[
De Paola, F. and Giugni, M., 2012. Leakages and pressure relation: an experimental research, Drinking Water Engineering and Science, 5, pp 59–65.10.5194/dwes-5-59-2012
]Search in Google Scholar
[
Gomes, R., Sousa, J. and Marques, A. S., 2013. The influence of pressure/leakage relationships from existing leaks in the benefits yielded by pressure management, Water Utility Journal 5, pp 25-32.
]Search in Google Scholar
[
M. E. Taslim and S. Ugarte, 2004, Discharge Coefficient Measurements for Flow Through Compound-Angle Conical Holes with Cross-Flow, International Journal of Rotating Machinery, 10: 145–153.10.1155/S1023621X04000156
]Search in Google Scholar
[
Mckenzie, R., Seago, C., 2005. Assessment of real losses in potable water distribution systems: some recent Developments, Water Science Technology Water Supply 5(1), pp 33–40.10.2166/ws.2005.0005
]Search in Google Scholar
[
Nourhan Samir, Rawya Kansoh, Walid Elbarki, Amr Fleifle, 2017. Pressure control for minimizing leakage in water distribution systems, Alexandria Engineering Journal, pp 601-612.10.1016/j.aej.2017.07.008
]Search in Google Scholar
[
Tingchao Yu, Xiangqiu Zhang, Iran E. Lima Neto, Tuqiao Zhang, Yu Shao and Miaomiao Ye, 2019. Impact of Orifice-to-Pipe Diameter Ratio on Leakage Flow: An Experimental Study, Water 11 (10): 2189.10.3390/w11102189
]Search in Google Scholar
[
Thornton, J., Lambert, A., 2005. Progress in practical prediction of pressure: leakage, pressure: burst frequency and pressure: consumption relationships, Proceedings of IWA special conference “leakage 2005”, Halifax, Nova Scotia, Canada, September, pp 12-14.
]Search in Google Scholar
[
Van Zyl, J. E., 2014. Theoretical Modelling of Pressure and Leakage in Water Distribution Systems, 16th Conference on Water Distribution System Analysis, WDSA 2014, Procedia Engineering 89, pp 273 – 277.10.1016/j.proeng.2014.11.187
]Search in Google Scholar
[
Van Zyl J.E.and Cri Clayton, 2007. The effect of pressure on leakage in water distribution systems, Water Management 160 (2), pp 109-114.10.1680/wama.2007.160.2.109
]Search in Google Scholar
[
IDELCHIK I. E., 1994. Handbook of hydraulic resistance (3rd edition), Begell House, New York.
]Search in Google Scholar
[
Marian, L., Muste, M., 1993. Hidraulică şi maşini hidraulice, volumul I, (Hydraulics and Hydraulic Machines, volume I), Cluj-Napoca, Ed. Lito Institutul Politehnic, pp 276-284.
]Search in Google Scholar
[
Georgescu A. M., Georgescu S. C., 2007. Hidraulica reţelelor de conducte şi maşini hidraulice, (Hydraulics of pipeline networks and Hydraulic Machines), Ed. Printech, pp 60-62.
]Search in Google Scholar
[
WHO - World Health Organisation, 2001. Leakage Management and Control - A Best Practice Manual, WHO, Geneva, pp 19.
]Search in Google Scholar
[
Coetzer, A.; van Zyl, J.; Clayton, C., 2006. An experimental investigation into the turbulent-flow hydraulics of small circular holes in plastic pipes, In Proceedings of the 8th Annual Water Distribution Systems Analysis Symposium (WDSA), Cincinnati, OH, USA, pp 27–30
]Search in Google Scholar
[
David Prohaska, 2008. Investigation of the discharge coefficient for circular orifices in riser pipes, theses.
]Search in Google Scholar
[
Lambert, A., Fantozzi, M.,Shepherd,M., 2017. FAVAD Pressure & Leakage: How Does Pressure Influence N1?, IWA Water Efficient Conference. IWA Water and Development Congress & Exhibition, 2019, Sri Lanka.
]Search in Google Scholar