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A Microsoft Excel Application to Simulate Water Harvesting in a Catchment

Document Type : Research Paper

Authors

1 Wageningen University and Research, Soil Physics and Land Management group, P.O.Box 47, 6700 AA Wageningen, The Netherlands.

2 University of Anbar, College of Engineering, Dams and Water ResourcesEngineering Department, Ramadi, Iraq.

3 Wageningen University and Research, Wageningen Environmental Research, P.O.Box 47, Wageningen, The Netherlands.

Abstract

Due to the climate change the efficient use of fresh water has become a hot issue. One of the ways to collect water that could otherwise be wasted, is the water harvesting technique. These techniques have been known for centuries and widely applied in the Middle East. This paper presents a simple and easy-to-use water-balance based rainwater harvesting model called WHCatch. It has been designed to investigate the effects of water harvesting on the catchment scale. The catchment is divided into several sub-catchments which can store water for the purpose of water harvesting. The model has been created as a simple Excel workbook with some VBA-code for the computations. Results are presented in the same workbook as separate worksheets. Graphical presentations are created automatically. The capabilities of the workbook are presented and examples of in- and output are shown. Due to its flexibility, the model is suitable to show the effects of climate change as well. It is especially suitable to visualize the effects of measures.

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References
Adham, A., Wesseling, J.G., Riksen, M., Ouessar, M. & Ritsema, C.J. (2016). A water harvesting model for optimizing rainwater harvesting in the wadi Oum Zessar watershed, Tunisia. Agricultural Water Management, 176, 191–202.
Adham, A., Sayl, K.N., Abed, R., Abdeladhim, M.A., Wesseling, J.G., Riksen, M., Fleskens, L., Karim, U. & Ritsema, C.J. (2018). A GIS-based approach for identifying potential sites for harvesting rainwater in the Western Desert of Iraq. A GIS-based approach for identifying potential sites for harvesting rainwater in the Western Desert of Iraq. International Soil and Water Conservation Research, 6, 4, 297-304.
Adham, A., Wesseling, J.G., Riksen, M., Ouessar, M., Ritsema, C.J. (2019). Assessing the Impact of Climate Change on Rainwater Harvesting in the Oum Zessar Watershed in Southeastern Tunisia. Agricultural Water Management, 221, 131-140.
Chauvin, G.M., Flerchinger, G.N., Link, T.E., Marks, D., Winstral, A.H. & Seyfried, M.S. (2011). Long-term water balance and conceptual model of a semi-arid mountainous catchment. Journal of Hydrology, 400, 133–143. doi:10.1016/j.jhydrol.2011.01.031[4]
Critchley, W. & Siegert, K. (1991). Water harvesting manual. FAO Paper AGL/MISC/17/91.  Food and Agriculture Organisation of the United Nations,  Rome, Italy.
Dixon, A.M. (2000). Simulation of domestic water re-use systems: greywater and rainwater in combination. Imperial College London (University of London).
Fentaw, B., Alamerew, E. & Ali, S. (2002). Traditional rainwater harvesting systems for food production: the case of Kobo Wereda, northern Ethiopia. GHARP case study report. Greater Horn of Africa Rainwater Partnership (GHARP), Kenya Rainwater Association, Nairobi, Kenya. UK (Doctoral dissertation, Nottingham Trent University).
Fewkes, A. (2000). Modelling the performance of rainwater collection systems: towards a generalised approach. Urban water, 1, 323–333
Fewkes, A. (2004). The modelling and testing of a rainwater catchment system in the UK. Doctoral dissertation, Nottingham Trent University, U.K.
Ghisi, E., Bressan, D.L. & Martini, M. (2007). Rainwater tank capacity and potential for potable water savings by using rainwater in the residential sector of southeastern Brazil. Building and Environment, 42, 1654–1666.
Gould, J. (1999). Contributions relating to rainwater harvesting. Contribution to the World Commission on Dams, Thematic Review IV 3.
Gregersen, H.M., Ffolliott, P.F. & Brooks, K.N. (2007). Integrated watershed management: connecting people to their land and water. Cambridge University Press, Cambridge, U.K. 201 p.
Grum, B., Woldearegay, K., Hessel, R., Baartman, J.E.M., Abdulkadir, M., Yazew, E., Kessler, A., Ritsema, C.J. & Geissen, V. (2017). Assessing the effect of water harvesting techniques on event-based hydrological responses and sediment yield at a catchment scale in northern Ethiopia using the Limburg Soil Erosion Model (LISEM). Catena, 159, 20-34. doi: 10.1016/j.catena.2017.07.018.
Hudson, N. (1987). Soil and water conservation in semi-arid areas. Food and Agriculture Organisation of the United Nations. 172 p.
Kim, K. & Yoo, C. (2009). Hydrological modeling and evaluation of rainwater harvesting facilities: case study on several rainwater harvesting facilities in Korea. Journal of Hydrologic Engineering, 14, 545–561.
Kim, Y. & Han, M. (2006). A Rainfall-Storage-Runoff (RSR) model for the design of a rainwater tank effective for flow control in urban drainage pipes. In: Proceedings of the 2nd IWA international rainwater harvesting workshop.
Machiwal, D. & Jha, M.K. (2012). Hydrologic time series analysis: theory and practice. Springer Science, Business Media.
Ouessar, M., (2007). Hydrological Impacts of Rainwater Harvesting in Wadi OumZessar Watershed (Southern Tunisia). Ph.D.-thesis, Ghent University, Belgium. 154 pp.
Oweis, T., Oberle, A. & Prinz, D. (1998). Determination of potential sites and methods for water harvesting in central Syria. Towards sustainable land use. Bonn, Germany, 26-Germany, 30.
Press, W.H., Flannery, B.P., Teukolsky, S.A. & Vetterling, W.T. (1986). Numerical Recipes: The Art of Scientific Computing. Cambridge University Press, Cambridge, U.K.
Roebuck, R.M. & Ashley, R.M. (2007). Predicting the hydraulic and life-cycle cost performance of rainwater harvesting systems using a computer based modelling tool. Water Practice and Technology 2, wpt2007046.
Rossman, L.A. (2015). Storm Water Management Model User’s Manual Version 5.1. National Risk Management Research Laboratory, Office of Research and Development, U.S. Environmental Protection Agency, Cincinnati, Ohio, U.S.A. Report  EPA/600/R-14/413b, www2.epa.gov/water-research. 353 p.
Stott, D.E., Mohtar, R.H. & Steinhardt, G.C. (2001). Water conservation, harvesting and management (WCHM)-Kenyan experience.
Tadesse, N., Tadios, S. & Tesfaye, M. (2010). The water balance of May Nugus catchment, Tigray, Northern Ethiopia. International Journal of Earth Sciences and Engineering, 3, 609–625.
Vaes, G. & Berlamont, J. (2001). The effect of rainwater storage tanks on design storms. Urban Water, 3, 303–307.
Verbist, K.M.J., Pierreux, S., Cornelis, W.M., McLaren, R. & Gabriels, D. (2011). Parameterizing a coupled surface-subsurface three-dimensional soil hydrological model to evaluate the efficiency of a runoff water harvesting technique. Vadose Zone Journal. Doi:10.2136/vzj2011.0141.
Ward, S., Memon, F. A. & Butler, D. (2010). Rainwater harvesting: model-based design evaluation. Water Science and Technology, 61, 1, 85-96.
Ye, L., Hanson, L. S., Ding, P., Wang, D., and Vogel, R. M.: The probability distribution of daily precipitation at the point and catchment scales in the United States, Hydrol. Earth Syst. Sci., 22, 6519–6531, https://doi.org/10.5194/hess-22-6519-2018, 2018
Zhang, L., Hickel, K. & Shao, Q. (2005). Water Balance Modelling Over Variable Time Scales. Modsim 2005: International Congress on Modelling and Simulation: Advances and Applications for Management and Decision Making, Proceedings, 2988–2994.
Ziadat, F., Bruggeman, A., Oweis, T., Haddad, N., Mazahreh, S., Sartawi, W. & Syuof, M. (2012). A Participatory GIS Approach for Assessing Land Suitability for Rainwater Harvesting in an Arid Rangeland Environment. Arid Land Research and Management, 26:4, 297–311. doi:10.1080/15324982.2012.709214
 
Water Harvesting Research
Volume 4, Issue 1
April 2021
Pages 1-18
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