Modelling Discolouration in WDS Caused by Hydraulic Transient Events-Reference-Cited by-同舟云学术

Modelling Discolouration in WDS Caused by Hydraulic Transient Events

Published:2011-12-21 Issue: Volume: Page:
ISSN:
Container-title:Water Distribution Systems Analysis 2010
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Author:

Aisopou Angeliki,Stoianov Ivan,Graham Nigel

Publisher

American Society of Civil Engineers

Link

http://ascelibrary.org/doi/pdf/10.1061/41203%28425%2949

Reference2 articles.

1. (1993). The effect of trunc mains on water quality Water Research Centre. Aisopou A. (2010). Evaluation of water quality changes in water supply mains under transient flow conditions. Civil and Environmental Engineering. London Imperial College. PhD. Boxall J. B. and R. A. Prince (2006). "Modelling discolouration in a Melbourne (Australia) potable water distribution system." Journal of Water Supply: Research and Technology- AQUA 55(3): 207-219. Boxall J. B. and A. J. Saul (2005). "Modelling Discoloration in Potable Water Distribution Systems." Journal of Environmental Engineering 131(5): 716-725. Boxall J. B. P. J. Skipworth et al. (2001). A novel approach to modelling sediment movement in distribution mains based on particle characteristics. Proceedings of the Computing and Control in the Water Industry Conference De Monfort University UK. Brunone B. B. W. Karney et al. (2000). "Velocity Profiles and Unsteady Pipe Friction in Transient Flow." Journal of Water Resources Planning and Management 126(4): 236-244. Fernandes C. and B. W. Karney (2004). "Modelling the advection equation under water hammer conditions." Urban Water Journal 1(2). Foster G. R. (1982). Modelling the erosion process. In: Hydrologic Modelling of Small Watersheds. St. Joseph C.T. Haan H.P. Johnson and D.L. Brakensiek (Editors) ASAE. Ghidaoui M. and S. Mansour (2002). "Efficient treatment of the Vardy-Brown unsteady shear in pipe transients." J. Hydraul. Eng. 128(1): 102-112. Govindaraju R. S. L. N. Reddi et al. (1995). "A physically based model for mobilization of kaolinite particles under hydraulic gradients." Journal of Hydrology 172: 331-350. Karney B. (1999). "Water Hammer in Distribution Networks." Water Industry Systems: modelling and optimization applications 1: 33-38. Karney B. and B. Brunone (1999). "Water Hammer in Pipe Network: Two Case Studies." Water Industry Systems: modelling and optimization applications Vol. 1: 363-376. Mehta A. J. Lee S. C. (1994). "Problems in Linking the Threshold Conditions for the Transport of Cohesionless and Cohesive Sediment Grain." J. of Coastal Research 10(1): 170-177. Naser G. (2006). Water quality transformations in pipelines: a two-dimensional multi-component simulation model. Civil Engineering. Toronto University of Toronto. Doctor of Philosophy. Naser G. Karney B.W. Boxall J.B. (2006). Red Water and Discoloration in a WDS: A numerical Simulation. 8th Annual Water Distribution Systems Symposium. Cincinnati Ohio USA.

2. Discolouration in potable water distribution systems: A review

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