1. Abdolmanafi, N. and M. Mazaheri. 2013. Report of dual water distribution networks. Center of Research of Islamic Council Parliament, 36 pp (In Persian).
2. Alizadeh, A. 2016. Principles of applied hydrology. 28nd Edn., Imam Reza University press, Iran, 942 pp.
3. Apostolidis, N., C. Hertle and R. Young. 2011. Water recycling in Australia. Journal of Water, 3: 869-881. [
DOI:10.3390/w3030869]
4. Fotouhi firoozabad, F. and M. Ekhtesasi. 2016. Necessity and methods of separation of drinking water from other uses in Yazd. First National Conference on Drinking Water Supply and Demand, Health, Challenges and Solutions. 31-45 pp., Esfahan, Iran, (In Persian).
5. Fotouhi firoozabad, F., M. Ekhtesasi, M. Sefid and A. Morovati Sharifabadi. 2018. Strategic management of dual water system (drinking and non- drinking) with SWOT analysis (case study: Yazd city). Ph.D. Thesis (Watershed Management Sciences and Engineering). Yazd University, Yazd, Iran, 222 pp (In Persian).
6. Garcia-Cuerva, L., E.Z. Berglund and A.R. Binder. 2016. Public perceptions of water shortages, conservation behaviors and support for water reuse in the U.S. Resources Conservation and Recycling, 113: 106-115. [
DOI:10.1016/j.resconrec.2016.06.006]
7. Golabchi, M. 2009. Investigation the various systems of water supply and water distribution. Proceedings of 3th National Conference on Water and Wastewater. 1-9 pp., Tehran, Iran, (In Persian).
8. Grigg, N., P. Rogers and S. Edmiston. 2013. Dual water systems: characterization and performance for distribution of reclaimed water. Water Environment Research Foundation, 433 pp.
9. Kandiah, V.K., E.Z. Berglund and A.R. Binder. 2019. An agent-based modeling approach to project adoption of water reuse and evaluate expansion plans within a sociotechnical water infrastructure system. Sustainable Cities and Society. 46: 101412. [
DOI:10.1016/j.scs.2018.12.040]
10. Kotwicki, V. and M. Al-Otaibi. 2011. Drinking water saving potential of dual networks in Kuwait, Management of environmental quality. An International Journal, 22(6): 753-756. [
DOI:10.1108/14777831111170849]
11. Lam, Ch., L. Ling, P. Chen, P. Lee and S.H. Hsu. 2017. Eco-efficiency analysis of non-potable water systems in domestic buildings. Applied Energy, 202: 293-307. [
DOI:10.1016/j.apenergy.2017.05.095]
12. Llemobade, A.A., J.R. Adewumi and J.E. Zyl. 2009. Assessment of the feasibility of using a dual water reticulation system in South Africa. Report to the Water Research Commission, 159 pp.
13. Mainali, B., H. Hao Ngo, W. Guo, T. Nga Pham and A. Johnston. 2011. Feasibility assessment of recycled water use for washing machines in Australia through SWOT analysis. Resources Conservation and Recycling, 56: 87-91. [
DOI:10.1016/j.resconrec.2011.09.007]
14. Menge, J. 2006. Treatment of wastewater for re-use in the drinking water system of Windhoek, Water Institute of Southern Africa Conference: Midrand, Southern Africa, 1-14.
15. Nairizi, S. 1994. Dual water distribution system: A final solution for freshwater shortages, In: Tsakiris, G. and M.A. Santos (eds.) Advances in water resources technology and Management. 102-120 pp., Rotterdam, The Netherlands.
16. Nguyen, B. 2003. Operation of dual drinking and non-potable water networks in Paris: advantages and constraints, Water Science and Technology. Water Supply, 3(3): 193-200. [
DOI:10.2166/ws.2003.0026]
17. Oesterholt, F., G. Martijnse, G. Medemna and D. Van der Kooij. 2007. Health risk assessment of non-potable domestic water supplies in the Netherlands, Journal of Water Supply: Research and Technology-Aqua, 56(3): 171-179. [
DOI:10.2166/aqua.2007.043]
18. Oskunezhad, M. 2016. Engineering economy: Economic evaluation of industrial projects. Tehran: Amir Kabir University of Technology, Iran, 455 pp (In Persian).
19. Pahlavani, M., M. Jalili ghazizadeh and M. Fazeli. 2012. Investigating the hydraulic and qualitative principles of dual water supply networks (case study: Osku city-Azarbayejan Sharghi province). M.Sc. Thesis, Water and Power Industry University (Shahid Abbaspour), Tehran, Iran. 145pp, (In Persian).
20. Rasoulkhani, K., A. Mostafavi, J. Coleb and S. Sharvell. 2019. Resilience-based infrastructure planning and asset management: Study of dual and singular water distribution infrastructure performance using a simulation approach. Sustainable Cities and Society, 48: 101577. [
DOI:10.1016/j.scs.2019.101577]
21. Report of Plan of Company Tamadon Karizi. 2017. Performance evaluation of dual water distribution methods in selected cities of Yazd province. Yazd. Iran, (In Persian).
22. Rogers, P.D. and N.S. Grigg. 2007. Alternative approaches for water distribution: Dual and decentralized systems. World environmental and water resources congress: Restoring Our Natural Habitat, 1-10. [
DOI:10.1061/40927(243)466]
23. Sarbandi farahani, M. 2009. Construction of a separate network of drinking water from sanitary water in Qom. Proceeding of 4th International Conference on Project Management. Tehran. Iran, (In Persian).
24. Satterfield, Z. 2009. Dual water systems, Tech Brief. The national environmental services center, 9(3): 1-4.
25. Shang, S., J.G. Uber and L.A. Rossman. 2008. EPAnet Multi-Species Extension User's Manual. Environmental Protection Agency. United States. EPA/600/S-07/021.
26. Storey, M.V., D. Deere, A. Davison, T. Tam and A.J. Lovell. 2007. Risk management and cross-connection detection of a dual reticulation system, Water Reuse and Recycling, 459-466.
27. Tang, S.L., P.T. Yue Derek and C.C. KU Damien. 2007. Engineering and cost of dual water supply systems, IWA Publishing, London, UK, 100 pp.
28. Varbanetsa, M., C. Zurbrugga, C. Swartzb and W. Pronk. 2009. Decentralized systems for potable water and the potential of membrane technology. Water Research, 43: 245-265. [
DOI:10.1016/j.watres.2008.10.030]
29. Yang, C., Z. Shen, H. Chen, G. Zeng and Y. Zhong. 2006. Dual water distribution systems in China. Journal of water distribution systems analysis symposium, 20(11): 1-8, doi:10.1061/40941(247)137. [
DOI:10.1061/40941(247)137]
30. Yi, l., W. Jiao, X. Chen and W. Chen. 2011. An overview of reclaimed water reuse in China. Journal of Environmental Sciences, 23(10): 1585-1593. [
DOI:10.1016/S1001-0742(10)60627-4]