Bibliographic citations
Bustamante, L., Saavedra, C. (2024). Estudio para abastecimiento de agua poblacional de precipitaciones pluviales en Urbanización popular 26 de Enero, Jíbito, Sullana, Piura [Tesis, Universidad Privada Antenor Orrego]. https://hdl.handle.net/20.500.12759/18471
Bustamante, L., Saavedra, C. Estudio para abastecimiento de agua poblacional de precipitaciones pluviales en Urbanización popular 26 de Enero, Jíbito, Sullana, Piura [Tesis]. PE: Universidad Privada Antenor Orrego; 2024. https://hdl.handle.net/20.500.12759/18471
@misc{renati/372702,
title = "Estudio para abastecimiento de agua poblacional de precipitaciones pluviales en Urbanización popular 26 de Enero, Jíbito, Sullana, Piura",
author = "Saavedra Ferrer, Carlos Raúl",
publisher = "Universidad Privada Antenor Orrego",
year = "2024"
}
The vast majority of water on our planet is saline, accounting for 97.5%, while only a small percentage of 2.5% is freshwater, which is essential for our survival. Unfortunately, this small percentage is gradually diminishing. Many companies require large amounts of freshwater, and the increasing water tariffs have a negative economic impact on the population. Accessing water services often comes at a high price or is unavailable in many areas due to its scarcity. We have chosen the topic titled ““Study on Rainwater Harvesting for Population Water Supply in Urb. Popular 26 de enero.““ This project aims to provide a significant solution to the problem by serving as a conservation measure for this valuable resource and as a supplement to the regular water supply used on a daily basis. As background for our research, we refer to the project conducted by Martinez (2015), which aimed to promote sustainable urban development through the implementation of comprehensive rainwater management systems in urban contexts. Additionally, the research by Ullate (2011) highlights the efficiency of water retention methods for common and necessary uses without unnecessary effort. This study presented valuable insights into the subject. The strategy of rainwater harvesting, also known as pluvial collection, involves the collection and retention of water derived from precipitation. This captured resource can be utilized to meet our daily needs and for agricultural purposes. By adopting this practice, excessive use of groundwater can be significantly reduced, minimizing water wastage. The harvested water can be treated for potable use through filtration. In arid climates where water scarcity is prominent, this practice has gained increased consideration. Numerous companies require substantial amounts of water, and the rising water tariffs affect their economic balance. However, implementing an efficient rainwater harvesting system can offset these expenses and reduce the economic impact. In fact, rainwater harvesting has the potential to reduce up to 50% of the everyday consumption of potable water in households. While rainwater collection may not provide a comprehensive solution for all requirements, it serves as an effective measure for conserving this valuable resource. It acts as a supplementary approach to the regular water supply. Nonetheless, it represents a significant contribution to solving everyday problems and improving environmental well-being. Currently, numerous rural areas rely on rainwater collection as a crucial means to meet the demands of large cities, where water consumption exceeds availability. This issue is further exacerbated by transformations caused by climate change
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