Porous Polyethylene-Supported Zeolite Carriers for Improved Wastewater Deammonification

Abstract: Wastewater treatment is increasingly important as anthropogenic activities continue to stress our water systems. Ammonium is one of the most common pollutants in wastewater streams and is typically oxidized to nitrate during treatment, which still results in the discharge of reactive nitrogen to the environment. Anaerobic ammonium oxidation (anammox) can completely remove reactive nitrogen, forming dinitrogen, and also decreases the cost of ammonium removal compared to conventional activated sludge wastewater … Show more

“…18,19,24,25 Briefly, for development of zeolite-coated membranes, attachment onto a polymer surface was tested with four different methods of surface functionalization, [24][25][26][27][28][29] one method of embedding the zeolite into the polymer membrane, and one method of growing zeolite on alumina hollow fibers, which we have tested previously and is described in Huff Chester et al 18 For development of porous zeolite-coated carriers, deposition into a porous polyethylene (PE) matrix was tested, also described previously (Feinberg et al). 19 Control materials without zeolite were generated for some of these zeolitecoated supports as previously described. 18,19 Scanning electron microscope (SEM) images were taken using methods described in Huff Chester et al 18…”

“…19 Control materials without zeolite were generated for some of these zeolitecoated supports as previously described. 18,19 Scanning electron microscope (SEM) images were taken using methods described in Huff Chester et al 18…”

“…10,13,[15][16][17] Because of their ability to sorb and therefore concentrate ammonium, zeolite-coated membranes and biofilm carriers could improve current biofilm technologies for shortcut nitrogen removal by enriching the local environment for ammonium. 18,19 It is thought that if ammonium is present at a higher concentration, it could improve both the rate at which anammox bacteria colonize solid supports and their retention. 16,18,19 It is also possible that this localized high concentration of ammonium at the membrane/carrier surface could enrich and retain AOB as well.…”

“…18,19 It is thought that if ammonium is present at a higher concentration, it could improve both the rate at which anammox bacteria colonize solid supports and their retention. 16,18,19 It is also possible that this localized high concentration of ammonium at the membrane/carrier surface could enrich and retain AOB as well. 16,18,19 In previous work, we showed that zeolite technologies can attract and retain anammox bacteria under mainstream conditions.…”

“…16,18,19 It is also possible that this localized high concentration of ammonium at the membrane/carrier surface could enrich and retain AOB as well. 16,18,19 In previous work, we showed that zeolite technologies can attract and retain anammox bacteria under mainstream conditions. 18 With enough zeolite in the system, anammox bacteria were retained and outperformed systems without zeolite amendment with respect to both ammonium and TN removal.…”

Advancements in biofilm carriers and gas-permeable membranes: assessment of zeolite technologies for shortcut nitrogen removal applications in wastewater

“…18,19,24,25 Briefly, for development of zeolite-coated membranes, attachment onto a polymer surface was tested with four different methods of surface functionalization, [24][25][26][27][28][29] one method of embedding the zeolite into the polymer membrane, and one method of growing zeolite on alumina hollow fibers, which we have tested previously and is described in Huff Chester et al 18 For development of porous zeolite-coated carriers, deposition into a porous polyethylene (PE) matrix was tested, also described previously (Feinberg et al). 19 Control materials without zeolite were generated for some of these zeolitecoated supports as previously described. 18,19 Scanning electron microscope (SEM) images were taken using methods described in Huff Chester et al 18…”

“…19 Control materials without zeolite were generated for some of these zeolitecoated supports as previously described. 18,19 Scanning electron microscope (SEM) images were taken using methods described in Huff Chester et al 18…”

“…10,13,[15][16][17] Because of their ability to sorb and therefore concentrate ammonium, zeolite-coated membranes and biofilm carriers could improve current biofilm technologies for shortcut nitrogen removal by enriching the local environment for ammonium. 18,19 It is thought that if ammonium is present at a higher concentration, it could improve both the rate at which anammox bacteria colonize solid supports and their retention. 16,18,19 It is also possible that this localized high concentration of ammonium at the membrane/carrier surface could enrich and retain AOB as well.…”

“…18,19 It is thought that if ammonium is present at a higher concentration, it could improve both the rate at which anammox bacteria colonize solid supports and their retention. 16,18,19 It is also possible that this localized high concentration of ammonium at the membrane/carrier surface could enrich and retain AOB as well. 16,18,19 In previous work, we showed that zeolite technologies can attract and retain anammox bacteria under mainstream conditions.…”

“…16,18,19 It is also possible that this localized high concentration of ammonium at the membrane/carrier surface could enrich and retain AOB as well. 16,18,19 In previous work, we showed that zeolite technologies can attract and retain anammox bacteria under mainstream conditions. 18 With enough zeolite in the system, anammox bacteria were retained and outperformed systems without zeolite amendment with respect to both ammonium and TN removal.…”

Advancements in biofilm carriers and gas-permeable membranes: assessment of zeolite technologies for shortcut nitrogen removal applications in wastewater

Anaerobic Ammonium Oxidation Process

Biofilm carriers for anaerobic ammonium oxidation: Mechanisms, applications, and roles in mainstream systems