the purposes of the first part of this study. LARS-WG uses a semi-parametric distribution (developed distribution), whereas GEM6 and ClimGen use a parametric distribution (less complicated distribution). Different statistical tests have been selected to compare observed and synthetic weather data for the same kind, for instance, the precipitation and temperature distribution (wet and dry season). The result shows that LARS-WG represents the observed data for Babylon region in a better way than ClimGen, whereas GEM6 seems to misfit the observed data. The synthetic data will be used for a first simulation of urban run-off during the wet season and the consequences of climate change for the design and re-design of the urban drainage system in Al Hillah. The stochastic weather generator LARS is then used to generate ensembles of future weather data using five Global Climate Models (GCMs) that best captured the full range of uncertainty. These Global Climate Models are used to construct future climate scenarios of temperature and precipitation over the region of Babylon Governorate in Iraq. The results show an increase in monthly temperatures and a decrease in the total amount of rain, yet the extreme rain events will be more intense in a shorter time. Changes in the amount, timing, and intensity of rain events can affect the amount of stormwater runoff that needs to be controlled. The climate change calculated projections may make existing stormwater-related flooding worse. Different districts in Al Hillah city may face more frequent stormwater floods than before due to the climate change projections. All the results that have been taken from the Global Climate Models are in a daily resolution format and in order to run the Storm Water Management Model it is important to have all data in a minimum of one hour resolution. In order to fulfill this condition a disaggregation model has been used. Some hourly precipitation data were required to calibrate the temporal disaggregation model; however none of the climate stations and rain gauges in the area of interest have hourly resolution data, so the hourly data from Baghdad airport station have been used for that calibration. The changes in the flood return periods have been seen in the projected climate change results, and a return period will only remain valid over time if environmental conditions do not change. This means that return periods used for planning purposes may need to be updated more often than previously, because values calculated based on the past 30 years of data may become unrepresentative within a relatively short time span. While return periods provide useful guidance for planning the effects of flooding and related impacts, they need to be used with care, and allowances have to be made for extremes that may occur more often than may be expected. In the study area with separated stormwater systems, the Storm Water Management Model simulation shows that the number of surface floods as well as of the floods increases in the future time periods 2050s and 2080s. Future precipitation will also increase both the flooding frequency and the duration of floods; therefore the need to handle future situations in urban drainage systems and to have a well-planned strategy to cope with future conditions is evident. The overall impacts on urban drainage systems due to the increase of intensive precipitation events need to be adapted. For that reason, recommendations for climate change adaptation in the city of Al Hillah have been suggested. This has been accomplished by merging information from the review of five study cases, selected based on the amount and quality of information available. The cities reviewed are Seattle (USA), Odense (Denmark), Tehran (Iran), and Khulna (Bangladesh). / Die Auswirkungen des Klimawandels auf die Gestaltung der städtischen Wasserinfrastruktur wie Regenwasser, Kanalisation und Trinkwassersysteme werden immer wichtiger. Eine wachsende Anzahl von Belegen zeigt, dass der Wassersektor nicht nur durch den Klimawandel beeinflusst werden wird, aber er wird zu reflektieren und liefern viele seiner Auswirkungen durch Überschwemmungen, Dürren oder extreme Niederschlagsereignisse. Die Wasserressourcen werden sich in Quantität und Qualität verändern, und die Infrastruktur von Regen-und Abwasseranlagen kann einer größeren Gefahr von Schäden durch Stürme, Überschwemmungen und Dürren ausgesetzt sein. Die Auswirkungen des Klimawandels werden zu mehr Schwierigkeiten im Betrieb gestörter Dienstleistungen und zu erhöhten Kosten für Wasser-und Abwasserdienstleistungen führen. Regierungen, Stadtplaner, und Wasser-Manager sollten daher die Entwicklungsprozesse für kommunale Wasser-und Abwasserdienstleistungen erneut überprüfen und Strategien anpassen, um den Klimawandel in Infrastruktur-Design, Investitionsprojekte, Planung von Leistungserbringung, sowie Betrieb und Wartung einzuarbeiten. Nach Angaben des Intergovernmental Panel on Climate Change hat die globale Mitteltemperatur in den letzten 100 Jahren um 0,7 °C zugenommen, und in der Folge hat sich der hydrologische Zyklus intensiviert mit, zum Beispiel, stärkeren Niederschlagsereignisse. Da die städtischen Entwässerungssysteme über einen langen Zeitraum entwickelt wurden und Design-Kriterien auf klimatischen Eigenschaften beruhen, werden diese Veränderungen die Systeme und die Stadt entsprechend beeinflussen. Das übergeordnete Ziel dieser Arbeit ist es, das Wissen über die Auswirkungen des Klimawandels auf das Regenwasser-System in der Stadt Hilla / Irak zu bereichern. Im Detail ist das Ziel, zu untersuchen, wie der Klimawandel die Siedlungsentwässerung und insbesondere die Regenwasser-Infrastruktur betreffen könnte. Desweiteren soll ein Anpassungsplan für diese Änderungen auf der Grundlage von beispielhaften Anpassungsplänen aus internationalen Fallstudienvorgeschlagen werden. Drei stochastische Wettergeneratoren wurden untersucht, um das Klima und den Klimawandel in Hilla zu verstehen. Stochastische Wettergeneratoren wurden in verschiedenen Untersuchungen und Studien zum Beispiel in der Hydrologie sowie im Hochwasser-Management, Siedlungswasser-Design- und Analyse, und Umweltschutz eingesetzt. Damit solche Studien effizient sind, ist es wichtig, lange Datensätze (in der Regel Tageswerte) haben, so dass der Wettergenerator synthetische tägliche Wetterdaten erzeugen kann, dieauf einem soliden statistischen Hintergrund basieren. Einige Wettergeneratoren können Klimaszenarien für verschiedene Arten von globalen Klimamodellen erzeugen. Sie können unter Verwendung von Interpolationsverfahren auch synthetische Daten für einen Standort generieren, für den nicht genügend Daten vorliegen. Um sicherzustellen, dass der Wettergenerator dem Klima der Region optimal entspricht, sollte gegen die beobachteten Daten geprüft werden, ob die synthetischen Daten ausreichend ähnlich sind. Gleichzeitig unterscheidet sich die Genauigkeit des Wettergenerator von Region zu Region und abhängig von den jeweiligen Klimaeigenschaften. Der Zweck des ersten Teils dieser Studie ist es daher, drei Wettergeneratoren, namentlich GEM6, ClimGen und LARS-WG, an acht Klimastationen in der Region des Gouvernements Babylon / Irak zu testen. LARS-WG verwendet eine semi-parametrische Verteilung (entwickelte Verteilung), wohingegen GEM6 und ClimGen eine parametrische Verteilung (weniger komplizierte Verteilung) verwenden. Verschiedene statistische Tests wurden ausgewählt, um die beobachteten und synthetischen Wetterdaten für identische Parameter zu vergleichen, zum Beispiel die Niederschlags- und Temperaturverteilung (Nass-und Trockenzeit). Das Ergebnis zeigt, dass LARS-WG die beobachteten Daten für die Region Babylon akkurater abzeichnet, als ClimGen, wobei GEM6 die beobachteten Daten zu verfehlen scheint. Die synthetischen Daten werden für eine erste Simulation des städtischen Run-offs in der Regenzeit sowie der Folgen des Klimawandels für das Design und Re-Design des städtischen Entwässerungssystems in Hilla verwendet. Der stochastische Wettergenerator LARS wird dann verwendet, um Gruppen zukünftiger Wetterdaten unter Verwendung von fünf globalen Klimamodellen (GCM), die das gesamte Spektrum der Unsicherheit am besten abdecken, zu generieren. Diese globalen Klimamodelle werden verwendet, um zukünftige Klimaszenarien der Temperatur und des Niederschlags für die Region Babylon zu konstruieren. Die Ergebnisse zeigen, eine Steigerung der monatlichen Temperaturen und eine Abnahme der Gesamtmenge der Regen, wobei es jedoch extremere Regenereignissen mit höherer Intensivität in kürzerer Zeit geben wird. Veränderungen der Höhe, des Zeitpunkt und der Intensität der Regenereignisse können die Menge des Abflusses von Regenwasser, die kontrolliert werden muss, beeinflussen. Die Klimawandel-Prognosen können bestehende regenwasserbedingte Überschwemmungen verschlimmern. Verschiedene Bezirke in Hilla können stärker von Regenfluten betroffen werden als bisher aufgrund der Prognosen. Alle Ergebnisse, die von den globalen Klimamodellen übernommen wurden, sind in täglicher Auflösung und um das Regenwasser-Management-Modell anzuwenden, ist es wichtig, dass alle Daten in einer Mindestauflösung von einer Stunde vorliegen. Zur Erfüllung dieser Bedingung wurde ein eine Aufschlüsselungs-Modell verwendet. Einige Stunden-Niederschlagsdaten waren erforderlich, um das zeitliche Aufschlüsselungs-Modell zu kalibrieren. Da weder die Klimastationen noch die Regen-Messgeräte im Interessenbereich über stundenauflösende Daten verfügt, wurden die Stundendaten von Flughäfen in Bagdad verwendet. Die Veränderungen in den Hochwasserrückkehrperioden sind in den projizierten Ergebnissen des Klimawandels ersichtlich, und eine Rückkehrperiode wird nur dann über Zeit gültig bleiben, wenn sich die Umweltbedingungen nicht ändern. Dies bedeutet, dass Wiederkehrperioden, die für Planungszwecke verwendet werden, öfter als bisher aktualisiert werden müssen, da die auf Grundlage von Daten der letzten 30 Jahre berechneten Werte innerhalb einer relativ kurzen Zeitspanneunrepräsentativ werden können. Während Wiederkehrperioden bieten nützliche Hinweise für die Planung die Effekte von Überschwemmungen und die damit verbundenen Auswirkungen, müssen aber mit Vorsicht verwendet werden, und Extreme, die öfter eintreten könnten als erwartet, sollten berücksichtigt werden. Im Studienbereich mit getrennten Regenwassersystemen zeigt die Simulation des Regenwasser-Management-Modells, dass sich die Anzahl der Oberflächenhochwasser sowie der Überschwemmungen im Zeitraum 2050e-2080 erhöhen wird. Zukünftige Niederschläge werdensowohl die Hochwasser-Frequenz als auch die Dauer von Überschwemmungen erhöhen. Daher ist die Notwendigkeit offensichtlich, zukünftige Situationen in städtischen Entwässerungssystemen zu berücksichtigen und eine gut geplante Strategie zu haben, um zukünftige Bedingungen zu bewältigen. Die gesamten Auswirkungen auf die Siedlungsentwässerungssyteme aufgrund der Zunahme von intensiven Niederschlagsereignissen müssen angepasst werden. Aus diesem Grund wurden Empfehlungen für die Anpassung an den Klimawandel in der Stadt Hilla vorgeschlagen. Diese wurden durch die Zusammenführung von Informationen aus der Prüfung von fünf Fallstudien, ausgewählt aufgrund der Menge und Qualität der verfügbaren Informationen, erarbeitet,. Die bewerteten Städte sind Seattle (USA), Odense (Dänemark), Teheran (Iran), und Khulna (Bangladesch).

Klimawandel

Stadtentwässerung

stochastische Wettergeneratoren

globale Klimamodelle

Babylon

Hilla

Modellvergleich

Synthetik

Regenwasser-System

Wiederkehrperiode

Hochwasser in Städten

Anpassungsplan

climate change

urban drainage

stochastic weather generators

global climate model

Babylon

Al Hillah

model comparison

synthetic

stormwater system

return period

urban floods

adaptation plan

ddc:550

rvk:RB 10438

rvk:ZI 6860

rvk:AR 22350

Réduction du ruissellement par l’augmentation de surfaces perméables : évaluation de 2 scénarios d’aménagement d’un ensemble résidentiel à Laval

Fernet, Catherine

07 1900

L’implantation répandue de nouveaux quartiers résidentiels sur le territoire de la périphérie urbaine est en partie responsable de la baisse du couvert végétal et de l’augmentation des surfaces imperméables à grande échelle. Les villes sont maintenant aux prises avec une augmentation constante de la production de ruissellement qu'elles doivent gérer au moyen d’un vaste réseau d’égouts et de canalisations. Des données sur les impacts de ces modèles de quartier résidentiel nous révèlent que cette forme d’habitat provoque la dégradation des milieux naturels et aquatiques. La présente étude vise à mettre à l’épreuve la stratégie d’aménagement de l’Open space design en comparant l’effet de trois situations d’aménagement d’ensembles résidentiels sur le coefficient de ruissellement pondéré (Cp). Les trois situations étudiées sont 1 : le développement actuel tel que conçu par le promoteur, 2 : un scénario de quartier visant la préservation des cours d’eau existants ainsi qu’une réduction des lots et des surfaces imperméables et 3 : un quartier avec des types d’habitation plus denses. Les coefficients pondérés obtenus sont respectivement de 0,50 pour le quartier actuel, de 0,40 pour le scénario 1 et de 0,34 pour le scénario 2. Au terme de cet exercice, il apparaît, d’une part, que la densification du bâti, la nature des surfaces et l’organisation spatiale peuvent concourir à diminuer la production de ruissellement d’un quartier. Cette étude permet de situer l’importance de la gestion du ruissellement dans la planification et l’aménagement du territoire. / The widespread introduction of new residential developments in the urban periphery is partly responsible for declining vegetation cover and a large scale increase in impervious surfaces. Cities are now grappling with a constant increase in runoff, which they have to manage through a vast network of sewers and drains. Data on the impacts of current residential models reveal that this form of development causes the degradation of natural and aquatic environments. The present study aims to test Open space design strategy by comparing the effect of three development situations on the weighted runoff coefficient (Cw). The three situations are 1: the actual development as conceived by the project’s promoter; 2: development aimed at preserving existing streams, reducing lot sizes and impervious surfaces; and 3: a higher-density cluster development plan. The weighted coefficients obtained are 0.50 for scenario 1, 0.40 for scenario 2 and 0.34 for scenario 3. As a result, it appears that the density of the structures, the nature of the surfaces and the spatial organization can all contribute to reducing the runoff in a given area. This study underlines the importance of runoff management in planning and land use.

Gestion intégrée du ruissellement

Planification urbaine

Quartier vert

Scénario d’aménagement

Green neighborhood

Integrated management of runoff

Low-impact residential planning

Open space residential design (OSRD)

Sustainable neighbourhood

Urban planning

Dagvattnets föroreningar som potentiellt hot för en god ekologisk och kemisk status i ytvattnet : En kartläggning av Vallentuna tätorts dagvattenhantering utifrån dess tillsynsbehov

Wimmer, Ulrich

January 2014

The EU's Water Framework Directive aims to a long-term and sustainable use of our water resources and wants to ensure good water quality in Europe's water bodies. Discharge of polluted stormwater into receiving waters can be a threat to their ecological and chemical status. Municipalities are responsible for supervision of the environmental quality standards (EQS) and therefore need to gain knowledge of current stormwater management, the expected level of pollution emissions and possible appropriate purification steps to ensure that the goal of good water quality is achieved. This master thesis aims to provide this knowledge in the example case of Vallentunas urban area and wants to prepare future oversight so that it can be assessed how much the discharge of polluted stormwater into the local receiving water is a threat to its status. With the help of maps, aerial photographs, site observations and individual discussions those areas are mapped where appearance of moderate to highly polluted stormwater could be suspected. The degree of pollution at the discharge points is determined based on land use upstream and uses standard values according to the administrators assistance "Tillsyn av dagvatten" (MSL 2014). The study identifies 100 areas in need of supervision regarding their stormwater management. The information is digitized and made available to all affected departments in the municipality via the internal GIS. Through literature review this thesis highlights even the legal provisions for the supervision and its importance to the environmental quality standards and also consider the importance of the expected climate change for the stormwater pollution. The work emphasizes the importance of increased information flow and communication between the different actors that are significant for surface water management and environmental quality standards for water. For being able to look at the examination area from an international perspective the essay does a simpler comparison of the municipal supervision of stormwater management between Sweden and the state of Schleswig Holstein in Germany. / EU:s ramdirektiv för vatten syftar till ett långsiktigt och hållbart utnyttjande av våra vattenresurser och ska säkra en god vattenkvalitet i Europas vattenförekomster. Utsläpp av förorenat dagvatten till recipienterna kan vara ett hot för deras ekologiska och kemiska status. Kommunerna har tillsynsansvar för miljökvalitetsnormerna (MKN) och därför behov att få kunskap om nuvarande dagvattenhantering, förväntad föroreningsgrad av utsläppen och eventuella lämpliga reningsåtgärder för att säkerställa att målet med en god vattenkvalitet uppnås. Arbetets syfte är att hjälpa till att skaffa denna kunskap i exempelfallet Vallentuna tätort och förbereda framtida tillsyn så att det kan göras en bedömning av hur pass mycket utsläppet av förorenat dagvatten till den lokala recipienten är ett hot för dess status. Med hjälp av kartor, flygbilder, platsobservationer och enskilda samtal kartläggs områden där man kan förvänta sig uppkomsten av måttligt till starkt förorenat dagvatten. Föroreningsgraden vid utsläppspunkterna bestäms utifrån markanvändning uppströms och använder schablonvärden enligt handläggarstödet "Tillsyn av dagvatten" (MSL 2014). Undersökningen pekar ut 100 områden som har behov av tillsyn rörande deras dagvattenhantering. Informationen digitaliseras och görs tillgänglig för alla berörda enheter i kommunen via det interna GIS-systemet. Genom granskning av litteraturen belyses bl.a. även de rättsliga bestämmelserna för tillsynen och dess betydelse för miljökvalitetsnormerna samt att det tas hänsyn till förväntad klimatförändring. Arbetet betonar vikten av ett ökat informationsflöde och kommunikation mellan de olika aktörerna som har betydelse för dagvattenhanteringen och miljökvalitetsnormerna för vatten. För att se på uppsatsens undersökningsområde ur ett internationellt perspektiv görs även en enklare jämförelse av tillsynen för dagvattenhanteringen mellan Sverige och förbundslandet Schleswig Holstein i Tyskland.

environmental quality standards

pollution

municipal supervision

stormwater

Vallentuna lake

water quality

surface water

Water Framework Directive

sustainable use

water resources

purification

EU

storm water management

Vallentuna

dagvatten

föroreningar

kommunal tillsyn

miljökvalitetsnormer för vatten

Vallentunasjön

vattenkvalitet

ramdirektivet för vatten

ytvatten

vattendirektivet

hållbart utnyttjande

vattenresurser

dagvattenhantering

utsläpp

EU

Vallentuna

Implementing Green Roofs on Movie Theaters and Shopping Centers: Business Cases in Profitable Sustainability

Miller, Ryan J

01 January 2014

This thesis presents the business case for installing green roofs on movie theaters and shopping centers. These businesses can then derive increased profits from the environmental benefits of reduced energy use and increased stormwater retention. After presenting the basic design and benefits of a green roof, the thesis develops stand-alone business plans for a movie theater and shopping center. The author finds that green roofs are a profitable sustainability solution for the commercial enterprise.

economics

business plan

environmental

energy

stormwater

consumer

Agribusiness

Agricultural Economics

Agricultural Science

Bioresource and Agricultural Engineering

Civil Engineering

Construction Engineering and Management

Environmental Engineering

Marketing

Operations and Supply Chain Management

Other Business

Other Economics

Other Plant Sciences

Plant Breeding and Genetics

Real Estate

Strategic Management Policy

Structural Engineering

Technology and Innovation

Urban Studies and Planning

An?lise da salubridade do meio urbano com base na utiliza??o de ?ndices ambientais: aplica??o na bacia de drenagem XII da cidade do Natal-RN

Figueiredo, Lucia Mara

04 November 2011

Made available in DSpace on 2014-12-17T15:03:28Z (GMT). No. of bitstreams: 1 LuciaMF_DISSERT.pdf: 4358555 bytes, checksum: 1a9d061dffe256178596d20701eec009 (MD5) Previous issue date: 2011-11-04 / The growing accumulation of people in urban centers caused chronic problems of the cities to begin to take an increasingly unsustainable. Primarily related to lack of infrastructure coupled with sanitation and lack of investment in critical sectors such as health, education, housing and transportation, these problems start to deteriorate markedly the quality of life of city dwellers and put into test management policies of the spaces urbanized. To reverse this situation, shows is essential to the use of tools (highlighting this harvest rates and environmental indicators) that help in assessing the current conditions and may assist in predicting future scenarios. From the information listed above, now put the research seeks to present an index called ISBA Environmental (Sanitation Index) which looks at the four urban systems (water, sewer, solid waste and urban drainage) from the viewpoint of application in a geographical cutout specific - in this case the Drainage Basin XII, defined by the Plan of Urban Drainage Stormwater in the city of Natal, capital of Rio Grande do Norte. This index, together with analysis of other factors sought to trace the current conditions of the basin and thus, assist in proposing the best solutions. For the preparation of the index was applied a questionnaire with a sample of 384 (three hundred eighty-four) households that aimed to study two variables: access to services and satisfaction of the population in relation to these. The ISBA has shown that the system is the most deficient collection and disposal of effluents (ICE = 47.66%), followed by the drainage of rainwater (IDAP = 54.17%), water supply (AAI = 61, 36) and solid waste collection (IRS = 78.28). With the ISBA was possible to verify that the qualitative data shows whose subjectivity is evident (as is the case of user satisfaction) can be of great importance when an assessment, since we obtained the correlation coefficient between the variables "Access" and " Satisfaction "equal to 0.8234, showing a strong correlation between the existence / quality of service offered and the impressions of the population that receives them / O crescente ac?mulo de pessoas nos centros urbanos fez com que problemas cr?nicos das cidades passassem a tomar propor??es cada vez mais insustent?veis. Relacionados principalmente a falta de infra-estrutura de saneamento e somadas a falta de investimentos em setores cr?ticos como sa?de, educa??o, habita??o e transporte, estes problemas passam a degradar acentuadamente a qualidade de vida dos citadinos e colocam em teste as pol?ticas de gest?o dos espa?os urbanizados. Para reverter tal quadro, mostra-se imprescind?vel o uso de ferramentas que auxiliem na avalia??o das atuais condi??es e possam auxiliar na predi??o de cen?rios futuros. A partir das informa??es elencadas supra, a presente pesquisa busca apresentar um instrumento ambiental denominado ?ndice de Saneamento B?sico (ISBA) que visa a analise dos quatro sistemas urbanos (?gua, esgoto, res?duos s?lidos e drenagem urbana) sob a ?tica de aplica??o em um recorte geogr?fico especifico no caso a Bacia de Drenagem XII, definida pelo Plano de Drenagem Urbana de ?guas Pluviais da cidade do Natal, capital do Rio Grande do Norte. Este ?ndice, juntamente com an?lises de outros fatores ajuda a tra?ar as atuais condi??es da bacia e com isso, auxiliar na proposi??o das melhores solu??es. Para a aplica??o do ?ndice foram utilizados obtidos atrav?s de um question?rio com uma amostra de 384 (trezentos e oitenta e quatro) resid?ncias que objetivava estudar duas vari?veis: acesso e a satisfa??o da popula??o aos servi?os de saneamento. O ISBA mostrou que o sistema mais deficit?rio ? o de coleta e destina??o final de efluentes (ICE=47,66%), seguido pela drenagem de ?guas pluviais (IDAP=54,17%), o abastecimento de ?gua (IAA=61,36) e a coleta de res?duos s?lidos (IRS=78,28). Com o ISBA foi poss?vel verificar que dados qualitativos cuja subjetividade mostra-se evidente (como ? o caso da satisfa??o dos usu?rios) podem ser de grande import?ncia quando de uma avalia??o, visto que se obteve coeficiente de correla??o entre as vari?veis Acesso e Satisfa??o igual a 0,8234, mostrando grande correla??o entre a exist?ncia/qualidade de servi?o oferecido e as impress?es da popula??o que os recebe

Centros urbanos

Sistemas urbanos

?ndice de saneamento b?sico

Natal/RN

Bacia de drenagem XII

Acesso

Satisfa??o

Urban centers

Urban systems

Index sanitation

Natal / RN

Master plan for stormwater drainage

Drainage basin XII

Access

Satisfaction

CNPQ::ENGENHARIAS::ENGENHARIA SANITARIA