This paper presents the comparison of five pressure-driven formulations in the context of water distribution network (WDN) modelling. These formulations, which relate nodal outflow q to users to demands d and nodal pressure heads h, were implemented inside the global gradient algorithm for the snapshot solution of the equations concerning mass and energy conservation at WDN nodes and pipes, respectively. The modelling of leakage nodal outflows as a function of pressure was also considered. The applications concerned two case studies, in which nodal demands were suitably amplified to lower service pressure below the desired values. This was done to stress the effects of the pressure-driven dependence q(h) in the WDN. The results showed that ...
When analysing a pressure deficient network, it is crucial that the pressure dependent nature of nod...
The definition of the relationship between the actual flow delivered by a node of a water distributi...
In a water distribution system (WDS), low pressure situations can arise for a variety of reasons. Fo...
This paper presents the comparison of five pressure-driven formulations in the context of water dist...
This paper presents the comparison of five pressure-driven formulations in the context of water dist...
In water distribution networks (WDNs), the available flow at a demand node is dependent on the press...
The analysis of a looped water distribution network, operating under pressure and in steady flow con...
This paper presents a novel method to model water distribution systems (WDS) with insufficient press...
This paper presents a novel algorithm with improved convergence and robustness for the pressure-driv...
Most network simulation models currently used in engineering practice are based on the conventional ...
In water distribution systems (WDSs), the available flow at a demand node is dependent on the pressu...
The allocation of water demand to nodes is compared with uniformly distributed demand along a pipeli...
Critical pressure-deficient operating conditions frequently occur in water distribution networks. He...
Several hydraulic modelling approaches have been proposed previously to simulate pressure deficient ...
none2The analysis of a looped water distribution network, operating under pressure and in steady flo...
When analysing a pressure deficient network, it is crucial that the pressure dependent nature of nod...
The definition of the relationship between the actual flow delivered by a node of a water distributi...
In a water distribution system (WDS), low pressure situations can arise for a variety of reasons. Fo...
This paper presents the comparison of five pressure-driven formulations in the context of water dist...
This paper presents the comparison of five pressure-driven formulations in the context of water dist...
In water distribution networks (WDNs), the available flow at a demand node is dependent on the press...
The analysis of a looped water distribution network, operating under pressure and in steady flow con...
This paper presents a novel method to model water distribution systems (WDS) with insufficient press...
This paper presents a novel algorithm with improved convergence and robustness for the pressure-driv...
Most network simulation models currently used in engineering practice are based on the conventional ...
In water distribution systems (WDSs), the available flow at a demand node is dependent on the pressu...
The allocation of water demand to nodes is compared with uniformly distributed demand along a pipeli...
Critical pressure-deficient operating conditions frequently occur in water distribution networks. He...
Several hydraulic modelling approaches have been proposed previously to simulate pressure deficient ...
none2The analysis of a looped water distribution network, operating under pressure and in steady flo...
When analysing a pressure deficient network, it is crucial that the pressure dependent nature of nod...
The definition of the relationship between the actual flow delivered by a node of a water distributi...
In a water distribution system (WDS), low pressure situations can arise for a variety of reasons. Fo...