This paper presents a novel algorithm with improved convergence and robustness for the pressure-driven modeling of water distribution networks (WDNs), to be implemented as hydraulic engine in the fourth release of the SWANP version 4.0 software. The innovative approach is based on increasing the order of convergence, which is quadratic for algorithms obtained from the Newton Raphson linearization of the equations for WDN resolution. As an example, the cubic order of convergence is obtained by evaluating system matrices at the generic iteration in a more refined way to account for the curvature of the hyperplane associated with the system in the direction of the Newton Raphson step. To show the benefits of the methodology, a third-order algo...
Steady-state Water Distribution Network models compute pipe flows and nodal heads for assumed nodal ...
This paper presents a novel method to model water distribution systems (WDS) with insufficient press...
This paper presents the comparison of five pressure-driven formulations in the context of water dist...
This paper presents a novel algorithm with improved convergence and robustness for the pressure-driv...
International audienceIn the past, pressure dependent models (PDM) have suered from convergence dicu...
This paper presents the comparison of five pressure-driven formulations in the context of water dist...
In the past, pressure dependent models (PDM) have suffered from convergence diffculties. In this pap...
Several hydraulic modelling approaches have been proposed previously to simulate pressure deficient ...
This work introduces two novel methods to the solution of water distribution networks equipped with ...
In water distribution systems (WDSs), the available flow at a demand node is dependent on the pressu...
This paper presents the comparison of two algorithms for water distribution network resolution in te...
This paper presents the comparison of two algorithms for water distribution network resolution in te...
In water distribution networks (WDNs), the available flow at a demand node is dependent on the press...
In a water distribution system (WDS), low pressure situations can arise for a variety of reasons. Fo...
Pressure-deficient conditions are a common occurrence in water distribution systems. These situation...
Steady-state Water Distribution Network models compute pipe flows and nodal heads for assumed nodal ...
This paper presents a novel method to model water distribution systems (WDS) with insufficient press...
This paper presents the comparison of five pressure-driven formulations in the context of water dist...
This paper presents a novel algorithm with improved convergence and robustness for the pressure-driv...
International audienceIn the past, pressure dependent models (PDM) have suered from convergence dicu...
This paper presents the comparison of five pressure-driven formulations in the context of water dist...
In the past, pressure dependent models (PDM) have suffered from convergence diffculties. In this pap...
Several hydraulic modelling approaches have been proposed previously to simulate pressure deficient ...
This work introduces two novel methods to the solution of water distribution networks equipped with ...
In water distribution systems (WDSs), the available flow at a demand node is dependent on the pressu...
This paper presents the comparison of two algorithms for water distribution network resolution in te...
This paper presents the comparison of two algorithms for water distribution network resolution in te...
In water distribution networks (WDNs), the available flow at a demand node is dependent on the press...
In a water distribution system (WDS), low pressure situations can arise for a variety of reasons. Fo...
Pressure-deficient conditions are a common occurrence in water distribution systems. These situation...
Steady-state Water Distribution Network models compute pipe flows and nodal heads for assumed nodal ...
This paper presents a novel method to model water distribution systems (WDS) with insufficient press...
This paper presents the comparison of five pressure-driven formulations in the context of water dist...