Ingrid Selseth scite author profile

Ingrid Selseth

5Publications

16Citation Statements Received

84Citation Statements Given

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Reliability analysis of complex water distribution systems: the role of the network connectivity and tanks

Berardi

Laucelli

Ciliberti

et al. 2021

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A reliable water distribution network (WDN) can provide an adequate supply service to customers under both normal and abnormal working conditions. The WDN reliability analysis, therefore, is a keystone to improve the supply service efficiency. Strategies for reliability analysis are usually proved on small WDNs, which do not compare with large real complex systems in terms of number of water tanks, pressure reduction valves, variable speed pumps, controlled devices and possible alternative water supply schemes. The topological changes due to pipeline interruptions impact on emptying–filling of water tanks and network pressure status. This work proposes a two-level procedure for mechanical reliability assessment, suited for large real WDNs. It leverages a path/connectivity-based approach to set up reliability indicators for global-level analysis and local screening of the most critical scenarios. The employed advanced hydraulic model includes the automatic detection of topological changes and the robust modelling of water level in tanks using the generalized global gradient algorithm. The extended period simulation enables the reliability assessment of alternative water supply schemes and the sensitivity of tanks and controlled devices to single failure events. The procedure is demonstrated on a real complex network, being consistent with the ongoing digital transition in the WDN management sector.

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Hydrological performance of lined permeable pavements in Norway

Abdalla

Selseth

Muthanna

et al. 2021

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Lined permeable pavements (LPPs) are types of sustainable urban stormwater systems (SUDs) that are suitable for locations with low infiltration capacity or shallow groundwater levels. This study evaluated the hydrological performance of an LPP system in Norway using common detention indicators and flow duration curves (FDCs). Two hydrological models, the Storm Water Management Model (SWMM)-LID module and a reservoir model, were applied to simulate continuous outflows from the LPP system to plot the FDCs. The sensitivity of the parameters of the SWMM-LID module was assessed using the generalized likelihood uncertainty estimation methodology. The LPP system was found to detain the flow effectively based on the median values of the detention indicators (peak reduction = 89%, peak delay = 40 min, centroid delay = 45 min, T50-delay = 86 min). However, these indicators are found to be sensitive to the amount of precipitation and initial conditions. The reservoir model developed in this study was found to yield more accurate simulations (higher NSE) than the SWMM-LID module, and it can be considered a suitable design tool for LPP systems. The FDC offers an informative method to demonstrate the hydrological performance of LPP systems for stormwater engineers and decision-makers.

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GIS Based Urban Drainage Analyses and Their Preliminary Applications in Urban Stormwater Management

Nie¹,

Schilling²,

Killingtveit³

et al. 2002

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Wastewater Network Challenges and Solutions

Sægrov

Hafskjold

König

et al. 2006

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Methods for estimating water network rehabilitation needs

Sægrov

König

Mattick

et al. 2003

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This paper comprises a brief overview of some of the computer-based methods for water network rehabilitation planning, which are currently applied in Norway. Examples from some Norwegian cities using tools for estimation of long-term rehabilitation needs, network serviceability, as well as methods for prediction of water network failure frequency and failure distribution, are presented. These tools have been shown to give important support to the planning of future investments on water networks and the selection of rehabilitation candidates.

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Ingrid Selseth

Reliability analysis of complex water distribution systems: the role of the network connectivity and tanks

Hydrological performance of lined permeable pavements in Norway

GIS Based Urban Drainage Analyses and Their Preliminary Applications in Urban Stormwater Management

Wastewater Network Challenges and Solutions

Methods for estimating water network rehabilitation needs

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