AbstractA numerical method that uses linear graph theory is presented for both steady state, and extended period simulation in a pipe network including its hydraulic components (pumps, valves, junctions, etc.). The developed model is based on the Extended Linear Graph Theory (ELGT) technique. This technique is modified to include new network components such as flow control valves and tanks. The technique also expanded for extended period simulation (EPS). A newly modified method for the calculation of updated flows improving the convergence rate is being introduced. Both benchmarks, ad Actual networks are analyzed to check the reliability of the proposed method. The results reveal the finer performance of the proposed method
In this paper a modified version of the well-known global gradient algorithm for the hydraulic stead...
The linear theory of Wood and Charles (Proc. A.S.C.E. J. Hyds. Div. July 1972) is generalised to an...
Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, p...
A numerical method that uses linear graph theory is presented for both steady state, and extended pe...
AbstractA numerical method that uses linear graph theory is presented for both steady state, and ext...
Natural gas supply systems are complex pipeline networks, whose features can cause severe consequenc...
Simulator algorithm for water networks based on loop method. Simulation of water networks by using ...
Simulator algorithm for water networks based on loop method. Simulation of water networks by using ...
This paper presents a simulation scheme for water distribution systems based on loop flows algorithm...
With the purpose of making calculation more efficient in practical hydraulic simulations, an improve...
grantor: University of TorontoIt is both difficult and costly for water utilities to upda...
Since the value of the hydraulic resistance depends on flow rate, problem of flow distribution per p...
AbstractWith the purpose of making calculation more efficient in practical hydraulic simulations, an...
Computation of flows and pressures in networks of pipes has been of great value and interest for tho...
Simulator algorithm for water networks based on loop method. Simulation of water networks by using ...
In this paper a modified version of the well-known global gradient algorithm for the hydraulic stead...
The linear theory of Wood and Charles (Proc. A.S.C.E. J. Hyds. Div. July 1972) is generalised to an...
Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, p...
A numerical method that uses linear graph theory is presented for both steady state, and extended pe...
AbstractA numerical method that uses linear graph theory is presented for both steady state, and ext...
Natural gas supply systems are complex pipeline networks, whose features can cause severe consequenc...
Simulator algorithm for water networks based on loop method. Simulation of water networks by using ...
Simulator algorithm for water networks based on loop method. Simulation of water networks by using ...
This paper presents a simulation scheme for water distribution systems based on loop flows algorithm...
With the purpose of making calculation more efficient in practical hydraulic simulations, an improve...
grantor: University of TorontoIt is both difficult and costly for water utilities to upda...
Since the value of the hydraulic resistance depends on flow rate, problem of flow distribution per p...
AbstractWith the purpose of making calculation more efficient in practical hydraulic simulations, an...
Computation of flows and pressures in networks of pipes has been of great value and interest for tho...
Simulator algorithm for water networks based on loop method. Simulation of water networks by using ...
In this paper a modified version of the well-known global gradient algorithm for the hydraulic stead...
The linear theory of Wood and Charles (Proc. A.S.C.E. J. Hyds. Div. July 1972) is generalised to an...
Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, p...