This paper was aimed at reviewing the management, discharge and recycling of wastewater. In addition, the challenges and remediation processes for wastewater discharge were also discussed. Water is a substance of great importance to humans, animals and plants. Although a larger part of the earth is covered by water, its use has always been limited in terms of availability, quality and quantity. Water treatments are mainly for the removal of waste product from water in such a way that it can meet the standard for consumption. Environmental sustainability entails making decisions and actions in the relevance of protecting the natural world, with importance of preserving the competency of the environment to support human life. The increasing discharge of wastewater due to increase in population has led to the deterioration of the environment and threat to human health. Wastewater reuse is important in the irrigation of agricultural areas cause of the maintenance of water reservoirs and plants with nutrient which makes the request for fertilizers low. Generally of the considerable developments in water reuse have occurred in waterless regions of the world. One of the most potential for water reprocess is to restore freshwater burden of industries. The method that helps to minimize the discharge of residuals such as recycling wastewater, remediation measures, environmental awareness and sewage pollution control.
| Published in | Hydrology (Volume 3, Issue 3) |
| DOI | 10.11648/j.hyd.20150303.11 |
| Page(s) | 33-37 |
| Creative Commons |
This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited. |
| Copyright |
Copyright © The Author(s), 2024. Published by Science Publishing Group |
Wastewater Management, Sustainability, Wastewater Discharge, Water Quality
| [1] | Environmental Protection Agency (EPA) (2007).Primary, secondary and tertiary treatment. Wastewater Treatment Manuals, Ireland. Published by the Environmental Protection Agency: 11- 100. |
| [2] | Charania SH. (2005). Improving Demand and Supply of Water, 5th edition, pp72 -90, McGraw Hill books. |
| [3] | Kates R, Parris TM and Leiserowitz AA. (2005). What is sustainable development: goals, indicators, values and practice. Environment: Science and Policy for Sustainable Development, 47(3): 9–21. |
| [4] | Joanne MW, Linda MS, and Christopher JW. (2011). Prescott’s Microbiology 8, Singapore, and McGraw- Hill Education, pp.539-570. |
| [5] | Metcalf, X. & Eddy, X. 1999. Advanced Wastewater Treatment: In Wastewater Engineering, Treatment, Disposal and Re-use, 3rd edition. McGraw-Hill New York. |
| [6] | Jegatheesan V, Visuanattan C, and Aim RB. (2008). Advances in biological wastewater treatment. Available at: - http://www.faculty.ait.ac.th/visu/.../10/Book Chapter-Final.pdf. |
| [7] | Brooks DB, and Peters R. (2009). Water: the potential for demand management in Canada, Science Council of Canada Discussion Paper. |
| [8] | Gleick PH, Wolff G, Chalecki E, and Reyes R. (2002).The New Economy of water: The Risks and Benefits of Globalization and Privatization of Freshwater. Pacific Institute for studies in Development, Environment and Security: Oakland. |
| [9] | Biswas AK, Varis O, and Tortajada C. (2004). .Integrated water resource management in South and South-East Asia. Water resources Management Series. Oxford University Press, Oxford. |
| [10] | Christopher, H. (1988). William Dibdin and the idea of biological sewage treatment. Technology and Culture, 29(2): 189- 218. |
| [11] | Levy, Mark A, Esty, Daniel C. (2002).Measuring Nation’s Environmental Sustainability. In Environmental Performance Measurement; The Global Report 2001- 2002, Daniel Esty and Peter K. Cornelinus (editors). Oxford University Press, Oxford. |
| [12] | Omer, AAM, Ibrahim, MS, El-Haddad AA and Ali MHM. (2004): Environmental consequences of improper land application of sewage waste water disposal in Sohag, Egypt. Soil and ground water pollution. The Science Conference for Development and Environment in the Arab World, Egypt, March, 23-25. |
| [13] | Yale Centre for Environmental Law & Policy. (2002). Environmental sustainability index 2001-2002. New Haven. |
| [14] | Marks R. (2003). Development of Australia’s largest high quality effluent reuse scheme –Bolivar SA. Proceedings of. 11th IWSA-ASPAC Regional Conference. – Integrating the Urban Water Cycle, Sydney, November 1998, 564–570. |
| [15] | Schmidt WP and Cairncross S. (2007). Household water treatment in poor populations: is there enough evidence for scaling up now? Environmental science & technology, 43(4): 986-992. |
| [16] | Howard B. (2005).Laundry grey water potential impact on Toowoomba soils –Final Report, the National Centre for Engineering in Agriculture (NCEA). |
| [17] | Fewtrell L, Kaufmann R, Kay D, Enanoria W, Haller L, and Colford JM. (2004). Water, sanitation, and hygiene interventions to reduce diarrhoea in less developed countries: A systematic review and meta-analysis. Lancet Infectious Diseases, 5: 42-52. |
| [18] | Abdel-Jawad M, Ebrahim S, Al-Tabtabei M and Al-Shammari S. (1999). Advanced technologies for municipal wastewater purification: technical and economic assessment. Desalination, 124: 251-261. |
| [19] | Mori A. (1993). Treatment and recycling of sewage sludge in Tokohama. Proceedings of the 15th Federal Convention of Australian water and wastewater Association, pp. 682- 688. |
| [20] | Doran GF, Carini FH, Fruth DA, Drago JA, and Leong LYC. (1997). Evaluation of Technologies to Treat Oil Field Produced Water to Drinking Water or Reuse Quality. Paper SPE 38830 presented at the SPE Annual Technical Conference and Exhibition, San Antonio, Texas, 5-October. |
| [21] | CEPIS/OPS (1996). Calidad del agua: el agua. Centro Panamericano de Ingeniería Sanitariumsy Ciencias del Ambiente. Available from: http//www.cepis.ops-oms.org/eswww/caliagua/el agua.html. |
| [22] | Ringskog K. (1999). Private Sector Participation in Water Supply and Wastewater: Opportunities and Risks. World Bank: Washington D. |
| [23] | Thwaites LA, de Rooij GH, Salzman S, Allinson G, Stagnitti F, Carr R, Versace V, Struck S, March T. (2003). Near-surface distributions of soil water and water repellence under three effluent irrigation schemes in a blue gum (Eucalyptus globules) plantation. Agriculture and Water Management, 86: 212-219. |
| [24] | Hamilton AJ, Boland A, Steven D, Kelly J, Radcliffe J, Ziehrl A, Dillon P, Paulin B. (2005). Position of Australian horticultural industry with respect to the use of reclaimed water. Agricultural Water Management 71: 181-209. |
| [25] | Andrew J. Hamilton AJ, Boland A, Stevens D, Kelly J, Radcliffe J, Ziehrl A, Dillon P and Paulin B..(2005). Position of Australian horticultural industry with respect to the use of reclaimed water. Agricultural Water Management, 71: 181-209. |
| [26] | Muir R. (2006). The economics of recycling. Presentation at the Water Recycling and Infrastructure. Sydney: Synergies Economic Consulting. |
| [27] | Gleick PH. (1993). Water in crisis: a guide to the world’s fresh water resources. Oxford University Press, Oxford, pp. 473. |
| [28] | Ahmadun Fl, Pendashteh A, Abdullah LC, Biak DRA, Madaeni SS and Abidin ZZ. (2009). Review of technologies for oil and gas produced water treatment. Journal of Hazardous Materials, 170: 530-551. |
| [29] | Xu J, Song Y, Min B, Steinberg L, and Logan B. (2008).Microbial degradation of per chlorate: principles and applications. Environment Engineering Science, 20(5): 405- 422. |
| [30] | Rubalcaba A, Suarez-Ojeda ME, Stuber F, Fortuny A, Bengoa C, Metcalfe I, Font J, Carrera J, Fabregat A. (2007). Phenol wastewater remediation: advanced oxidation processes coupled to a biological treatment. Water Science and Technology, 55(12): 221-227. |
| [31] | Klassen A. (2007). Wastewater treatment. Safe Drinking Water Formulation, 12: 1-12. |
| [32] | Klein RD. (1979). Urbanization and stream quality impairment. Water Resources Bulletin, 15(4):948-963. |
| [33] | Wiesmann U. (1994).Biological nitrogen removal from wastewater. Advances in Biochemical Engineering and Biotechnology 51: 113- 154. |
| [34] | Hamby DM. (2000). Site remediation techniques supporting environmental restoration activities—a review. Science of the Total Environment, 191: 203-224. |
| [35] | Frank, Frangano, Carlos Linares, Harold Lockwood, Daniel Rivera, Andrew Trevett, and GuillermoYepes. (2005). Strategic Paper No. 1: Case Studies on Decentralization of Water Supply and Sanitation Services in Latin America. Prepared for the USAID Bureau for Latin America and the Caribbean. Environmental Health Project: Washington, D. C. |
APA Style
Akpor O. B., Kayode-Oni O. I, Babalola O. O. (2015). Wastewater Management, Recycling and Discharge. Hydrology, 3(3), 33-37. https://doi.org/10.11648/j.hyd.20150303.11
ACS Style
Akpor O. B.; Kayode-Oni O. I; Babalola O. O. Wastewater Management, Recycling and Discharge. Hydrology. 2015, 3(3), 33-37. doi: 10.11648/j.hyd.20150303.11
AMA Style
Akpor O. B., Kayode-Oni O. I, Babalola O. O. Wastewater Management, Recycling and Discharge. Hydrology. 2015;3(3):33-37. doi: 10.11648/j.hyd.20150303.11
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Download@article{10.11648/j.hyd.20150303.11,
author = {Akpor O. B. and Kayode-Oni O. I and Babalola O. O.},
title = {Wastewater Management, Recycling and Discharge},
journal = {Hydrology},
volume = {3},
number = {3},
pages = {33-37},
doi = {10.11648/j.hyd.20150303.11},
url = {https://doi.org/10.11648/j.hyd.20150303.11},
eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.hyd.20150303.11},
abstract = {This paper was aimed at reviewing the management, discharge and recycling of wastewater. In addition, the challenges and remediation processes for wastewater discharge were also discussed. Water is a substance of great importance to humans, animals and plants. Although a larger part of the earth is covered by water, its use has always been limited in terms of availability, quality and quantity. Water treatments are mainly for the removal of waste product from water in such a way that it can meet the standard for consumption. Environmental sustainability entails making decisions and actions in the relevance of protecting the natural world, with importance of preserving the competency of the environment to support human life. The increasing discharge of wastewater due to increase in population has led to the deterioration of the environment and threat to human health. Wastewater reuse is important in the irrigation of agricultural areas cause of the maintenance of water reservoirs and plants with nutrient which makes the request for fertilizers low. Generally of the considerable developments in water reuse have occurred in waterless regions of the world. One of the most potential for water reprocess is to restore freshwater burden of industries. The method that helps to minimize the discharge of residuals such as recycling wastewater, remediation measures, environmental awareness and sewage pollution control.},
year = {2015}
}
TY - JOUR T1 - Wastewater Management, Recycling and Discharge AU - Akpor O. B. AU - Kayode-Oni O. I AU - Babalola O. O. Y1 - 2015/09/26 PY - 2015 N1 - https://doi.org/10.11648/j.hyd.20150303.11 DO - 10.11648/j.hyd.20150303.11 T2 - Hydrology JF - Hydrology JO - Hydrology SP - 33 EP - 37 PB - Science Publishing Group SN - 2330-7617 UR - https://doi.org/10.11648/j.hyd.20150303.11 AB - This paper was aimed at reviewing the management, discharge and recycling of wastewater. In addition, the challenges and remediation processes for wastewater discharge were also discussed. Water is a substance of great importance to humans, animals and plants. Although a larger part of the earth is covered by water, its use has always been limited in terms of availability, quality and quantity. Water treatments are mainly for the removal of waste product from water in such a way that it can meet the standard for consumption. Environmental sustainability entails making decisions and actions in the relevance of protecting the natural world, with importance of preserving the competency of the environment to support human life. The increasing discharge of wastewater due to increase in population has led to the deterioration of the environment and threat to human health. Wastewater reuse is important in the irrigation of agricultural areas cause of the maintenance of water reservoirs and plants with nutrient which makes the request for fertilizers low. Generally of the considerable developments in water reuse have occurred in waterless regions of the world. One of the most potential for water reprocess is to restore freshwater burden of industries. The method that helps to minimize the discharge of residuals such as recycling wastewater, remediation measures, environmental awareness and sewage pollution control. VL - 3 IS - 3 ER -
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