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Urban Stormwater Management Planning with Analytical Probabilistic Models

Urban Stormwater Management Planning with Analytical Probabilistic Models
Author: Barry J. Adams
Publisher: New York ; Toronto : J. Wiley
Total Pages: 384
Release: 2000-03-27
Genre: Mathematics
ISBN:
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Understanding how to properly manage urban stormwater is a critical concern to civil and environmental engineers the world over. Mismanagement of stormwater and urban runoff results in flooding, erosion, and water quality problems. In an effort to develop better management techniques, engineers have come to rely on computer simulation and advanced mathematical modeling techniques to help plan and predict water system performance. This important book outlines a new method that uses probability tools to model how stormwater behaves and interacts in a combined- or single-system municipal water system. Complete with sample problems and case studies illustrating how concepts really work, the book presents a cost-effective, easy-to-master approach to analytical modeling of stormwater management systems.

Analytical Probabilistic Models for Urban Stormwater Management Planning

Analytical Probabilistic Models for Urban Stormwater Management Planning
Author: Fabian Papa
Publisher:
Total Pages: 0
Release: 1997
Genre:
ISBN:
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Since 1978, research efforts at the University of Toronto have included the development of analytical probabilistic models for urban drainage systems analysis. These models have been developed to the stage where their implementation in engineering practice may be of significant utility. The massive public investments required for urban infrastructure must be made on a cost-effective basis and, in order to optimize system design, performance analysis methods are necessary. The models presented herein represent but one technology which may be useful in the planning of urban drainage systems. Developed using derived probability theory, these models are capable of assessing system performance over the full range of meteorological conditions with relative ease when compared to their simulation counterparts. The use of such models in planning-level studies is thus practical where detailed analyses of drainage systems is typically unwarranted. Furthermore, the computationally efficient nature of the models lends them favourably to the solution of optimization problems. This thesis is a synthesis of the past two decades of research into this topic and is intended for use as a comprehensive reference by practitioners, researchers and students.

Development of Analytical Probabilistic Urban Stormwater Models

Development of Analytical Probabilistic Urban Stormwater Models
Author: Yiping Guo
Publisher:
Total Pages: 0
Release: 1998
Genre:
ISBN:
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Analytical probabilistic urban stormwater models are closed-form mathematical equations relating statistical urban drainage system performance measures directly to meteorological parameters, system properties and design variables. These equations are formulated using derived probability distribution theory with simplified representations of the hydrologic and hydraulic processes taking place on urban catchments. The purpose of this thesis is to improve the representation of the hydrologic and hydraulic processes by existing analytical probabilistic models and to extend their use to flood control analyses. In developing the new set of analytical probabilistic models, the rainfall-runoff transformation on an event basis is described by equations which incorporate the hydrologic processes commonly considered in numerical simulation models. The peak discharge rate of a runoff event is estimated from the runoff event volume, the duration of the causal rainfall event and the catchment time of concentration. The average catchment time of concentration is used for all runoff events and is treated as a physical characteristic of the urban catchment, independent of input rainfall characteristics. Incorporating the exponential probability density functions of rainfall event characteristics, closed-form analytical expressions are derived for the return periods of runoff event volume and peak discharge rate of urban catchments. Furthermore, the water quality control performance of urban stormwater detention ponds are analyzed. Analytical expressions are derived for estimating the flow capture efficiency and average detention time provided by a stormwater quality control detention pond servicing an urban catchment. Taking into account the variable inflow and outflow rates, the detention ponds considered are those where outflow is controlled by an orifice-type structure. The flow capture efficiency is determined with the estimation of the total spill volume. The total spill volume is calculated as the combination of the event spill volume and the carryover spill volume. Thus, the carryover effect of consecutive runoff events is quantified. The analytical probabilistic approach is further extended to flood control analyses with the derivation of the probability distribution of the peak outflow rate from a flood control detention facility servicing an urban catchment. The derived mathematical expressions are used to analytically determine the storage-discharge relationship required for a detention facility to achieve the desired level of flood control. Continuous simulation of various urban catchments and detention pond configurations are conducted using Toronto historical rainfall records. Close agreement is obtained between simulation model results and those from the analytical probabilistic models developed in this thesis. Thus, the analytical probabilistic models can be used as an alternative to, or together with, continuous simulation models for the planning and design of urban stormwater management facilities.

Urban Water II

Urban Water II
Author: S. Mambretti
Publisher: WIT Press
Total Pages: 445
Release: 2014-05-27
Genre: Technology & Engineering
ISBN: 1845647807
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Urban Water II is the proceedings of the 2nd International Conference on the Design, Construction, Maintenance, Monitoring and Control of Urban Water Systems. The meeting was reconvened following the success of the first conference held in the New Forest, home to the Wessex Institute of Technology in 2012. Water systems in the urban environment consist of supply networks as well as sewage and storm drainage systems. They interact with each other and with warm bodies such as rivers, lakes and aquifers, and this interaction affects the quality and quantity of the different systems. As our cities continue to expand, their urban infrastructure must be re-evaluated and adapted to new requirements related to the increase in population and the growing areas under urbanisation. New water systems are also required to reduce the risk associated with floods, network failures and many others related to inadequate networks. New systems should reduce economic losses and environmental impacts as well as promote a higher degree of reliability. Improved management, measurement and control mechanisms are needed to ensure the efficiency and safety of urban water systems. Topics such as contamination and pollution discharges in urban water bodies, as well as the monitoring of water recycling systems are currently receiving a great deal of attention from researchers and professional engineers working in the water industry. Architects and town planners are also aware of the importance of the interaction between urban water cycles and city planning and landscaping. Management of all these aspects requires the development of specialised computer tools that can respond to the increased complexity of urban water systems. Relating to the subject areas of Water supply networks and Urban Drainage, topics covered include: Leakage and losses; Modelling and experimentation; Safety and security of water systems; Maintenance and repairs; Water quality; Water savings and reuse; Surface water and groundwater sources; Reservoirs; Network design; Waste water treatment and disposal; Structural works and infrastructure; Water quality issues; Combined sewer networks; Flood control; Storage tanks; Environmental impact; Domestic and industrial waste water issues.

ICACE 2019

ICACE 2019
Author: Mokhtar Awang
Publisher: Springer Nature
Total Pages: 219
Release: 2020-02-27
Genre: Technology & Engineering
ISBN: 9811511934
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This book presents selected articles from the 3rd International Conference on Architecture and Civil Engineering 2019, held in Kuala Lumpur, Malaysia. Written by leading researchers and industry professionals, the papers highlight recent advances and addresses current issues in the fields of civil engineering and architecture.

Water Systems Analysis, Design, and Planning

Water Systems Analysis, Design, and Planning
Author: Mohammad Karamouz
Publisher: CRC Press
Total Pages: 956
Release: 2021-12-29
Genre: Science
ISBN: 1000487334
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This book presents three distinct pillars for analysis, design, and planning: urban water cycle and variability as the state of water being; landscape architecture as the medium for built-by-design; and total systems as the planning approach. The increasing demand for water and urban and industrial expansions have caused myriad environmental, social, economic, and political predicaments. More frequent and severe floods and droughts have changed the resiliency and ability of water infrastructure systems to operate and provide services to the public. These concerns and issues have also changed the way we plan and manage our water resources. Focusing on urban challenges and contexts, the book provides foundational information regarding water science and engineering while also examining topics relating to urban stormwater, water supply, and wastewater infrastructures. It also addresses critical emerging issues such as simulation and economic modeling, flood resiliency, environmental visualization, satellite data applications, and digital data model (DEM) advancements. Features: Explores various theoretical, practical, and real-world applications of system analysis, design, and planning of urban water infrastructures Discusses hydrology, hydraulics, and basic laws of water flow movement through natural and constructed environments Describes a wide range of novel topics ranging from water assets, water economics, systems analysis, risk, reliability, and disaster management Examines the details of hydrologic and hydrodynamic modeling and simulation of conceptual and data-driven models Delineates flood resiliency, environmental visualization, pattern recognition, and machine learning attributes Explores a compilation of tools and emerging techniques that elevate the reader to a higher plateau in water and environmental systems management Water Systems Analysis, Design, and Planning: Urban Infrastructure serves as a useful resource for advanced undergraduate and graduate students taking courses in the areas of water resources and systems analysis, as well as practicing engineers and landscape professionals.