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Mixed greywater treatment for irrigation uses
Water contamination comes from many different sources, including, among others, factories, sewage treatment plants, mining activities (heavy metals), food-processing waste, agriculture runoff, animal waste, disposal of personal care products, and household chemicals. Therefore, the reuse of wastewat...
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| Published in: | Revista ambiente & água 2020, Vol.15 (6), p.1-11 |
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| container_title | Revista ambiente & água |
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| creator | Rojas, Eli Morales Rascón, Jesús Huatangari, Lenin Quiñones Quintana, Segundo Chavez Oliva, Manuel Pino, Manuel Emilio Milla |
| description | Water contamination comes from many different sources, including, among others, factories, sewage treatment plants, mining activities (heavy metals), food-processing waste, agriculture runoff, animal waste, disposal of personal care products, and household chemicals. Therefore, the reuse of wastewater has become a fundamental strategy for sustainable water management and maintaining environmental quality. In this sense, this research presents a simple and economic alternative to solving the problems caused by greywater, resulting from laundry activities. This paper evaluates a mixed system for the treatment of greywater. The mixed system has physical filters that are composed of river stone, concrete, river sand, and coal. A bioremediation technique is also evaluated, involving two types of aquatic plants, watercress (Nasturtium officinale L.) and duckweed (Lemma minor L.). This study showed significant differences in pH reduction, from 9.56 to 7.50, total suspended solids (TSS), from 1742.00 mg/L to 298.50 mg/L, phosphates, from 1.12 mg/L PO43¯ to 0.31 mg/L PO43- , and chemical oxygen demand (COD), from 472.38 mg/L to 8.52 mg/L. Thus, the results indicate that this system is efficient for the reuse of grey water for irrigation uses. Moreover, each parameter, with the exception of dissolved oxygen and total suspended solids (TSS), meets the maximum limits set by the Environmental Quality Standards for Category 3: irrigation water for vegetables and animal beverages and the FAO irrigation water standards. |
| doi_str_mv | 10.4136/ambi-agua.2599 |
| format | article |
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Therefore, the reuse of wastewater has become a fundamental strategy for sustainable water management and maintaining environmental quality. In this sense, this research presents a simple and economic alternative to solving the problems caused by greywater, resulting from laundry activities. This paper evaluates a mixed system for the treatment of greywater. The mixed system has physical filters that are composed of river stone, concrete, river sand, and coal. A bioremediation technique is also evaluated, involving two types of aquatic plants, watercress (Nasturtium officinale L.) and duckweed (Lemma minor L.). This study showed significant differences in pH reduction, from 9.56 to 7.50, total suspended solids (TSS), from 1742.00 mg/L to 298.50 mg/L, phosphates, from 1.12 mg/L PO43¯ to 0.31 mg/L PO43- , and chemical oxygen demand (COD), from 472.38 mg/L to 8.52 mg/L. Thus, the results indicate that this system is efficient for the reuse of grey water for irrigation uses. Moreover, each parameter, with the exception of dissolved oxygen and total suspended solids (TSS), meets the maximum limits set by the Environmental Quality Standards for Category 3: irrigation water for vegetables and animal beverages and the FAO irrigation water standards.</description><identifier>ISSN: 1980-993X</identifier><identifier>EISSN: 1980-993X</identifier><identifier>DOI: 10.4136/ambi-agua.2599</identifier><language>eng</language><publisher>Taubaté: Instituto de Pesquisas Ambientais em Bacias Hidrográficas</publisher><subject>Agricultural management ; Agricultural runoff ; Agricultural wastes ; Animal wastes ; Aquatic plants ; Beverages ; biological filter ; Bioremediation ; Chemical oxygen demand ; Chemical wastewater ; Consumer products ; detergents ; Dissolved oxygen ; Duckweed ; Economics ; ENGINEERING, ENVIRONMENTAL ; Environmental management ; Environmental quality ; Floating plants ; Food contamination ; Food processing ; Food waste ; Freshwater plants ; Greywater ; Heavy metals ; Household chemicals ; Industrial plants ; Irrigation ; Irrigation water ; Laboratories ; Laundry ; macrophytes ; Metals ; Nasturtium officinale ; pH effects ; Phosphates ; physical filter ; Population ; Quality standards ; Rivers ; Runoff ; Sea surface ; Sewage ; Sewage treatment ; Sewage treatment plants ; Solid suspensions ; Surface temperature ; Suspended particulate matter ; Sustainability management ; Tornadoes ; Total suspended solids ; Waste disposal ; Wastewater ; Wastewater reuse ; Wastewater treatment ; Wastewater treatment plants ; Water management ; Water pollution ; Water quality ; Water quality standards ; Water reuse ; Water shortages ; Water supply ; Watercress</subject><ispartof>Revista ambiente & água, 2020, Vol.15 (6), p.1-11</ispartof><rights>2020. 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Ambient. Água</addtitle><description>Water contamination comes from many different sources, including, among others, factories, sewage treatment plants, mining activities (heavy metals), food-processing waste, agriculture runoff, animal waste, disposal of personal care products, and household chemicals. Therefore, the reuse of wastewater has become a fundamental strategy for sustainable water management and maintaining environmental quality. In this sense, this research presents a simple and economic alternative to solving the problems caused by greywater, resulting from laundry activities. This paper evaluates a mixed system for the treatment of greywater. The mixed system has physical filters that are composed of river stone, concrete, river sand, and coal. A bioremediation technique is also evaluated, involving two types of aquatic plants, watercress (Nasturtium officinale L.) and duckweed (Lemma minor L.). This study showed significant differences in pH reduction, from 9.56 to 7.50, total suspended solids (TSS), from 1742.00 mg/L to 298.50 mg/L, phosphates, from 1.12 mg/L PO43¯ to 0.31 mg/L PO43- , and chemical oxygen demand (COD), from 472.38 mg/L to 8.52 mg/L. Thus, the results indicate that this system is efficient for the reuse of grey water for irrigation uses. 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| ispartof | Revista ambiente & água, 2020, Vol.15 (6), p.1-11 |
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| language | eng |
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| source | SciELO Brazil; Publicly Available Content Database |
| subjects | Agricultural management Agricultural runoff Agricultural wastes Animal wastes Aquatic plants Beverages biological filter Bioremediation Chemical oxygen demand Chemical wastewater Consumer products detergents Dissolved oxygen Duckweed Economics ENGINEERING, ENVIRONMENTAL Environmental management Environmental quality Floating plants Food contamination Food processing Food waste Freshwater plants Greywater Heavy metals Household chemicals Industrial plants Irrigation Irrigation water Laboratories Laundry macrophytes Metals Nasturtium officinale pH effects Phosphates physical filter Population Quality standards Rivers Runoff Sea surface Sewage Sewage treatment Sewage treatment plants Solid suspensions Surface temperature Suspended particulate matter Sustainability management Tornadoes Total suspended solids Waste disposal Wastewater Wastewater reuse Wastewater treatment Wastewater treatment plants Water management Water pollution Water quality Water quality standards Water reuse Water shortages Water supply Watercress |
| title | Mixed greywater treatment for irrigation uses |
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