The Reliability of Rural Water Distribution Systems in Relation to the Layout of the Pipework within the Network

[1] Szpindor A., Zaopatrzenie w wodę i kanalizacja wsi, Arkady, Warszawa 1992 (in Polish).Search in Google Scholar

[2] Dzienis L., Królikowski A., Wodociągi i kanalizacje wiejskie, Wydawnictwo Politechniki Białostockiej, Białystok 1991 (in Polish).Search in Google Scholar

[3] Gheisi A., Forsyth M., Naser G., Water Distribution Systems Reliability: A Review of Research Literature, Journal of Water Resources Planning and Management, Vol. 142/2016, Issue 11, doi: 10.1061/(asce)wr.1943-5452.0000690.10.1061/(ASCE)WR.1943-5452.0000690Search in Google Scholar

[4] Mays L.W., Review of reliability analysis of water distribution systems, A a Balkema, Rotterdam 2016.Search in Google Scholar

[5] Mays L.W., Methodologies for reliability analysis of water distribution systems, [in:] Computer Modeling of Free-Surface and Pressurized Flows, ed. M.H. Chaudhry, L.W. Mays, Kluwer Academic Publishers, Dordrecht 1994, Vol. 274, 485–517.10.1007/978-94-011-0964-2_17Search in Google Scholar

[6] Niezawodność miejskich systemów zaopatrzenia w wodę, ed. A. Wieczysty, Politechnika Krakowska, Kraków 1993 (in Polish).Search in Google Scholar

[7] Niezawodność i bezpieczeństwo systemów zbiorowego zaopatrzenia w wodę, ed. J. Rak, Oficyna Wydawnicza Politechniki Rzeszowskiej, Rzeszów 2012 (in Polish).Search in Google Scholar

[8] Rak J., Wybrane zagadnienia niezawodności i bezpieczeństwa w zaopatrzeniu w wodę, Oficyna Wydawnicza Politechniki Rzeszowskiej, Rzeszów 2008 (in Polish).Search in Google Scholar

[9] Kwietniewski M., Roman M., Kłoss-Trębaczkiewicz H., Niezawodność wodociągów i kanalizacji, Arkady, Warszawa 1993 (in Polish).Search in Google Scholar

[10] Metody oceny i podnoszenia niezawodności działania komunalnych systemów zaopatrzenia w wodę, ed. A. Wieczysty, Monografie KiŚ PAN, Kraków 2001 (in Polish).Search in Google Scholar

[11] Królikowska J., Królikowski A., Analiza porównawcza wskaźników niezawodności wiejskich i komunalnych systemów zaopatrzenia w wodę, [in:] Zaopatrzenie w wodę, jakość i ochrona wód: zagadnienia współczesne, ed. M.M. Sozański, PZITS O/Wielkopolski, Poznań 2010, Vol. 2, 383–392 (in Polish).Search in Google Scholar

[12] Atkinson S., Farmani R., Memon F.A., Butler D., Reliability Indicators for Water Distribution System Design: Comparison, Journal of Water Resources Planning and Management, Vol. 140/2014, No. 2, 160–168, doi: 10.1061/(asce)wr.1943-5452.0000304.10.1061/(ASCE)WR.1943-5452.0000304Search in Google Scholar

[13] Kwietniewski M., Roman M., Establishing performance criteria of water supply systems reliability, Journal of Water Supply Research and Technology-Aqua, Vol. 46/1997, No. 3, 181–184.Search in Google Scholar

[14] Kwietniewski M., Rak J., Niezawodność infrastruktury wodociągowej i kanalizacyjnej w Polsce, Studia z zakresu inżynierii środowiska No. 67, Polska Akademia Nauk, Komitet Inżynierii Lądowej i Wodnej, Instytut Podstawowych Problemów Techniki, Warszawa 2010 (in Polish).Search in Google Scholar

[15] Dzienis L., Niezawodność wiejskich systemów zaopatrzenia w wodę, Rozprawy Naukowe No. 4, Wydawnictwa Politechniki Białostocka, Białystok 1991 (in Polish).Search in Google Scholar

[16] Dawidowicz J., Dzienis L., Królikowski J., Optymalizacja wiejskich systemów zaopatrzenia w wodę, Projekt badawczy KBN No. 606239101, Białystok 1992 (in Polish).Search in Google Scholar

[17] Dawidowicz J., Metoda projektowania wiejskich podsystemów dystrybucji wody z zastosowaniem analizy techniczno-ekonomiczno-niezawodnościowej (ATEN), Politechnika Białostocka, 1997, dysertacja (in Polish).Search in Google Scholar

[18] Dąbrowski W., Niedziołek M., McGarity M., Propozycja sposobu określania wskaźnika gotowości prostych podsystemów zaopatrzenia w wodę, Czasopismo Techniczne, 1-Ś/2011, 43–55 (in Polish).Search in Google Scholar

[19] Iwanejko R., Bajer J., Dekompozycja wielokrotna jako metoda dokładnego wyznaczania niezawodności systemów złożonych, Czasopismo Inżynierii Lądowej, Środowiska i Architektury, JCEEA, Oficyna Wydawnicza Politechniki Rzeszowskiej, Rzeszów 2017, Vol. XXXIV, Issue 64, 287–296, doi:10.7862/rb.2017.246 (in Polish).Search in Google Scholar

[20] Ciaponi C., Franchioli L.,Papiri S., Simplified Procedure for Water Distribution Networks Reliability Assessment, Journal of Water Resources Planning and Management-Asce, Vol. 138/2012, No. 4, 368–376. doi: 10.1061/(asce)wr.1943-5452.0000184.10.1061/(ASCE)WR.1943-5452.0000184Search in Google Scholar

[21] Boccafoschi A., Rejtano B., Reliability analysis of water supply systems by the entropy and equivocation theory, Crc Press-Taylor & Francis Group, Boca Raton 2010.Search in Google Scholar

[22] Bao Y., Mays L.W., Model for Water Distribution System Reliability, Journal of Hydraulic Engineering, Vol. 116/1990, Issue 9, https://doi.org/10.1061/(ASCE)0733-9429(1990)116:9(1119).10.1061/(ASCE)0733-9429(1990)116:9(1119)Search in Google Scholar

[23] Wagner J.M., Shamir U., Marks D.H., Water distribution reliability – simulation methods, Journal of Water Resources Planning and Management-Asce, Vol. 114/1988, No. 3, 276–294.10.1061/(ASCE)0733-9496(1988)114:3(276)Search in Google Scholar

[24] Abunada M., Trifunović N., Kennedy M., Babel M., Optimization and reliability assessment of water distribution networks incorporating demand balancing tanks,. Procedia Engineering, Vol. 70/2014, 4–13.10.1016/j.proeng.2014.02.002Search in Google Scholar

[25] Bouchart F., Goulter I., Selecting Valve Location to Optimize Water Distribution Network Reliability, Proceedings of the 6th IAHR International Symposium on Stochastic Hydraulics, 1992, 18–20.Search in Google Scholar

[26] Bouchart F., Goulter I., Reliability improvements in design of water distribution networks recognizing valve location, Water Resources Research, Vol. 27/1991, No.12, 3029–3040, doi: 10.1029/91wr00590.10.1029/91WR00590Search in Google Scholar

[27] Gargano R., Pianese D., Reliability as tool for hydraulic network planning, Journal of Hydraulic Engineering-Asce, Vol.126/2000, No. 5, 354–364, doi: 10.1061/(asce)0733-9429(2000)126:5(354).10.1061/(ASCE)0733-9429(2000)126:5(354)Search in Google Scholar

[28] Gheisi A., Naser G., Water distribution system reliability under simultaneous multicomponent failure scenario, Journal American Water Works Association, Vol.106/2014, No. 7, 83–84, doi: 10.5942/jawwa.2014.106.0075.10.5942/jawwa.2014.106.0075Search in Google Scholar

[29] Kwietniewski M., Roman M., Reliability assessment of water supply systems, Journal of Water Supply Research and Technology-Aqua, Vol. 46/1997, No. 5, 283–287.Search in Google Scholar

[30] Shamsi U.M., Computerized evaluation of water-supply reliability, Ieee Transactions on Reliability, Vol.39/1990, No. 1, 35–41, doi: 10.1109/24.52638.10.1109/24.52638Search in Google Scholar

[31] Tanyimboh T.T., Burd R., Burrows R., Tabesh M., Modelling and reliability analysis of water distribution systems. Proceedings of the Water Science and Technology, Vol.39/1999, No. 4, 249–255, doi: 10.1016/s0273-1223(99)00078-5.10.1016/S0273-1223(99)00078-5Search in Google Scholar

[32] Trifunovic N., Decision Support Tool for Design and Reliability Assessment of Water Distribution Networks, Crc Press-Taylor & Francis Group. Boca Raton 2012.Search in Google Scholar

[33] Trifunovic N., Diagnostics of Regular Performance of Water Distribution Networks and its Relation to the Network Reliability, Crc Press-Taylor & Francis Group, Boca Raton 2012.Search in Google Scholar

[34] Yannopoulos S., Spiliotis M., Water Distribution System Reliability Based on Minimum Cut – Set Approach and the Hydraulic Availability, Water Resources Management, Vol. 27/2013, No. 6, 1821–1836, doi: 10.1007/s11269-012-0163-510.1007/s11269-012-0163-5Search in Google Scholar

[35] Tchorzewska-Cieslak B., Water supply system reliability management, Environment Protection Engineering, Vol. 35/2009, No. 2, 29–35.Search in Google Scholar

[36] Wanakule N., Mok C.M., Reliability based water supply management model, Proceedings of the Second IASTED International Conference on Water Resources Management, 2007.Search in Google Scholar

[37] Monte M.B.S., de Almeida A.T., A Reliability-Based Approach to Maximize Availability in a Water Supply System, Ieee Latin America Transactions, Vol.13/2015, No. 12, 3807–3812.10.1109/TLA.2015.7404912Search in Google Scholar

[38] Asahi C., Hagihara K., Economic Valuation for Improving Supply Reliability: Risk Countermeasures for Water Quantity and Quality in Water Supply Systems, [in:] Coping with Regional Vulnerability: Preventing and Mitigating Damages from Environmental Disasters, eds. K. Hagihara, C. Asahi, Springer-Verlag, Tokyo, Vol. 4/2016, 151–171.10.1007/978-4-431-55169-0_9Search in Google Scholar

[39] Zimoch I., Szymik-Gralewska J., Application of Integrated Reliability-Economic Analysis in Management of Oversized Water Supply Infrastructure, Annual Set The Environmental Protection, Vol. 37/2015, No. 4, 25–30.Search in Google Scholar

[40] Damelin E., Shamir U., Arad N., Engineering and economic evaluation of reliability of water supply, Water Resources Research, Vol. 8/1972, No. 4, 861–877, doi: 10.1029/WR008i004p00861.10.1029/WR008i004p00861Search in Google Scholar

[41] Kwietniewski M., Field reliability tests of water distribution system from the point of view of consumer’s needs, Civil Engineering and Environmental Systems, Vol. 23/2006, No. 4, 287–294, doi: 10.1080/10286600600888540.10.1080/10286600600888540Search in Google Scholar

[42] Sołowjew A.D., Analityczne metody w teorii niezawodności, WNT, Warszawa 1983 (in Polish).Search in Google Scholar

[43] Strömer H., Mathematische theorie der Zuverlassigkeit. Einführung und Anwendungen, Akademie Verlag, Berlin 1970 (in German).10.1515/9783112645420Search in Google Scholar

[44] Stuckey A.T., Methods used for the analysis of pipe networks, WWE No. 877/1969.Search in Google Scholar