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Philosophy of decentralized safe drinking water production
The main goal of teaching decentralized safe drinking water provision (e.g. this course) is to empower interested students to contribute to a paradigm shift in supplying very small (up to 500 inhabitants) and small (< 3000 inhabitants) with safe drinking water. No community with up to 3000 inhabitants should be supplied by piped water from a distant (larger) agglomeration (e.g. city). Moreover, the suitability of supplying large agglomerations by several small decentralized water production plants should be examined.
A specific goal of this course is to demonstrate, that for a reasonable scale, water treatment development and governance of safe drinking water can be technically and administratively devolved to the small community (e.g. village level). All what is required is an efficient, reliable and affordable technology, which is ideally chemistry free and easy to operate! The reality for developing countries is still that, virtually no affordable treatment technologies apart from disinfection (e.g. SODIS) are available. However, the best disinfection technology can not address chemical contamination as disinfection is designed to provoke a die-off of micro-organisms.
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Tebogo V. Siphambe, Abdurrahman Aliyu, Kawter Souadji, Samuel Ahana Bayongwa, Tiwangye Amans, Hermann Fomena-Tchinda, Pinisikin Yasmina Banaon, Ciniso Sizwe Gina, Hidayat Ame Vuai, Abdikadir Mohamud Farah, Adji Billo Niang, Abdelhak Taicha,
WATER SUPPLYno. 3 (2024): 812-834
Journal of Environmental Management (2024): 120566-120566
Environmental Chemistry Letterspp.1-19, (2024)
Waterno. 8 (2023): 1467-1467
Case Studies in Chemical and Environmental Engineering (2023): 100377-100377
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