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Determining the Effects of Class I Landfill Leachate

Determining Effects of Class I Landfill Leachate on Biological Nutrient Removal in Wastewater Treatment

Determining Effects of Leachate-Associated Toxicity and Dissolved Organic Nitrogen on Biological Wastewater Treatment and Effluent-Receiving Waters

 

Leachate management challenges at wastewater treatment plants (WWTPs) vary by POTW size, percent of leachate to overall flow, leachate composition, regional differences, and regulatory challenges, and are known to commonly include ammonia removal inhibition and biological treatment upset. Both of these issues can be seen in the activated sludge process of the treatment train during biological nitrogen removal and are affected by leachate nutrients such as nitrogen and phosphorus as well as other compounds in the leachate matrix. As wastewater treatment operators are increasingly refusing to accept landfill leachate, this study will gauge the specific impacts of leachate on biological wastewater treatment and provide data that will allow WWTPs to decrease biological treatment disruptions and ammonia removal inhibition that occur as a result of leachate management.

In this study, the effects of leachate on nitrifying activated sludge are quantified by performing specific oxygen uptake rate (SOUR) tests. Several different leachates are tested, as well as various concentrations (from 1% v/v leachate to activated sludge ratio, to 75% v/v leachate to activated ratio sludge). Additionally, the effect of landfill leachate on biological nutrient removal, nitrification, and effluent quality is assessed by adding leachate to sequencing batch reactors (SBRs) that mimic the secondary treatment process in wastewater treatment.

This study quantifies and determines the effect of landfill leachate not only on wastewater facility operation, but also on the treatment efficacy. By quantifying this, leachate pre-treatment can be targeted and impacts on wastewater treatment plant operations can be quantified.

How to get involved:

Florida Gulf Coast University is conducting a Hinkley Center for Solid and Hazardous Waste Management funded research project to determine the effects of Class I landfill leachate on Biological Nutrient Removal in wastewater treatment. As part of this study, FGCU is collecting 1L leachate samples from landfills who are interested in participating in the study. FGCU is also collecting anecdotal data from treatment works with experience co-treating landfill leachate. All landfills and treatment works will remain anonymous. If interested in supporting this work, please contact Dr. Ashley Danley-Thomson at athomson@fgcu.edu or 239.745.4390.

 

Principal Investigator
Ashley Danley-Thomson, Ph.D., E.I.
athomson@fgcu.edu

Ashley Danley-Thomson, Ph.D., E.I.

Current Undergraduate Students:

Connor Haydon, Environmental Engineering, Class of 2017
Connor Haydon

Alexander Brawley, Environmental Engineering, Class of 2018
Alexander Brawley

Shane Herman, Environmental Engineering, Class of 2018
Shane Herman

Sandra Un Jan, Environmental Engineering, Class of 2019
Sandra Un Jan

Kendall Karcher, Environmental Engineering, Class of 2020
Kendall Karcher

Austin Wise, Environmental Engineering, Class of 2020
Austin Wise

 

 





 

 

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