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Rainwater harvesting potential in a semiarid Southern California city
Author(s) -
Summerville Nathaniel,
Sultana Rebeka
Publication year - 2019
Publication title -
awwa water science
Language(s) - English
Resource type - Journals
ISSN - 2577-8161
DOI - 10.1002/aws2.1123
Subject(s) - rainwater harvesting , environmental science , storm , hydrology (agriculture) , water storage , drainage , watershed , water resource management , meteorology , geography , engineering , inlet , ecology , mechanical engineering , geotechnical engineering , machine learning , computer science , biology
To determine the rainwater capture potential in a small residential city located in semiarid Southern California, a model of the city's existing storm drainage system was developed using a watershed management model based on the U.S. Environmental Protection Agency's storm water management model. The model analyzes the effect of (1) 2‐ and 10‐year 24‐h storms and (2) dry, average, and wet climatic conditions under five different scenarios, considering (1) single rain barrel, (2) 5 rain barrels, (3) 7 rain barrels, (4) 10 rain barrels, and (5) a storage tank in each residential lot. Results show that, due to its fixed capacity, rain barrel(s) can only save a limited amount of water. A storage tank per lot increases rainwater capture efficiency, which can collect 19% of city's annual reclaimed water volume in an average climatic year. However, storage tanks can only be cost‐effective to residents through financial supports from local agencies.