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Catalytic Denitrification in a Trickle Bed Reactor: Ion Exchange Waste Brine Treatment

Bergquist, Allison M. / Bertoch, Madison / Gildert, Gary / Strathmann, Timothy J. / Werth, Charles J.

Catalytic reduction of nitrate in ion exchange (IX) waste brine for reuse is a promising option for reducing IX costs and environmental impacts. A recycling trickle bed reactor (TBR) was designed and optimized using 0.5 percent by weight (wt%) palladium–0.05 wt% indium catalysts supported on US mesh size 12 × 14 or 12 × 30 activated carbon particles. Various liquid superficial velocities (U_r) and hydrogen gas superficial velocities (U_g‐H2) were evaluated to assess performance in different flow regimes; catalyst activity increased with U_g‐H2 at all U_r for both catalysts and was greatest for the 12 × 30 catalyst at the lowest U_r (8.9 m/h). The 12 × 30 catalyst demonstrated up to 100% higher catalytic activity and 280% higher mass transfer rate compared with the 12 × 14 catalyst. Optimal TBR performance was achieved with both catalysts in the trickle flow regime. The results indicate that the TBR is a promising step forward, and continued improvements are possible to overcome remaining mass transfer limitations.

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Catalytic Denitrification in a Trickle Bed Reactor: Ion Exchange Waste Brine Treatment

Bergquist, Allison M. / Bertoch, Madison / Gildert, Gary / Strathmann, Timothy J. / Werth, Charles J.

Catalytic reduction of nitrate in ion exchange (IX) waste brine for reuse is a promising option for reducing IX costs and environmental impacts. A recycling trickle bed reactor (TBR) was designed and optimized using 0.5 percent by weight (wt%) palladium–0.05 wt% indium catalysts supported on US mesh size 12 × 14 or 12 × 30 activated carbon particles. Various liquid superficial velocities (U_r) and hydrogen gas superficial velocities (U_g‐H2) were evaluated to assess performance in different flow regimes; catalyst activity increased with U_g‐H2 at all U_r for both catalysts and was greatest for the 12 × 30 catalyst at the lowest U_r (8.9 m/h). The 12 × 30 catalyst demonstrated up to 100% higher catalytic activity and 280% higher mass transfer rate compared with the 12 × 14 catalyst. Optimal TBR performance was achieved with both catalysts in the trickle flow regime. The results indicate that the TBR is a promising step forward, and continued improvements are possible to overcome remaining mass transfer limitations.

Catalytic Denitrification in a Trickle Bed Reactor: Ion Exchange Waste Brine Treatment

Bergquist, Allison M. / Bertoch, Madison / Gildert, Gary / Strathmann, Timothy J. / Werth, Charles J.

Catalytic reduction of nitrate in ion exchange (IX) waste brine for reuse is a promising option for reducing IX costs and environmental impacts. A recycling trickle bed reactor (TBR) was designed and optimized using 0.5 percent by weight (wt%) palladium–0.05 wt% indium catalysts supported on US mesh size 12 × 14 or 12 × 30 activated carbon particles. Various liquid superficial velocities (U_r) and hydrogen gas superficial velocities (U_g‐H2) were evaluated to assess performance in different flow regimes; catalyst activity increased with U_g‐H2 at all U_r for both catalysts and was greatest for the 12 × 30 catalyst at the lowest U_r (8.9 m/h). The 12 × 30 catalyst demonstrated up to 100% higher catalytic activity and 280% higher mass transfer rate compared with the 12 × 14 catalyst. Optimal TBR performance was achieved with both catalysts in the trickle flow regime. The results indicate that the TBR is a promising step forward, and continued improvements are possible to overcome remaining mass transfer limitations.

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Title:

Catalytic Denitrification in a Trickle Bed Reactor: Ion Exchange Waste Brine Treatment

Contributors:

Bergquist, Allison M. (author) / Bertoch, Madison (author) / Gildert, Gary (author) / Strathmann, Timothy J. (author) / Werth, Charles J. (author)

Published in:

Journal ‐ American Water Works Association ; 109 ; E129-E151

Publication date:

2017-05-01

Size:

23 pages

ISSN:

1551-8833 , 0003-150X

DOI:

https://doi.org/10.5942/jawwa.2017.109.0055

Type of media:

Article (Journal)

Type of material:

Electronic Resource

Language:

English

Keywords:

catalysis , Reuse , ion exchange , palladium‐indium , Ion Exchange , Velocity , Activated Carbon Treatment , Mass Transfer , brine reuse , Reactors , Denitrification , activated carbon , drinking water treatment , Brines , trickle bed reactor

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