Articles | Volume 6, issue 1
https://doi.org/10.5194/dwes-6-11-2013
© Author(s) 2013. This work is distributed under
the Creative Commons Attribution 3.0 License.Special issue:
Numerical and experimental investigation of leaks in viscoelastic pressurized pipe flow
Related authors
Related subject area
Tools: Modeling and simulation
Algorithms for optimization of branching gravity-driven water networks
The effect of a loss of model structural detail due to network skeletonization on contamination warning system design: case studies
Limitations of demand- and pressure-driven modeling for large deficient networks
Identifying (subsurface) anthropogenic heat sources that influence temperature in the drinking water distribution system
Drink. Water Eng. Sci., 11, 67–85,
2018Drink. Water Eng. Sci., 11, 49–65,
2018Drink. Water Eng. Sci., 10, 93–98,
2017Drink. Water Eng. Sci., 10, 83–91,
2017Cited articles
Adamkowski A. and Lewandowski, M.: Experimental examination of unsteady friction models for transient pipe flow simulation, J. Fluid. Eng., 128, 1351–1363, 2006.
Bergant, A., Simpson, A., and Vitkovsky, J.: Developments in unsteady pipe flow friction modelling, J. Hydraul. Res., 39, 249–257, 2001.
Brunone, B.: A transient test-based technique for leak detection in outfall pipes, J. Water Res. Pl., 125, 302–306, 1999.
Brunone, B. and Berni, A.: Wall shear stress in transient turbulent pipe flow by local velocity measurement, J. Hydraul. Eng., 136, 716–726, 2010.
Brunone, B. and Ferrante, M.: Detecting leaks in pressurised pipes by means of transients, J. Hydraul. Res., 39, 539–547, 2001.