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Evaluation of the operational effectiveness and feasibility of small-scale water supply systems in the hinterlands in Ethiopia : case of Afar Regional State

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Access to clean and sufficient drinking water is difficult in much of Ethiopia’s Afar Region. It is observed that many schemes in the region are non-functional. The study was conducted to overcome the observed problem in seven selected districts of the region. The study regarded hand-dug wells and roof water collection systems, which are the two most common features in the research areas. Eight hand-dug wells and sixteen roof water harvestings are purposively included in the study. All the water points are constructed by Kelem Ethiopia which is a non-governmental organisation and the foremost local organisation for the communities. As per the research survey, the average functional status of the hand-dug well schemes is 65.75% and the roof water harvesting schemes is 22.94%. The research was based on the qualitative data collected on site. The hand-dug well sites were evaluated using 10 parameters, and the roof water harvesting schemes were analysed using 12 parameters. The main non-functional aspects of the scheme are lack of community ownership, drying up of water sources, lack of maintenance and rehabilitation, poor coordination of beneficiaries and school roofs blowing off. Most schemes still require minor to major maintenance and rehabilitation. According to the research, the solutions for water supply are identified in relation to the desired objective.
Wydawca
Rocznik
Tom
Strony
220--228
Opis fizyczny
Bibliogr. 33 poz., fot., rys., tab., wykr.
Twórcy
  • Debre Berhan University, Department of Civil Engineering, Debre Berhan, PO Box 445, Ethiopia
Bibliografia
  • ABBOTT S.P. 2001. Hand dug wells: Choice of technology and construction manual. Washington D.C. World Bank Group pp. 58.
  • ADMASSU M., KUMIE A., FANTAHUN M. 2003. Sustainability of drinking water supply projects in rural of North Gondar, Ethiopia. Ethiopian Journal of Health Development. Vol. 17(3) p. 221–229.
  • ADUGNA D., JENSEN M.B., LEMMA B., GEBRIE G.S. 2018. Assessing the potential for rooftop rainwater harvesting from large public institutions. International Journal of Environmental Research and Public Health. Vol. 15(2), 336 p. 1–11. DOI 10.3390/ijerph15020336.
  • APER J.A., AGBEHI S.I. 2011. The determining factors of rural water supply pattern in Ugbokolo Community, Benue State – Nigeria. Journal of Sustainable Development. Vol. 4(2) p. 225–233. DOI 10.5539/jsd.v4n2p225.
  • BEYENE H.A. 2012. Factors affecting the sustainability of rural water supply systems: The case of Mecha Woreda, Amhara Region, Ethiopia. Unpublished Thesis. Ithaca. Cornell University pp. 64.
  • BISWAS B.K., MANDAL B.H. 2014. Construction and evaluation of rainwater harvesting system for domestic use in a remote and rural area of Khulna, Bangladesh. International Scholarly Research Notices. Vol. 2014, 751952 p. 1–6. DOI 10.1155/2014/751952.
  • CALOW R.C., LUDI E., TUCKER J. 2013. Achieving water security: Lessons from research in water supply, sanitation and hygiene in Ethiopia. Rugby, UK. Practical Action Publishing. ISBN 9781780447643 pp. 225.
  • CLAYTON C.R., SIMONS N.E., MATTHEWS M.C. 1995. Site investigation. 2nd ed. London. Granada. ISBN 0632029080 pp. 584.
  • COCHRANE L., COSTOLANSKI P. 2013. Climate change vulnerability and adaptability in an urban context: A case study of Addis Ababa, Ethiopia. International Journal of Sociology and Anthropology. Vol. 5(6) p. 192–204. DOI 10.5897/IJSA2013.0459.
  • DAS V.M., MISHRA B.L., BANDYOPADHYAYA V., SAMANTA D. 2013. Assessment of rural drinking water supply services for the rural water supply and sanitation program for Bihar. Patna, India. Chandragupt Institute of Management Patna pp. 32 + 252.
  • DENISON J.A., WOTSHELA L. 2012. An overview of indigenous, indigenised and contemporary water harvesting and conservation practices in South Africa. Irrigation and Drainage. Vol. 61(52) p. 7–23. DOI 10.1002/ird.1689.
  • DESALEGN W.B. 2005. Water supply coverage and water loss in distribution systems: The case of Addis Ababa. MSc Thesis. The Netherlands. International Institute for Geo-information Science and Earth Observation Enschede pp. 9 + 90.
  • FAN L., LIU G., WANG F., GEISSEN V., RITSEMA C.J. 2013. Factors affecting domestic water consumption in rural households upon access to improved water supply. Insights from the Wei River Basin, China. PLoS ONE. Vol. 8(8), e71977 p. 1–9. DOI 10.1371/journal.pone.0071977.
  • GOYAL R. 2014. Rooftop rainwater harvesting: Issues and challenges. Indian Plumbing Today. 125 Collector’s Edition p. 1–9.
  • HARTER T. 2003. Water well design and construction. ANR Publication 8086. FWQP Reference Sheet 11.3. UC ANR Publications. ISBN 978-1-60107-261-0 pp. 6.
  • JEANC HARLES M. 2007. Rainwater harvesting systems for communities in developing countries. MSc Thesis. Michigan Technological University pp. 69.
  • KAMANGA A., MHANGO J., VELDMAN R. 2018. Assessment of the functionality of rope pumps for sustainable water supply in rural areas of Malawi. Transformation towards sustainable and resilient WASH services: Proceedings of the 41 st WEDC International Conference, Nakuru, Kenya, 9–13 July 2018, paper 3041 pp. 6.
  • KIBRET F.D., TULU F.D. 2014. Challenges of potable water supply system in rural Ethiopia: The case of Gonji Kolela Woreda, West Gojjam zone, Ethiopia. Natural Resources and Conservation. Vol. 2(4) p. 59–69. DOI 10.13189/nrc.2014.020402.
  • KOMEH Z., MEMARIAN H., TAJBAKHSH S.M. 2017. Reservoir volume optimization and performance evaluation of rooftop catchment systems in arid regions: A case study of Birjand, Iran. Water Science and Engineering. Vol. 10(2) p. 125–133. DOI 10.1016/j.wse.2017.05.003.
  • LIU W., ZHAO M., XU T. 2018. Water poverty in rural communities of arid areas in China. Water. Vol. 10(4), 505 p. 1–16. DOI 10.3390/w10040505.
  • LOH M., COGHLAN P. 2003. Domestic water use study in Perth, Western Australia. 1998–2001. Perth. Water Corporation. ISBN 1740431235 pp. 33.
  • MTAHABWA L. 2018. Early childhood care and education in waterscarcity villages in Tanzania: The Case of Ng’hong’onha Village, Dodoma. Journal of Humanities & Social Science. Vol. 7. No. 1.
  • MWAMILA T.B., HAN M.Y., KATAMBARA Z. 2016. Strategy to overcome barriers of rainwater harvesting, case study Tanzania. Journal of Geoscience and Environment Protection. Vol. 4(9) p. 13–23. DOI 10.4236/gep.2016.49002.
  • NDIRITU J., ILEMOBADE A., KAGODA P. 2018. Guidelines for rainwater harvesting system design and assessment for the city of Johannesburg, South Africa. Proceedings of the International Association of Hydrological Sciences. No. 379 p. 409–414. DOI 10.5194/piahs-379-409-2018.
  • PWC, MIWR – GONU, MWRI – GOSS, in partnership with UNICEF 2009. Technical guidelines for the construction and management of hand dug well hand pumps. A manual for field staff and practitioners. South Sudan. Public Water Corporation, Ministry of Irrigation and Water Resources – Government of National Unity, Ministry of Water Resources and Irrigation – Government of Southern Sudan, in partnership with United Nations Children’s Fund pp. 78.
  • SINGH R., WORKU M., BOGALE S., CULLIS A., ADEM A., IRWIN B., LIM S., BOSI L., VENTON C.C. 2016. Reality of resilience: Perspectives of the 2015–16 droughts in Ethiopia. Building resilience and adaptation to climate extremes and disasters. Resilience intel 6 pp. 28.
  • TADESSE A., BOSONA T., GEBRESENBET G. 2013. Rural water supply management and sustainability: The case of Adama Area, Ethiopia. Journal of Water Resource and Protection. Vol. 5(2) p. 208–221. DOI 10.4236/jwarp.2013.52022.
  • TAMADDUN K., KALRA A., AHMAD S. 2018. Potential of rooftop rainwater harvesting to meet outdoor water demand in arid regions. Journal of Arid Land. Vol. 10(1) p. 68–83. DOI 10.1007/s40333-017-0110-7.
  • TWDB 2005. The Texas manual on rain water harvesting. 3 rd ed. Austin, Texas. Texas Water Development Board pp. 88.
  • WAKTOLA D.K. 2007. Rainwater harvesting in Ethiopia: Capturing realities and harnessing opportunities. Conference: Rainwater and Urban Design 2007. Barton. Engineers Australia p. 484–491.
  • WHO, UNICEF 2017. Progress on drinking water, sanitation and hygiene: 2017 update and SDG baselines. Geneva. World Health Organization and the United Nations Children’s Fund. ISBN 978-92-4-151289-3 pp. 109.
  • WOLTERSDORF L. 2010. Sustainability of rainwater harvesting systems used for gardening in the context of climate change and IWRM: An example from the Cuvelai-Etosha Basin in Namibia. MSc Thesis. Frankfurt am Main, Germany. Johann Wolfgang Goethe University of Frankfurt pp. 111 + 16.
  • ZHANG Z., LU W.X., ZHAO Y., SONG W.B. 2014. Development tendency analysis and evaluation of the water ecological carrying capacity in the Siping area of Jilin Province in China based on system dynamics and analytic hierarchy process. Ecological Modeling. Vol. 275 p. 9–21. DOI 10.1016/j.ecolmodel.2013.11.031.
Uwagi
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-a7814ded-a647-4368-aeda-b213d96af42b
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