Empowering Traditional Education Institution Through the Implementation of Potable Water Provision System
DOI:
https://doi.org/10.31328/jsae.v4i2.2975Keywords:
empowering, financial independence, potable water, total dissolved solids, traditional education institutionsAbstract
The activity reported in this journal was aimed to empower the traditional education institutions commonly found and not formally financed by government of Indonesia. Empowering was carried out through the implementation of an action plan to ensure the potable water provision. Clean as well as potable water is indispensable for daily life and activities of students and teachers, especially those who were living and boarding in the school complex. The action was also potential to improve the financial independence of organization and to develop the entrepreneurship skills of students. The obtained tangible results of the action were in the form of production facility with ready-to-drink water quality of less than 10 ppm (parts per million) of total dissolved solids.References
M. O. Dinka, “Safe Drinking Water: Concepts, Benefits, Principles and Standards,†in Water Challenges of an Urbanizing World, IntechOpen Book Series, March 21st 2018.
“Drinking Water, Sanitation and Hygiene in Schools: Global baseline report 2018â€.
Istikomah, “Modernization Pesantren Toward Superior School,†Sidoarjo Muhammadiyah University, Indonesia, Link: http://eprints.umsida.ac.id/734/.
M. M. Solichin, “Pesantren Resistance to Modern Education System and It’s Implication to Culture of Learning: a Study on Pesantren Al-Is’af Kalabaan, Guluk-guluk, Sumenep, Jawa Timur,†ADDIN, Vol. 13, No. 1, February 2019.
H. F. Zarkasyi, “Imam Zarkasyi’s Modernization of Pesantren in Indonesia (A Case Study of Darussalam Gontor),†QIJIS (Qudus International Journal of Islamic Studies), Vol 8, No 1 (2020), pp. 161-200.
B. Budiwiranto, “Modernization and Pesantren Based Community Development in Indonesia,†Jawi Journal, Vol 2, No 1 (2019).
J. Radjenovic, M. Petrovic, F. Venturac, D. Barcelo, “Rejection of pharmaceuticals in nanofiltration and reverse osmosis membrane drinking water treatment,†Water Research, Vol. 42 (2008), pp. 3601-3610.
C. Bellona, J. Drewes, “The role of membrane surface charge and solute physico-chemical properties in the rejection of organic acids by NF membranes,†Journal of Membrane Science, Vol. 249, No. (1–2) (2005), pp. 227-234.
Kim, HJ., Tango, C.N., Chelliah, R. et al. Sanitization Efficacy of Slightly Acidic Electrolyzed Water against pure cultures of Escherichia coli, Salmonella enterica, Typhimurium, Staphylococcus aureus and Bacillus cereus spores, in Comparison with Different Water Hardness. Sci Rep 9, 4348 (2019).
Pérez-González, A., Urtiaga, A. M., Ibáñez, R., & Ortiz, I. (2012). State of the art and review on the treatment technologies of water reverse osmosis concentrates. Water research, 46(2), 267-283.
Anderton, Alecia and Watson, Kriesta, Knowledge Management: A Technology Transfer Perspective (August 30, 2018). 2018 Engaged Management Scholarship Conference: Philadelphia, PA.
