%0 Journal Article %T Drinking Water Reuse: One-Step Closer to Overpassing the ¡°Yuck Factor¡± %A Djamel Ghernaout %A Noureddine Elboughdiri %A Saad Ghareba %J Open Access Library Journal %V 6 %N 11 %P 1-12 %@ 2333-9721 %D 2019 %I Open Access Library %R 10.4236/oalib.1105895 %X
Water shortage, because of either augmented domestication or climatic variability, has prompted nations to diminish stress on water supplies mostly via decreasing water demand. Nevertheless, this procedure entirely is not enough to ensure the quality of life that high-quality water services boost, particularly inside the case of augmented domestication. Intrinsically, the notion of water reuse (WR) has been reaching strength for the last few decades. Decision-makers require ready and reachable data concerning public attitudes toward WR to adopt convenient and sustainable resource management plans. Applying reclaimed infrastructure must concentrate firstly on usages with more important social acceptability, like street cleaning, car washing, irrigation of parks and athletic fields or toilet flushing. Acceptance of the usage of recycled water for other goals implementations, like food crop irrigation and watering of residential lawns may augment as public knowledge of the system expands. As inhabitants begin to be more usual with the techniques and global comprehension of the linked advantages of WR increases, officials, planners, and managers may encounter reduced objection to extra usages and attain bigger water savings via prolonged application of WR schedules. For potable WR, there is only one-step closer to overpassing the ¡°yuck factor¡±. However, great efforts remain to be accomplished in mater of hybrid water technologies to assure efficient pollutant removal. Finally, WR may be considered a safe tool to avoid water sources¡¯ contamination. In other words, treating wastewater at its source of generation before its expansion at the highest level of purity will avoid pollution expansion into nature: air, soil, and water. In this case and only in this case, the ¡°yuck factor¡± will be overpassed.
%K Water Shortages %K Water Reuse (WR) %K Wastewater Treatment %K Potable Water %K Yuck Factor %U http://www.oalib.com/paper/5423938