Water Science and Technology (Apr 2021)
Phosphorus recovery and recycling from model animal wastewaters using materials prepared from rice straw and corn cobs
Abstract
Anthropogenic loss of phosphorus to surface waters not only causes environmental problems but depletes valuable phosphorus reserves. In this study, magnesium amended biochars and magnesium silicate, synthesized from corn cobs and rice straw, respectively, were evaluated for phosphorus uptake including the effects of pH and alkalinity. The overall goal was to close the phosphorus loop by recovering phosphorus from animal waste and reusing it as fertilizer. After phosphorus uptake, spent materials were tested for phosphorus release using modified soil tests representing different soil pH and alkalinity conditions. In experiments using model animal wastewaters containing both ammonia and bicarbonate alkalinity, dissolved phosphorus was removed by struvite (MgNH4PO4·6H2O) formation, whereas in deionized water, dissolved phosphorus was removed by adsorption. Alkalinity in the model animal wastewaters competed with phosphate for dissolved or solid-associated magnesium, thereby reducing phosphorus uptake. Spent materials released significant phosphorus in waters with bicarbonate alkalinity. This work shows that abundant agricultural wastes can be used to synthesize solids for phosphorus uptake, with the spent materials having potential application as fertilizers. HIGHLIGHTS Magnesium modified biochar and magnesium silicate were prepared from corn cobs and rice straw, respectively.; These materials removed phosphorus from model wastewaters by struvite precipitation.; Phosphorus uptake was limited by wastewater alkalinity.; Spent materials released phosphorus under conditions mimicking calcareous soils.; These materials show promise for phosphorus recovery and reuse.;
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