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International Journal of Academic Research in Progressive Education and Development

Open Access Journal

ISSN: 2226-6348

The Sustainable Development Goals 6: A Pilot Study on The Readiness of Bukit Perdana Residents Utilizing Recycled Wastewater as Potable and Non-Potable Water

Jurina Jaafar, Nur Aqilah Abdul Aziz, Zulhafizal Othman, Sharipah Ruzaina Syed Aris, Lee Wei Koon, Aminuddin Baki, Wan Abdul Rahim Wan Mohd Isa, Sharifah Abdullah, Hariestya Viareco

http://dx.doi.org/10.6007/IJARPED/v12-i1/14935

Open access

Sustainable water resources management and social rights for equitable safe water and sanitation are the focal point for long-term economic growth and productivity, health and education. By 2030, the Sustainable Development Goal (SDG) 6 that underlines the imperativeness of Clean Water and Sanitation aims at improving water quality by curtailing the rate and threat of pollution. This idea also aims at convincing the public on recycling water and safe water reuse. Indeed, global warming, water shortages, exponential growth of world’s population and water pollution have caused significant impact on availability of the water resource throughout the globe. The trend of recycling wastewater has become one of the alternatives to reduce the pressure on the consumption of water resources. The key implementation for recycled wastewater derives from the intensive work in ensuring recycled wastewater is accepted by the public. Ergo, the challenge of the implementation is to remove the stereotype perception on the quality of recycled wastewater. The objectives of this study are to determine the acceptance of adults and senior adults to utilize recycled wastewater in the form of potable and non-potable water and to determine the correlation between the respondents’ willingness in correspond to their age and education background. The survey was participated by the adults and senior adults’ residents of Taman Bukit Perdana, Johor Darul Tazim and the data collected was analyzed using IBM SPSS version 27. Observations have found 77% of the respondents are willing to utilize the recycled wastewater. Adults range age between 18 – 59 years old are more likely to support the utilization of recycled wastewater for both potable and non-potable water while senior adults’ of 60+ years old are obtuse and quite uninclined to accept the usage of reuse water. Meanwhile, respondents who possess basic or intermediate knowledge on environmental concerns, and those with tertiary education have the propensity to accept in utilizing recycled water in comparison with respondents who have little insight on environment issues and/or those of lower educational background. Addressing these challenges, it requires tremendous efforts to raise the awareness through education and integration for public participation and to work out a sustainable water resources management.

Altieri, D. (2016). The effects of overpopulation on water resources and water security. Department of Engineering, Swarthmore College. Available from fubini. swarthmore. edu/~ ENVS2/dan/Essay4. html.
Black, M. (2016). The atlas of water: mapping the World's most critical resource. Univ of California Press.
Chaudhry, F. N., & Malik, M. F. (2017). Factors affecting water pollution: a review. J Ecosyst Ecography, 7(225), 1-3.
Daghighi, A., Nahvi, A., Nazif, S., & Kim, U. (2020). Seeking substantiality: evaluation of public attitudes toward resilient wastewater reuse management. Journal of Water Management Modeling.
Garcia-Cuerva, L., Berglund, E. Z., & Binder, A. R. (2016). Public perceptions of water shortages, conservation behaviors, and support for water reuse in the U.S. Resources, Conservation and Recycling, 113, 106–115.
KENPRO. (2012). Sample Size Determination Using Krejcie and Morgan Table - Kenya Projects Organization [KENPRO]. Kenya Projects Organization [KENPRO].
Lahlou, F. Z., Mackey, H. R., McKay, G., & Al-Ansari, T. (2021). Reuse of treated industrial wastewater and bio-solids from oil and gas industries: Exploring new factors of public acceptance. Water Resources and Industry, 26, 100159.
Lazarova, V., Hills, S., & Birks, R. (2003). Using recycled water for non-potable, urban uses: a review with particular reference to toilet flushing. Water Supply, 3(4), 69–77.
McHugh, M. L. (2013). The Chi-square test of independence. Biochemia Medica, 23(2),143–149.
NASA. (2020). How Much Water Is on Earth? | NASA Space Place – NASA Science for Kids. Nasa.gov.
Nithyashri, J., & Kulanthaivel, G. (2012). Classification of human age based on Neural Network using FG-NET Aging database and Wavelets. 2012 Fourth International Conference on Advanced Computing (ICoAC).
Patterson, C. L., & Haught, R. C. (2021). Regulatory considerations to ensure clean and safe drinking water. Handbook of Water Purity and Quality, 93–135.
Postel, S. L. (2000). Entering an era of water scarcity: the challenges ahead. Ecological applications, 10(4), 941-948.
Semerjian, L., Shanableh, A., Semreen, M. H., & Samarai, M. (2018). Human health risk assessment of pharmaceuticals in treated wastewater reused for non-potable applications in Sharjah, United Arab Emirates. Environment International, 121, 325–331.
Strosser, P., Dworak, T., Delvaux, G. P. A., Berglund, M., Schmidt, G., Mysiak, J., ... & Ashton, V. (2012). Final Report Gap Analysis of the Water Scarcity and Droughts Policy in the EU European Commission. European Commission.
Van Vliet, M. T., Florke, M., & Wada, Y. (2017). Quality matters for water scarcity. Nature Geoscience, 10(11), 800-802.

In-Text Citation: (Jaafar et al., 2023)
To Cite this Article: Jaafar, J., Aziz, N. A. A., Othman, Z., Aris, S. R. S., Koon, L. W., Baki, A., Isa, W. A. R. W. M., & Abdullah, S., Viareco, H. (2023). The Sustainable Development Goals 6: A Pilot Study on The Readiness of Bukit Perdana Residents Utilizing Recycled Wastewater as Potable and Non-Potable Water. International Journal of Academic Research in Progressive Education and Development, 12(1), 1026–1034.