Diagnosis and Solution of the Drinking Water Supply Network of the Municipality of Diembéring  

作　　者：Ndiouga Camara Ibrahima Diatta Lucie Andine Djitome Lamote Badiatte Séni Tamba Ndiouga Camara;Ibrahima Diatta;Lucie Andine Djitome Lamote Badiatte;Séni Tamba(UFR Engineering Sciences, University of This, This, Sngal;Ministry of Higher Education and Research, Polytechnic School of This, This, Sngal)

机构地区：[1]UFR Engineering Sciences, University of This, This, Sngal [2]Ministry of Higher Education and Research, Polytechnic School of This, This, Sngal

出　　处：《Computational Water, Energy, and Environmental Engineering》2024年第4期133-141,共9页水能与环境工程（英文）

摘　　要：Diembéring, a municipality in Ziguinchor region (with 21 villages) has a considerable deficit in drinking water supply to the population. And yet the sources of supply are not lacking. In this part of the region, the quality water supply rate remains very low. This article follows a process of collection, analysis and exploitation of data (hydrogeological, geomorphological, geological) obtained at the site level. Then, an evaluation of the population compared to the horizon of 2041 is carried out, which allows the estimation of the evolution of the necessary drinking water needs. The geographical and hydraulic criteria allowed us to subdivide the system into two very distinct networks: two multi-village adduction systems (SAEMV1 and SAEMV2) composed of two water towers of 200 m3 each for a HMT = 45 m, serving standpipes [1]. So, for [2]: • SAEMV1 (14 villages): the population is estimated at 10,400 inhabitants in 2041 and water needs are estimated at 365.849 m3/s;• SAEMV2 (07 villages): population is estimated at 38,354 inhabitants in 2041 and drinking water needs are estimated at 1,216.537 m3/s. As designed, this article is in line with the strategy that aims to promote access to drinking water as a means of reducing poverty [3].Diembéring, a municipality in Ziguinchor region (with 21 villages) has a considerable deficit in drinking water supply to the population. And yet the sources of supply are not lacking. In this part of the region, the quality water supply rate remains very low. This article follows a process of collection, analysis and exploitation of data (hydrogeological, geomorphological, geological) obtained at the site level. Then, an evaluation of the population compared to the horizon of 2041 is carried out, which allows the estimation of the evolution of the necessary drinking water needs. The geographical and hydraulic criteria allowed us to subdivide the system into two very distinct networks: two multi-village adduction systems (SAEMV1 and SAEMV2) composed of two water towers of 200 m3 each for a HMT = 45 m, serving standpipes [1]. So, for [2]: • SAEMV1 (14 villages): the population is estimated at 10,400 inhabitants in 2041 and water needs are estimated at 365.849 m3/s;• SAEMV2 (07 villages): population is estimated at 38,354 inhabitants in 2041 and drinking water needs are estimated at 1,216.537 m3/s. As designed, this article is in line with the strategy that aims to promote access to drinking water as a means of reducing poverty [3].

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分 类 号：TP3[自动化与计算机技术—计算机科学与技术]