Journal
ACS ES&T ENGINEERING
Volume 1, Issue 1, Pages 6-20Publisher
AMER CHEMICAL SOC
DOI: 10.1021/acsestengg.0c00076
Keywords
catalysis; electrochemical; nitrate; reduction
Categories
Funding
- National Science Foundation [CBET-1706797, CBET1922504, DGE-1828974]
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Nitrate is a widespread pollutant in groundwater and is currently removed at water treatment plants through ion exchange, which is effective but costly. (Electro)catalytic treatment, which reduces nitrate to dinitrogen gas or ammonium using a bimetal catalyst and atomic hydrogen, has emerged as a promising alternative. However, there are technical challenges limiting its widespread adoption, including precious metal amounts and cost, hydrogen efficiency and safety, and product selectivity.
Nitrate ( NO3-) has impacted more groundwater supplies than any other pollutant in the world. It is currently removed at water treatment plants by ion exchange, which is effective but comes at a steep financial and environmental cost. (Electro)catalytic treatment of nitrate has emerged as a promising alternative technology, which relies on reducing nitrate to dinitrogen gas or ammonium via reduction on a bimetal catalyst with atomic hydrogen oxidation. The bimetal catalyst contains a platinum group metal, and atomic hydrogen is either generated from supplied hydrogen gas (catalytic) or an applied current (electrocatalytic). However, (electro)catalytic treatment of nitrate is not being implemented at water treatment plants. This perspective addresses the most important technical challenges limiting widespread adoption of (electro)catalytic nitrate removal in drinking water treatment. These challenges affect precious metal amounts and cost, the efficiency and safety of hydrogen use, and end-product selectivity. This perspective is concluded by a prioritization of technology challenges, and their implications for attracting industry investment and achieving regulatory acceptance.
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