Quantifying aquifer water balance and salinity dynamics to minimise environmental impacts of a land‐based effluent treatment system in China
Identifieur interne : 007202 ( Main/Exploration ); précédent : 007201; suivant : 007203Quantifying aquifer water balance and salinity dynamics to minimise environmental impacts of a land‐based effluent treatment system in China
Auteurs : S. Khan [France] ; A. Ahmad [Australie] ; L. Zhaoqing [République populaire de Chine] ; T. Rana [Australie] ; J. Mu [Australie] ; J. Blackwell [Australie] ; N. Jayawardane [Australie]Source :
- Irrigation and Drainage [ 1531-0353 ] ; 2010-12.
Descripteurs français
- Wicri :
- topic : Droit d'auteur, Eau souterraine, Irrigation, Polluant, Simulation, Eau usée, Ressource en eau.
English descriptors
- KwdEn :
- Annual water budget, Aquifer, Baideng river, Centre, Charles sturt university, China figure, Conceptual model, Copyright, Csiro, Csiro land, Drainage water, Eaux, Eaux souterraines, Effluent treatment system, Experimental filter site, Filter, Filter area, Filter operation, Filter operations, Filter plot, Filter plots, Filter site, Filter system, Filter technique, Filtre, Food security, Groundwater, Groundwater depth, Groundwater impacts, Groundwater levels, Groundwater model, Groundwater modelling, Groundwater salinity, Groundwater storage, Groundwater system, Hydraulic loading, Hydrogeological, Hydrogeological parameters, Hydrographs, Initial increase, Intensive irrigation, International centre, Irrig, Irrigated, Irrigation, Irrigation application, Irrigation area, Irrigation plot, Irrigation water, Jayawardane, John wiley sons, Land treatment, Lateral, Lateral groundwater, Maximum groundwater rise, Minimising, Minimising groundwater impacts, Model domain, Modelled, Modelled area, Modelled groundwater depth, Modelled salinity, Modelling, Piezometer, Pollutant, Recharge, Salinity, Salinity trends, Scenario, Shanxi, Shanxi province, Similar order, Simulation, Simulation period, Study area, Summer period, Time series, Total area, Treatment system, Unesco division, Urban sewage, Vertical drainage, Wagga, Wagga wagga, Wastewater, Wastewater irrigation, Water budget analyses, Water quality, Water resources, Water sciences, Water table, Winter period, Winter pond, Winter ponding site, Winter season, Yanggao, Yanggao county.
- Teeft :
- Annual water budget, Aquifer, Baideng river, Centre, Charles sturt university, China figure, Conceptual model, Copyright, Csiro, Csiro land, Drainage water, Eaux, Eaux souterraines, Effluent treatment system, Experimental filter site, Filter, Filter area, Filter operation, Filter operations, Filter plot, Filter plots, Filter site, Filter system, Filter technique, Filtre, Food security, Groundwater, Groundwater depth, Groundwater impacts, Groundwater levels, Groundwater model, Groundwater modelling, Groundwater salinity, Groundwater storage, Groundwater system, Hydraulic loading, Hydrogeological, Hydrogeological parameters, Hydrographs, Initial increase, Intensive irrigation, International centre, Irrig, Irrigated, Irrigation, Irrigation application, Irrigation area, Irrigation plot, Irrigation water, Jayawardane, John wiley sons, Land treatment, Lateral, Lateral groundwater, Maximum groundwater rise, Minimising, Minimising groundwater impacts, Model domain, Modelled, Modelled area, Modelled groundwater depth, Modelled salinity, Modelling, Piezometer, Pollutant, Recharge, Salinity, Salinity trends, Scenario, Shanxi, Shanxi province, Similar order, Simulation, Simulation period, Study area, Summer period, Time series, Total area, Treatment system, Unesco division, Urban sewage, Vertical drainage, Wagga, Wagga wagga, Wastewater, Wastewater irrigation, Water budget analyses, Water quality, Water resources, Water sciences, Water table, Winter period, Winter pond, Winter ponding site, Winter season, Yanggao, Yanggao county.
Abstract
This paper presents a groundwater modelling framework to assess the hydraulic loading and salinity impacts on the underlying groundwater system of a large‐scale land‐based effluent treatment system for treating urban sewage of Yanggao County in the north of Shanxi Province, China. This land‐based treatment system is called “Filtration and Irrigated cropping for Land Treatment and Effluent Reuse” abbreviated as FILTER. The FILTER operations include intensive irrigation of crops with urban effluent, filtration through the soil matrix, and pumping and reuse of improved quality drainage water. Three sizes of FILTER were simulated using groundwater modelling techniques to (i) upscale the operations and benefits of an experimental FILTER site to a larger FILTER system to handle the larger volume of effluent and to (ii) assess the potential effects on the regional groundwater. The boundary flux analysis carried out to quantify the net impact of FILTER on the surrounding areas indicated that a well‐designed and managed vertical drainage system can be used in a catchment‐scale FILTER system for productive and environmentally friendly management of domestic wastewater in peri‐urban areas. Results of this innovative and cost‐effective technology from the field trials in Australia and China are promising for wider applications. Copyright © 2009 John Wiley & Sons, Ltd.
Url:
DOI: 10.1002/ird.517
Affiliations:
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Zhaoqing</name><affiliation wicri:level="1"><country xml:lang="fr">République populaire de Chine</country><wicri:regionArea>Key Lab of Wetland Ecology and Environment, Northeast Institute of Geography and Agricultural Ecology, Chinese Academy of Sciences, Changchun City</wicri:regionArea><wicri:noRegion>Changchun City</wicri:noRegion></affiliation></author><author><name sortKey="Rana, T" sort="Rana, T" uniqKey="Rana T" first="T." last="Rana">T. Rana</name><affiliation wicri:level="1"><country xml:lang="fr">Australie</country><wicri:regionArea>CSIRO Land and Water, Wagga Wagga, New South Wales 2678</wicri:regionArea><wicri:noRegion>New South Wales 2678</wicri:noRegion></affiliation></author><author><name sortKey="Mu, J" sort="Mu, J" uniqKey="Mu J" first="J." last="Mu">J. 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Jayawardane</name><affiliation wicri:level="1"><country xml:lang="fr">Australie</country><wicri:regionArea>International Centre of Water for Food Security, Charles Sturt University, Wagga Wagga, New South Wales 2678</wicri:regionArea><wicri:noRegion>New South Wales 2678</wicri:noRegion></affiliation></author></analytic><monogr></monogr><series><title level="j" type="main">Irrigation and Drainage</title><title level="j" type="alt">IRRIGATION AND DRAINAGE</title><idno type="ISSN">1531-0353</idno><idno type="eISSN">1531-0361</idno><imprint><biblScope unit="vol">59</biblScope><biblScope unit="issue">5</biblScope><biblScope unit="page" from="586">586</biblScope><biblScope unit="page" to="605">605</biblScope><biblScope unit="page-count">20</biblScope><publisher>John Wiley & Sons, Ltd.</publisher><pubPlace>Chichester, UK</pubPlace><date type="published" when="2010-12">2010-12</date></imprint><idno type="ISSN">1531-0353</idno></series></biblStruct></sourceDesc><seriesStmt><idno type="ISSN">1531-0353</idno></seriesStmt></fileDesc><profileDesc><textClass><keywords scheme="KwdEn" xml:lang="en"><term>Annual water budget</term><term>Aquifer</term><term>Baideng river</term><term>Centre</term><term>Charles sturt university</term><term>China figure</term><term>Conceptual model</term><term>Copyright</term><term>Csiro</term><term>Csiro land</term><term>Drainage water</term><term>Eaux</term><term>Eaux souterraines</term><term>Effluent treatment system</term><term>Experimental filter site</term><term>Filter</term><term>Filter area</term><term>Filter operation</term><term>Filter operations</term><term>Filter plot</term><term>Filter plots</term><term>Filter site</term><term>Filter system</term><term>Filter technique</term><term>Filtre</term><term>Food security</term><term>Groundwater</term><term>Groundwater depth</term><term>Groundwater impacts</term><term>Groundwater levels</term><term>Groundwater model</term><term>Groundwater modelling</term><term>Groundwater salinity</term><term>Groundwater storage</term><term>Groundwater system</term><term>Hydraulic loading</term><term>Hydrogeological</term><term>Hydrogeological parameters</term><term>Hydrographs</term><term>Initial increase</term><term>Intensive irrigation</term><term>International centre</term><term>Irrig</term><term>Irrigated</term><term>Irrigation</term><term>Irrigation application</term><term>Irrigation area</term><term>Irrigation plot</term><term>Irrigation water</term><term>Jayawardane</term><term>John wiley sons</term><term>Land treatment</term><term>Lateral</term><term>Lateral groundwater</term><term>Maximum groundwater rise</term><term>Minimising</term><term>Minimising groundwater impacts</term><term>Model domain</term><term>Modelled</term><term>Modelled area</term><term>Modelled groundwater depth</term><term>Modelled salinity</term><term>Modelling</term><term>Piezometer</term><term>Pollutant</term><term>Recharge</term><term>Salinity</term><term>Salinity trends</term><term>Scenario</term><term>Shanxi</term><term>Shanxi province</term><term>Similar order</term><term>Simulation</term><term>Simulation period</term><term>Study area</term><term>Summer period</term><term>Time series</term><term>Total area</term><term>Treatment system</term><term>Unesco division</term><term>Urban sewage</term><term>Vertical drainage</term><term>Wagga</term><term>Wagga wagga</term><term>Wastewater</term><term>Wastewater irrigation</term><term>Water budget analyses</term><term>Water quality</term><term>Water resources</term><term>Water sciences</term><term>Water table</term><term>Winter period</term><term>Winter pond</term><term>Winter ponding site</term><term>Winter season</term><term>Yanggao</term><term>Yanggao county</term></keywords><keywords scheme="Teeft" xml:lang="en"><term>Annual water budget</term><term>Aquifer</term><term>Baideng river</term><term>Centre</term><term>Charles sturt university</term><term>China figure</term><term>Conceptual model</term><term>Copyright</term><term>Csiro</term><term>Csiro land</term><term>Drainage water</term><term>Eaux</term><term>Eaux souterraines</term><term>Effluent treatment system</term><term>Experimental filter site</term><term>Filter</term><term>Filter area</term><term>Filter operation</term><term>Filter operations</term><term>Filter plot</term><term>Filter plots</term><term>Filter site</term><term>Filter system</term><term>Filter technique</term><term>Filtre</term><term>Food security</term><term>Groundwater</term><term>Groundwater depth</term><term>Groundwater impacts</term><term>Groundwater levels</term><term>Groundwater model</term><term>Groundwater modelling</term><term>Groundwater salinity</term><term>Groundwater storage</term><term>Groundwater system</term><term>Hydraulic loading</term><term>Hydrogeological</term><term>Hydrogeological parameters</term><term>Hydrographs</term><term>Initial increase</term><term>Intensive irrigation</term><term>International centre</term><term>Irrig</term><term>Irrigated</term><term>Irrigation</term><term>Irrigation application</term><term>Irrigation area</term><term>Irrigation plot</term><term>Irrigation water</term><term>Jayawardane</term><term>John wiley sons</term><term>Land treatment</term><term>Lateral</term><term>Lateral groundwater</term><term>Maximum groundwater rise</term><term>Minimising</term><term>Minimising groundwater impacts</term><term>Model domain</term><term>Modelled</term><term>Modelled area</term><term>Modelled groundwater depth</term><term>Modelled salinity</term><term>Modelling</term><term>Piezometer</term><term>Pollutant</term><term>Recharge</term><term>Salinity</term><term>Salinity trends</term><term>Scenario</term><term>Shanxi</term><term>Shanxi province</term><term>Similar order</term><term>Simulation</term><term>Simulation period</term><term>Study area</term><term>Summer period</term><term>Time series</term><term>Total area</term><term>Treatment system</term><term>Unesco division</term><term>Urban sewage</term><term>Vertical drainage</term><term>Wagga</term><term>Wagga wagga</term><term>Wastewater</term><term>Wastewater irrigation</term><term>Water budget analyses</term><term>Water quality</term><term>Water resources</term><term>Water sciences</term><term>Water table</term><term>Winter period</term><term>Winter pond</term><term>Winter ponding site</term><term>Winter season</term><term>Yanggao</term><term>Yanggao county</term></keywords><keywords scheme="Wicri" type="topic" xml:lang="fr"><term>Droit d'auteur</term><term>Eau souterraine</term><term>Irrigation</term><term>Polluant</term><term>Simulation</term><term>Eau usée</term><term>Ressource en eau</term></keywords></textClass></profileDesc></teiHeader><front><div type="abstract" xml:lang="en">This paper presents a groundwater modelling framework to assess the hydraulic loading and salinity impacts on the underlying groundwater system of a large‐scale land‐based effluent treatment system for treating urban sewage of Yanggao County in the north of Shanxi Province, China. This land‐based treatment system is called “Filtration and Irrigated cropping for Land Treatment and Effluent Reuse” abbreviated as FILTER. The FILTER operations include intensive irrigation of crops with urban effluent, filtration through the soil matrix, and pumping and reuse of improved quality drainage water. Three sizes of FILTER were simulated using groundwater modelling techniques to (i) upscale the operations and benefits of an experimental FILTER site to a larger FILTER system to handle the larger volume of effluent and to (ii) assess the potential effects on the regional groundwater. The boundary flux analysis carried out to quantify the net impact of FILTER on the surrounding areas indicated that a well‐designed and managed vertical drainage system can be used in a catchment‐scale FILTER system for productive and environmentally friendly management of domestic wastewater in peri‐urban areas. Results of this innovative and cost‐effective technology from the field trials in Australia and China are promising for wider applications. Copyright © 2009 John Wiley & Sons, Ltd.</div></front></TEI><affiliations><list><country><li>Australie</li><li>France</li><li>République populaire de Chine</li></country></list><tree><country name="France"><noRegion><name sortKey="Khan, S" sort="Khan, S" uniqKey="Khan S" first="S." last="Khan">S. Khan</name></noRegion><name sortKey="Khan, S" sort="Khan, S" uniqKey="Khan S" first="S." last="Khan">S. Khan</name></country><country name="Australie"><noRegion><name sortKey="Ahmad, A" sort="Ahmad, A" uniqKey="Ahmad A" first="A." last="Ahmad">A. Ahmad</name></noRegion><name sortKey="Ahmad, A" sort="Ahmad, A" uniqKey="Ahmad A" first="A." last="Ahmad">A. Ahmad</name><name sortKey="Ahmad, A" sort="Ahmad, A" uniqKey="Ahmad A" first="A." last="Ahmad">A. Ahmad</name><name sortKey="Blackwell, J" sort="Blackwell, J" uniqKey="Blackwell J" first="J." last="Blackwell">J. Blackwell</name><name sortKey="Jayawardane, N" sort="Jayawardane, N" uniqKey="Jayawardane N" first="N." last="Jayawardane">N. Jayawardane</name><name sortKey="Mu, J" sort="Mu, J" uniqKey="Mu J" first="J." last="Mu">J. Mu</name><name sortKey="Rana, T" sort="Rana, T" uniqKey="Rana T" first="T." last="Rana">T. Rana</name></country><country name="République populaire de Chine"><noRegion><name sortKey="Zhaoqing, L" sort="Zhaoqing, L" uniqKey="Zhaoqing L" first="L." last="Zhaoqing">L. Zhaoqing</name></noRegion></country></tree></affiliations></record>Pour manipuler ce document sous Unix (Dilib)
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