Biochar as a Rechargeable Geobattery to Promote Nitrogen Removal in Stormwater from Roadways


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CAIT project no.: CAIT-UTC-061

Fiscal Year: 2015/2016

Status: Final

Rutgers-CAIT Author(s): Pei Chiu, Ph.D., University of Delaware, Paul T. Imhoff, Ph.D., University of Delaware, Patrick Szary, Ph.D

External Author(s): LaTonya Gilliam, DelDOT Stormwater Quality Program

Sponsor(s): FHWA - RITA, Delaware Department of Transportation

Summary:

The goal of this proposed research is to test the hypothesis that biochar is a rechargeable “geo-battery” that can promote microbial nitrate removal from stormwater.  This hypothesis is based on our recent laboratory and field results, as outlined below.

 

In a recently completed CAIT-funded project, we demonstrated that anaerobic bacteria can use reduced biochar as an electron source to degrade nitrate in water.  It was not clear, though, whether the “used” (i.e., oxidized) biochar can be rejuvenated to support further nitrate reduction.  In a parallel field study, recent data from a pilot scale bioretention cell offer interesting clues.  The pilot cell, located on the University of Delaware (UD) campus, consisted of a biochar-amended top layer (4% biochar) and a zero-valent iron-amended bottom layer (10% ZVI).  Both ZVI and biochar were added to provide the electrons needed for nitrate reduction, but their modes of action were different.  ZVI was a reducing agent that continuously supplied electrons for microbial nitrate removal.  In contrast, biochar, we hypothesized, acted as a “geo-battery” that would undergo reversible charging-discharging cycles and, when charged, it can provide electrons for nitrate degradation.