LARHYSS JOURNAL 1112-3680 / 2521-9782

An approach of rainwater harvesting (RWH) collected from the roof of a building provides the practical and effective utilization of rainwater which would ensure the availability and sustainable management of water. Instead of flat slabs, architects have designed attic and inverted slabs, which can serve the purpose of rainwater catchments and allow water to fall into dedicated catchment areas. Herein, the approach of rainwater collection through the core-cut method on a flat slab was analyzed on FLOW-3D based on the mean annual rainfall data of Karachi city, Pakistan. The results of the numerical simulation ensured that the developed harvesting system had the capability to capture and deliver the collected water into the storage tank. It has been noticed that between time 0 and 54 seconds, the value of the volume flow rate was 0, which indicated that the rainwater took time to accumulate prior to flowing into the cuts. After t = 54 seconds, a sudden increment in the volume flow rate was observed. This was due to the rainwater that accumulated on the roof and started to go through the cuts. However, after t = 70 seconds, the volume flow rate became steady and very minor fluctuations in the flow rate were noticed.

FARRENY R., MORALES-PINZÓN T., GUISASOLA A., TAYÀ C., RIERADEVALL J., GABARRELL X. (2011). Roof selection for rainwater harvesting: Quantity and quality assessments in Spain, Water Research, Vol. 45, Issue 1, pp. 3245-3254.

HELMREICH B., HORN H. (2009). Opportunities in rainwater harvesting. Desalination, Vol. 248, Issues 1-3, pp. 118-124.

HOSEINI A.G., TOOKEY J., HOSEINI A.G., YUSOOF M., HASSAN N.B. (2015). State of the art of rainwater harvesting systems towards promoting green built environments: a review, Desalination and Water Treatment, Vol. 57, Issue 1, pp. 95-104.

KUMAR P.G, PRIYANKA P.A., HIMAJA V.S.J., CHANDRIKA Y., SHALINI V. (2021). Rainwater harvesting - A review on conservation, creation & cost-effectiveness, Materials today: Proceedings, Vol. 45, Issue 5, pp. 6567-6571.

MEERA V., AHAMMED M.M. (2006). Water quality of rooftop rainwater harvesting systems: a review. Journal of Water Supply: Research and Technology-Aqua, Vol. 55, Issue 4, pp. 257-268.

PALLA. A., GNECCO I., LA BARBERA P. (2017). The impact of domestic rainwater harvesting systems in storm water runoff mitigation at the urban block scale, Journal of Environmental Management, Vol. 191, pp. 297-305.

SHAH S.M.H., AL-QADAMI E.H.H., QAMAR N., MUSTAFFA Z., MARTINEZ-GOMARIZ E., NATHANI A.A., BILAL M., TASIN M., ABDUR REHMAN M. (2021). Identification of a sustainable approach to conserve rainwater – a conceptual study, Global Conference on Wireless & Optical Technologies at Malaga, Spain.

ZHANG Q., WANG X., HOU P., WAN W., LI R., REN Y., OUYANG Z. (2014). Quality and seasonal variation of rainwater harvested from concrete, asphalt, ceramic tile and green roofs in Chongqing, China, Journal of Environmental Management, Vol. 132C, pp. 178-187.