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Novel Composite Materials for Lake Restoration: A New Approach Impacting on Ecology and Circular Economy
The purpose of this study is to promote a new way of application composite materials to restore eutrophic waters. A new sustainable way of application is based on the “teabag” method, in which materials were placed in water-permeable bags and immersed in the water column in order to sorb phosphate—o...
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| Published in: | Sustainability 2020-04, Vol.12 (8), p.3397 |
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| creator | Zamparas, Miltiadis Kyriakopoulos, Grigorios L. Drosos, Marios Kapsalis, Vasilis C. Kalavrouziotis, Ioannis K. |
| description | The purpose of this study is to promote a new way of application composite materials to restore eutrophic waters. A new sustainable way of application is based on the “teabag” method, in which materials were placed in water-permeable bags and immersed in the water column in order to sorb phosphate—one of the main contributory element for the eutrophication problem. Particularly, the two composites materials of Phoslock™ (lanthanum-modified bentonite, LMB) and Bephos™ (Fe-modified bentonite, f-MB) were tested and bench-scale batch experiments were employed to investigate their sorption efficiency in the forms of slurry and teabag. The adsorption kinetics and the relevant adsorption isotherms were deployed, while the effect of the materials on turbidity and their aging were also investigated. Experimental results showed that Phoslock™ and Bephos™ (as teabag), being applied at initial concentration range: 0.05–5 mg/L, they sustained a maximum adsorption capacity of 7.80 mg/g and 25.1 mg/g, respectively, which are considered sufficient rates for P concentrations reported at natural aquatic ecosystems. At the same time this new method did not cause turbidity in the water column, since the material was not released into the water, thus, preventing potential harmful consequences for the living organisms. Moreover, the “teabag” method prevents the material to cover the lake bottom, avoiding the phenomenon of smothering of benthos. Βy teabag method, the materials can be collected for further applicability as soil improver or crops fertilizer. Finally, it was argued that the possibility to recycle LMB and f-MB materials for agricultural use is of paramount importance, sustaining also positive impacts on sustainable ecology and on the routes of circular economy (CE). |
| doi_str_mv | 10.3390/su12083397 |
| format | article |
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A new sustainable way of application is based on the “teabag” method, in which materials were placed in water-permeable bags and immersed in the water column in order to sorb phosphate—one of the main contributory element for the eutrophication problem. Particularly, the two composites materials of Phoslock™ (lanthanum-modified bentonite, LMB) and Bephos™ (Fe-modified bentonite, f-MB) were tested and bench-scale batch experiments were employed to investigate their sorption efficiency in the forms of slurry and teabag. The adsorption kinetics and the relevant adsorption isotherms were deployed, while the effect of the materials on turbidity and their aging were also investigated. Experimental results showed that Phoslock™ and Bephos™ (as teabag), being applied at initial concentration range: 0.05–5 mg/L, they sustained a maximum adsorption capacity of 7.80 mg/g and 25.1 mg/g, respectively, which are considered sufficient rates for P concentrations reported at natural aquatic ecosystems. At the same time this new method did not cause turbidity in the water column, since the material was not released into the water, thus, preventing potential harmful consequences for the living organisms. Moreover, the “teabag” method prevents the material to cover the lake bottom, avoiding the phenomenon of smothering of benthos. Βy teabag method, the materials can be collected for further applicability as soil improver or crops fertilizer. Finally, it was argued that the possibility to recycle LMB and f-MB materials for agricultural use is of paramount importance, sustaining also positive impacts on sustainable ecology and on the routes of circular economy (CE).</description><identifier>ISSN: 2071-1050</identifier><identifier>EISSN: 2071-1050</identifier><identifier>DOI: 10.3390/su12083397</identifier><language>eng</language><publisher>Basel: MDPI AG</publisher><subject>Adsorption ; Aging ; Aging (natural) ; Agricultural production ; Algae ; Aquaculture ; Aquatic ecosystems ; Aquatic plants ; Aquifers ; Benthos ; Bentonite ; Blanketing ; Circular economy ; Clay ; Composite materials ; Cyanobacteria ; Environmental restoration ; Eutrophic environments ; Eutrophic waters ; Eutrophication ; Fertilizers ; Laboratories ; Lake restoration ; Lakes ; Lanthanum ; Nitrogen ; Nutrients ; Phosphorus ; Riparian buffers ; Sediments ; Slurries ; Soil fertility ; Soil improvement ; Soil permeability ; Sustainability ; Turbidity ; Water circulation ; Water column ; Water quality ; Water treatment</subject><ispartof>Sustainability, 2020-04, Vol.12 (8), p.3397</ispartof><rights>2020. 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A new sustainable way of application is based on the “teabag” method, in which materials were placed in water-permeable bags and immersed in the water column in order to sorb phosphate—one of the main contributory element for the eutrophication problem. Particularly, the two composites materials of Phoslock™ (lanthanum-modified bentonite, LMB) and Bephos™ (Fe-modified bentonite, f-MB) were tested and bench-scale batch experiments were employed to investigate their sorption efficiency in the forms of slurry and teabag. The adsorption kinetics and the relevant adsorption isotherms were deployed, while the effect of the materials on turbidity and their aging were also investigated. Experimental results showed that Phoslock™ and Bephos™ (as teabag), being applied at initial concentration range: 0.05–5 mg/L, they sustained a maximum adsorption capacity of 7.80 mg/g and 25.1 mg/g, respectively, which are considered sufficient rates for P concentrations reported at natural aquatic ecosystems. At the same time this new method did not cause turbidity in the water column, since the material was not released into the water, thus, preventing potential harmful consequences for the living organisms. Moreover, the “teabag” method prevents the material to cover the lake bottom, avoiding the phenomenon of smothering of benthos. Βy teabag method, the materials can be collected for further applicability as soil improver or crops fertilizer. 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| subjects | Adsorption Aging Aging (natural) Agricultural production Algae Aquaculture Aquatic ecosystems Aquatic plants Aquifers Benthos Bentonite Blanketing Circular economy Clay Composite materials Cyanobacteria Environmental restoration Eutrophic environments Eutrophic waters Eutrophication Fertilizers Laboratories Lake restoration Lakes Lanthanum Nitrogen Nutrients Phosphorus Riparian buffers Sediments Slurries Soil fertility Soil improvement Soil permeability Sustainability Turbidity Water circulation Water column Water quality Water treatment |
| title | Novel Composite Materials for Lake Restoration: A New Approach Impacting on Ecology and Circular Economy |
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