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Water Disposal - Groundwater Recharge

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~~[[Image:Icon_water_disposal_groundwater_recharge.png |right|95px]]~~ ~~'''Treated effluent and/or stormwater can be discharged directly into receiving water bodies (such as rivers, lakes, etc.) or into the ground to recharge aquifers.'''~~----

It is necessary to ensure that the assimilation capacity of the receiving water body is not exceeded, i.e. that the receiving body can accept the quantity of nutrients without being overloaded. Parameters such as turbidity, temperature, suspended solids, BOD, nitrogen and phosphorus (among others) should be carefully controlled and monitored before releasing any water into a natural body. The use of the water body, whether it is used for industry, recreation, spawning habitat, etc., will influence the quality and quantity of treated wastewater that can be introduced without deleterious effects[[Image:Icon_water_disposal_groundwater_recharge.png |right|80px]]

Local authorities should be consulted to determine the discharge limits for the relevant parameters as they can vary widely. For especially sensitive areas, chlorination may be required to meet microbiological limits. Alternatively, water '''Treated effluent and/or stormwater can be directly discharged into ~~aquifers. Groundwater recharge is increasing in popularity~~ receiving water bodies (such as ~~groundwater resources deplete and as saltwater intrusion becomes a greater threat to coastal communities. Although the soil is known to act as a filter for a variety of contaminants~~rivers, ~~groundwater recharge should not be viewed as a treatment method. Once an aquifer is contaminated~~lakes, ~~it is next to impossible to reclaim it~~etc. ~~The quality of water extracted from a recharge aquifer is a function of~~ ) or into the ~~quality of the wastewater introduced, the method of~~ ground to recharge~~, the characteristics of the aquifer, the residence time, the amount of blending with other waters and the history of the system. Careful analysis of these factors should precede any recharge project~~aquifers.'''

~~{{procontable | pro=- May provide a ‘drought-proof’ water supply (from groundwater).~~ ~~- May increase productivity~~ The use of the surface water~~-bodies by maintaining constant levels~~body, whether it is for industry, recreation, spawning habitat, etc. ~~| con=- Discharge~~ , will influence the quality and quantity of ~~nutrients and micropollutants may affect natural~~ treated wastewater that can be introduced without deleterious effects. Alternatively, water ~~bodies~~ can be discharged into aquifers. Groundwater recharge is increasing in popularity as groundwater resources deplete and~~/or drinking water~~as saltwater intrusionbecomes a greater threat to coastal communities. ~~ - Introduction~~ Although the soil is known to act as a filter for a variety of ~~pollutants may have long-term impacts~~contaminants, groundwater recharge should not be viewed as a treatment method. ~~ - R May negatively affect soil and groundwater properties~~Once an aquifer is contaminated, it is next to impossible to reclaim it.}}

==~~Adequacy~~=Design Considerations=== It is necessary to ensure that the assimilation capacity of the receiving water body is not exceeded, i.e. that the receiving body can accept the quantity of nutrients without being overloaded. Parameters such as turbidity, temperature, suspendedsolids, BOD, nitrogen and phosphorus (among others) should be carefully controlled and monitored before releasing any water into a natural body. Local authorities should be consulted to determine the discharge limits for the relevant parameters as they can widely vary. For especially sensitive areas, a post-treatment technology (e.g., [[HWTS - Chemical - general|chlorination]], see POST, p. 136) may be required to meet microbiological limits.

The ~~adequacy~~ quality of ~~discharge into~~ water extracted from a ~~water body or~~ recharged aquifer ~~will depend entirely on~~ is a function of the quality of the ~~local environmental conditions and legal regulations. Generally~~wastewater introduced, ~~discharge to a water body is only appropriate when there is a safe distance between~~ the ~~discharge point and~~ method of recharge, the ~~next closest point~~ characteristics of ~~use. Similarly~~the aquifer, ~~groundwater recharge is most appropriate for areas that are at risk from salt water intrusion or aquifers that have a long retention~~ the residence time~~. Depending on the volume~~, the ~~point~~ amount of ~~discharge~~ blending with other waters and~~/or~~ the ~~quality~~ history of the ~~water, a permit may be required~~system. Careful analysis of these factors should precede any recharge project.

{{procontable | pro=- May provide a ‘drought-proof’ water supply (from groundwater) - May increase productivity of water bodies by maintaining constant levels| con=~~Health Aspects~~- Discharge of nutrients and micropollutants may affect natural water bodies and/~~Acceptance==~~or drinking water - Introduction of pollutants may have long-term impacts - May negatively affect soil and groundwater properties}}

===Appropriateness=== The adequacy of discharge into a water body or aquifer will entirely depend on the local environmental conditions and legal regulations. Generally, ~~cations (Mg2+, K+, NH4 +)~~ discharge to a water body is only appropriate when there is a safe distance between the discharge point and ~~organic matter will be retained within a solid matrix, while other contaminants (such as nitrates) will remain in~~ the ~~water~~next closest point of use. ~~There~~ Similarly, groundwater recharge is most appropriate for areas that are ~~numerous models for~~ at risk of saltwater intrusion or aquifers that have a long retention time. Depending on the volume, the ~~remediation potential~~ point of ~~contaminants~~ discharge and ~~microorganisms, but predicting downstream,~~ /or ~~extracted water~~ the quality ~~for a large suite~~ of ~~parameters is rarely feasible. Therefore, potable and non-potable~~ the water ~~sources should be clearly identified~~, ~~the most important parameters modelled and~~ a ~~risk assessment completed~~permit may be required.

==~~Maintenance~~=Health Aspects/Acceptance=== Generally, cations (Mg2+, K+, NH4 +) and organic matter will be retained within a solid matrix, while other contaminants (such as nitrates) will remain in the water. There are numerous models for the remediation potential of contaminants and microorganisms, but predicting downstream or extracted water quality for a large suite of parameters is rarely feasible. Therefore, potable and nonpotable water sources should be clearly identified, the most important parameters modelled and a risk assessment completed.

===Operation & Maintenance===

Regular monitoring and sampling is important to ensure compliance with regulations and to ensure public health requirements. Depending on the recharge method, some mechanical maintenance may be required.

==~~Acknowledgements~~=References==={{* ARGOSS (2001). [https:~~Acknowledgements~~ //www.susana.org/en/knowledge-hub/resources-and-publications/library/details/1926 Guidelines for Assessing the Risk to Groundwater from on-Site Sanitation}}]. British Geological Survey Commissioned Report, CR/01/142, Keyworth, UK.

~~==References~~ * Seiler, K. P. and ~~external links==~~Gat, J. R. (2007). Groundwater Recharge from Runoff, Infiltration and Percolation. Springer, Dordrecht, NL. (Book)

* ~~ARGOSS~~ Tchobanoglous, G., Burton, F. L. and Stensel, H. D. (~~2001~~2004). ~~Guidelines for assessing the risk to groundwater from on-site sanitation~~Wastewater Engineering: Treatment and Reuse, Metcalf & Eddy, 4th Ed. (Internat. ~~British Geological Survey Commissioned Report, CR/01/142~~Ed. ~~Available: http://www~~).~~worldbank~~McGraw-Hill, New York, US.~~org~~(Book)

* ~~Seiler, KP~~WHO (2006). ~~and Gat, JR~~[https://www. ~~(2007)~~who. ~~Groundwater Recharge from Run-off~~int/water_sanitation_health/publications/gsuweg3/en/ Guidelines for the Safe Use of Wastewater, ~~Infiltration~~ Excreta and ~~Percolation~~Greywater. ~~Springer~~Volume 3: Wastewater and Excreta Use in Aquaculture]. World Health Organization, Geneva, ~~The Netherlands~~CH.

* ~~Tchobanoglous, G~~[http://www.~~, Burton, FL~~who. int/water_sanitation_health/publications/guidelines-on-sanitation-and ~~Stensel, HD. (2003). Wastewater Engineering~~-health/en/ WHO: ~~Treatment~~ Guidelines on sanitation and ~~Reuse, 4th Edition. Metcalf & Eddy, New York.~~health - 2018]

* WHO (2006). Guidelines for the safe use of wastewater, excreta and greywater- Volume 3===Acknowledgements==={{: ~~Wastewater and excreta use in aquaculture. WHO, Geneva.~~Acknowledgements Sanitation}}

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