Assessing Rainwater Harvesting Potential in Urban Areas: A Building Information Modelling (BIM) Approach

Assessing Rainwater Harvesting Potential in Urban Areas: A Building Information Modelling (BIM) Approach

Water scarcity has become a major problem for many countries, resulting in declining water supply and creating a need to find alternative solutions. One potential solution is rainwater harvesting (RwH), which allows rainwater to be stored for human needs. This study develops an RwH assessment system...

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Detalles Bibliográficos
Autores principales: Ahsen Maqsoom, Bilal Aslam, Sharjeel Ismail, Muhammad Jamaluddin Thaheem, Fahim Ullah, Hafiz Zahoor, Muhammad Ali Musarat, Nikolai Ivanovich Vatin
Formato: article
Lenguaje:EN
Publicado: MDPI AG 2021
Materias:
rainwater harvesting (RwH)
water demand
building information modeling (BIM)
hydrological investigation
sustainable drainage systems (SuDs)
residential buildings
Environmental effects of industries and plants
TD194-195
Renewable energy sources
TJ807-830
Environmental sciences
GE1-350
Acceso en línea:https://doaj.org/article/76b38526dc724289aa1fecd94e617490
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Sumario:Water scarcity has become a major problem for many countries, resulting in declining water supply and creating a need to find alternative solutions. One potential solution is rainwater harvesting (RwH), which allows rainwater to be stored for human needs. This study develops an RwH assessment system through building information modeling (BIM). For this purpose, a hydrological study of Cfa-type climate cities is conducted with the example of Islamabad, Pakistan. The monthly rainfall data of three sites were assessed to determine the volume of the accumulated rainwater and its potential to meet human needs. The average number of people living in a house is taken as the household number. Household number or of the number of employees working at a small enterprise, roofing material, and rooftop area are used as the key parameters for pertinent assessment in the BIM. The data simulated by BIM highlight the RwH potential using five people per house as the occupancy and a 90 m<sup>2</sup> rooftop area for residential buildings or small enterprises as parameters. The results show that the selected sites can collect as much as 8,190 L/yr of rainwater (48 L/person/day) to 103,300 L/yr of rainwater (56 L/person/day). This much water is enough to fulfill the daily demands of up to five people. Therefore, it is established that the study area has an RwH potential that is able to meet the expected demands. This study presents a baseline approach for RwH to address water scarcity issues for residential buildings and factories of the future.

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