Removal of sewage phosphorus by adsorption and mineral precipitation, with recovery as a fertilizing soil amendment.

Lingling Wu,Susan Glasauer,Irina Solntseva,Craig Jowett,Chris James

doi:10.2166/wst.2018.027

Lingling Wu, Susan Glasauer + Show 3 more

Open Access

https://doi.org/10.2166/wst.2018.027

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Abstract

Clear sand adsorbs 15-35% total phosphorus (P) from septic tank effluent, but P is mobilized when low-P effluent is applied. Amorphous P compounds formed by alkali aluminate chemical addition may also be subject to leaching. Crystalline mineralization is the desired end effect that isolates P thoroughly from the water resource. Using new low-energy iron electrochemistry (EC-P process), dissolved ferrous iron reacts with sewage phosphate ions (PO4) and precipitates onto filtration medium as vivianite [Fe3(PO4)2·8H2O], as identified by scanning electron microscopy and X-ray diffraction and predicted from Eh-pH-aHPO42- phase relations. Removal rates of 90-99% in sand, soil and synthetic foam filters are obtained. The precipitation of vivianite demonstrates that P can be immobilized quickly and without intermediary adsorption phases, as with Fe-rich soils. Vitreous silicate material (VSM) or rockwool that traps and precipitates mineral P after EC-P treatment was investigated as a means of P reuse as a fertilizing soil amendment. Comparative soil leaching and growth studies using corn plants demonstrate that the VSM alone reduces P losses from soils, and that VSM which has received EC-P effluent is equivalent to or better than commercial superphosphate fertilizer.

Highlights

Removal of phosphorus (P) from sewage systems is vital when residences are near freshwater rivers or lakes, or where fractured bedrock can channel nutrients quickly to groundwater and surface water
Conventional leach fields with clear sand or soil can expect to remove 15–30% total phosphorus (TP) from septic tank effluent (STE)
Bonds sewage TP loosely; the sequestered P can be subsequently leached out when geochemical conditions change

Summary

INTRODUCTION

Removal of phosphorus (P) from sewage systems is vital when residences are near freshwater rivers or lakes, or where fractured bedrock can channel nutrients quickly to groundwater and surface water. Water Science & Technology | 77.8 | 2018 individual residences This includes removal via the formation of Fe-Al-rich ‘B-horizon’ soil, a discussion of historical data on P adsorptive removal by clear septic sand (without fines or iron oxides), and evidence showing that P previously adsorbed on septic sand is subsequently leached into groundwater, using results from multi-year field studies. This is followed by a presentation of the results from the EC-P system. We conducted studies to identify new minerals formed in the EC-P filter to assess the capacity of the EC-P system to sequester P during operation at two schools (School MV and School BB)

Findings

Sampling procedures and analytical methods

CONCLUSIONS