References
- Abdelkhaleq, R. A., and I. A. Ahmed. 2007. “Rainwater Harvesting in Ancient Civilizations in Jordan.” Water SciTechnol 7: 85–93.
- Abdulla, F. A. 2011. Rainwater Harvesting in the Water and Sanitation Plumbing Code. Amman, Jordan: IDARA Project, Funded by USAID.
- Abdulla, F. A., and A. W. Al-Shareef. 2009. “Roof Rainwater Harvesting Systems for Household Water Supply in Jordan.” Desalination 243: 195–207. doi:10.1016/j.desal.2008.05.013.
- Abu-Zreig, M., A. Hazaymeh, and M. Shatanawi. 2013. “Evaluation of Residential Rainfall Harvesting Systems in Jordan.” Urban Water Journal 10 (2): 105–111.
- Al-Qadami, A., and F. A. Abdulla. 2018. “Regionalization of Precipitation in Jordan.” In Patterns and Mechanisms of Climate, Paleoclimate and Paleoenvironmental Changes from Low-Latitude Regions, edited by Z. Zhang, et al. Advances in Science, Technology & Innovation. doi:10.1007/978-3-030-01599-2_27.
- Appan, A. 1999. “Economic and Water Quality Aspects of rainwater Catchment System.” In Proc. Internat .Symp. Efficient Water Use in Urban Areas, 79. Osaka, Japan: UNEP Int.Environ. Tech. Center.
- Department of Statistics (DOS). 2015. Population and Housing Census 2015. Amman, Jordan. www.dos.gov.jo
- deVries, B. 1997. Umm El-Jimal. The Oxford Encyclopedia of Archaeology in the near East, 276–279. London: Oxford University Press.
- Ghisis, E., T. Da Fonsecai, and V. L. Rocha. 2009. “Rainwater Harvesting in Petrol Stations in Barasillia: Potential for Potable Water Saving and Investment Feasibility Analysis.” Resources, Conservation, and Recycling 54: 79–85. doi:10.1016/j.resconrec.2009.06.010.
- Guo, R., and Y. Guo. 2018. “Stochastic Modelling of the Hydrologic Operation of Rainwater Harvesting Systems.” Journal of Hydrology 562: 30–39. doi:10.1016/j.jhydrol.2018.04.062.
- Khastagir, A., and N. Jayasuriya. 2009. “Optimal Sizing of Rain Water Tanks for Domestic Water Conservation.” Journal of Hydrology 38: 181–188.
- Khastagir, A., and N. Jayasuriya. 2011. “Investment Evaluation of Rainwater Tanks.” Water Resources Management 25: 3769–3784. doi:10.1007/s11269-011-9883-1.
- Londra, P. A., A. T. Theocharis, E. Baltas, and V. A. Tsihrintxis. 2015. “Optimal Sizing of Rainwater Harvesting Tanks for Domestic Use in Greece.” Water Resources Management 29: 4357–4377. doi:10.1007/s11269-015-1064-1.
- Matos, C., C. Santos, S. Pereira, I. Bentes, and M. Imteaz. 2013. “Rainwater Storage Tank-sizing: Case Study of a Commercial Building.” International Journal of Sustainable Built Environment 2 (2): 109–118. doi:10.1016/j.ijsbe.2014.04.004.
- Matos, C., V. Sousa, and N. V. Carvalho. 2015. “Evaluation of Rainwater Harvesting in Portugal: Application to Single-family Residence.” Resource, Conservation, and Recycling 94: 21–34. doi:10.1016/j.resconrec.2014.11.004.
- Ministry of Water and Irrigation, (MWI). 2015. Annual Report, Ministry of Water and Irrigation. Amman, Jordan: Ministry of Water and Irrigation.
- Okoye, C. O., O. Solyali, and B. Akintug. 2015. “Optimal Sizing of Storage in Domestic Rainwater Harvesting Systems: A Linear Programming Approach.” Resources, Conservation and Recycling 104: 131–140. doi:10.1016/j.resconrec.2015.08.015.
- Oleson, J. P. 1995. The Origins and Design of Nabataean Water Supply System. Amman, Jordan: Studies in the historyand archaeology of Jordan, Department of Antiquities.
- Prinz, D. 1995. “Water Harvesting in the Mediterraneanenvironment—Its past Role and Future Prospect.” In Water Resources Management in theMediterranean under Drought of Water ShortageConditions, Internat.Symp., edited by N. Tsiourtis, 135–144. Nicosia, Cyprus: A. A BLAKEMA.
- Ripple, W. 1883. “The Capacity of Storage Reservoirs for Water Supply.” Proceeding of the Institution of Civil Engineers London 71: 270–278.
- Santos, S. M., M. Mariah, and M. W. Farias. 2017. “Potential for Rainwater Harvesting in a Dry Climate: Assessment in a Semiarid Region in Northeast Brazil.” Journal of Cleaner Production 164: 1007–1015. doi:10.1016/j.jclepro.2017.06.251.