This paper introduces an extension of the Global Gradient Algorithm (GGA) to directly solve unsteady flow problems arising from the presence of variable head water storage devices, such as tanks, in Extended Period Simulations (EPS) of looped water distribution networks (WDN). Such a modification of the original algorithm was motivated by the need to overcome oscillations and instabilities reported by several users of EPANET, a worldwide available package, which uses the GGA to solve the looped WDN equations. The set of partial differential equations describing the time and space behaviour of a water distribution system is here presented. It is shown how an unsteady flow GGA can be derived by simple modifications of the original steady-stat...
AbstractThe authors have made a transition from the mass balance equations based on the Kirchhoff la...
This paper presents a novel algorithm with improved convergence and robustness for the pressure-driv...
Different methods have been developed in the past to formulate and solve steady-state hydraulics of ...
In water distribution network (WDN) steady-state modelling, tanks and reservoirs are modelled as nod...
Gradually varied unsteady flow in water distribution networks is studied using the Gradient Method a...
Steady-state Water Distribution Network models compute pipe flows and nodal heads for assumed nodal ...
The Newton-based global gradient algorithm (GGA) (also known as the Todini and Pilati method) is a w...
This work introduces two novel methods to the solution of water distribution networks equipped with ...
Ezio Todini said of the Global Gradient Algorithm (GGA), which he developed with Pilati, that it is ...
The paper introduces the Variable Speed Pump coefficient direct computation that has been implemente...
Several hydraulic modelling approaches have been proposed previously to simulate pressure deficient ...
Many different methods have been devised to solve the nonlinear systems of equations that model wate...
The Newton-based global gradient algorithm (GGA) (also known as the Todini and Pilati method) is a w...
Efficiency of hydraulic solvers for the simulation of flows and pressures in water distribution syst...
[EN] This paper presents a novel approach to model pressure- and flow-regulating devices in the cont...
AbstractThe authors have made a transition from the mass balance equations based on the Kirchhoff la...
This paper presents a novel algorithm with improved convergence and robustness for the pressure-driv...
Different methods have been developed in the past to formulate and solve steady-state hydraulics of ...
In water distribution network (WDN) steady-state modelling, tanks and reservoirs are modelled as nod...
Gradually varied unsteady flow in water distribution networks is studied using the Gradient Method a...
Steady-state Water Distribution Network models compute pipe flows and nodal heads for assumed nodal ...
The Newton-based global gradient algorithm (GGA) (also known as the Todini and Pilati method) is a w...
This work introduces two novel methods to the solution of water distribution networks equipped with ...
Ezio Todini said of the Global Gradient Algorithm (GGA), which he developed with Pilati, that it is ...
The paper introduces the Variable Speed Pump coefficient direct computation that has been implemente...
Several hydraulic modelling approaches have been proposed previously to simulate pressure deficient ...
Many different methods have been devised to solve the nonlinear systems of equations that model wate...
The Newton-based global gradient algorithm (GGA) (also known as the Todini and Pilati method) is a w...
Efficiency of hydraulic solvers for the simulation of flows and pressures in water distribution syst...
[EN] This paper presents a novel approach to model pressure- and flow-regulating devices in the cont...
AbstractThe authors have made a transition from the mass balance equations based on the Kirchhoff la...
This paper presents a novel algorithm with improved convergence and robustness for the pressure-driv...
Different methods have been developed in the past to formulate and solve steady-state hydraulics of ...