Grantee Research Project Results
2023 Progress Report: When a Detour Becomes a Shortcut: Going Full-scale with Partial Denitrification/Anammox as an Alternative Strategy for Mainstream Deammonification and Incorporating Biological Phosphorus Removal
EPA Grant Number: R840086Title: When a Detour Becomes a Shortcut: Going Full-scale with Partial Denitrification/Anammox as an Alternative Strategy for Mainstream Deammonification and Incorporating Biological Phosphorus Removal
Investigators: Fevig, Stephanie , Chandran, Kartik , De Clippeleir, Haydee , Klaus, Stephanie , Riffat, Rumana , Wells, George
Institution: Water Research Foundation (VA) , George Washington University , Northwestern University , District of Columbia Water and Sewer Authority (DC Water) , Columbia University , Hampton Roads Sanitation Department
EPA Project Officer: Ludwig-Monty, Sarah
Project Period: September 1, 2020 through August 31, 2023 (Extended to August 31, 2024)
Project Period Covered by this Report: September 1, 2022 through August 31,2023
Project Amount: $999,670
RFA: Approaches to Reduce Nutrient Loadings for Harmful Algal Blooms Management (2020) RFA Text | Recipients Lists
Research Category: Harmful Algal Blooms , Water , Clean Water , Water Quality
Objective:
The goal of this project is to develop proof of principle for different partial denitrification/anammox (PdNA) configurations, with the integration of biological phosphorus (bio-P) and move PdNA into full-scale application. PdNA with bio-P has the potential to achieve low nutrient effluent concentrations with reductions in energy, chemicals, and treatment footprint. Ultimately, implementation of this process can provide significant cost savings to utilities while reducing nutrient discharges to the watershed and mitigating the formation of harmful algal blooms (HABs).
There are four key objectives of this research, each supported by a series of tasks with task leads and supporting team members:
• Objective 1: Develop new PdNA concepts using denitrifying phosphate accumulating organisms (dPAO)
• Objective 2: Develop proof of principle for different PdNA configurations
• Objective 3: Move PdNA into full-scale application
• Objective 4: Conduct outreach and technology transfer, in particular to utilities in regions with HABs
Progress Summary:
With the opportunity for innovative full-scale process deployment over the timeframe of this project, outreach and technology transfer to water resource recovery facilities in HAB hotspots and other regions nationally will be important components of the project. Below are the accomplishments to date for the key outputs/outcomes of this project:
Development of New PdNA Concepts Using Denitrifying PAO
• NO3--N concentration (or VFA/NO3--N ratio) was shown to have a positive correlation with estimated % anoxic P uptake via NO3--N.
• dGAO may be preferentially selected at longer SRT, while Accumulibacter dPAO may be preferentially selected at shorter SRT. This is in line with our observation that decreased SRT in this study was associated with reduced dGAO, based on 16S rRNA amplicon sequencing results before carrier inoculation.
• The significantly higher NO3--N reduction and NO₂--N accumulation rates in suspended solids resulted in a higher NTR ratio than in attached biofilm. This implies that microorganisms in suspended biomass may have a higher PdN efficiency than in biofilm biomass. Meanwhile, the suspended solids had a higher anoxic P uptake contribution, suggesting that dPAO enriched in suspended solids may prefer to use NO3--N over NO₂-N as an electron acceptor to promote orthoP conversion to polyP.
• Inoculation with anammox-enriched biofilm carriers enabled proof-of-feasibility of integrated activity of dPAO-PdN with anammox-driven N removal. Ongoing efforts seek to increase anammox activity.
Development of Proof of Principle for Different PdNA Configurations
DC Water Pre-anoxic IFAS
o Overall, this study demonstrated that methanol can be used as a carbon source for both partial denitrification/anammox (PdNA) and full denitrification. In parallel, a strong selection pressure by methanol on the resulting microbial community structure was observed in the pilot-scale reactor system at Blue Plains. Using this data, correlations between community structure and reactor performance could be developed. However, in this study, we will attempt to correlate potential and extant microbial function (methanol-supported nitrogen reduction). The molecular analysis is complete and the data are being currently analyzed.
Movement of PdNA into Full-Scale Application
• James River
o Startup of mainstream anammox IFAS is possible within 2-3 months without anammox biomass seeding, with low ammonia and nitrite concentrations.
o Maximum anammox activity is continuing to increase beyond the in-situ removal rates.
o Anammox was detected in the full-scale aerobic IFAS zone.
o Anammox was detected in the moving media full-scale PdNA demonstration tank.
• York River Filter Pilot
o The results showed that PdNA filter startup without biomass seeding is feasible. With the right carbon dose, PdN was established even without the presence of AnAOB, and the nitrite availability concomitantly with the ammonium presence favored AnAOB activity.
o The performance, maximum activity tests, and molecular analysis results showed that glycerol has a higher potential to speed up AnAOB growth and enrichment when using virgin media.
• Design Considerations
o The team has developed a PdNA Practitioner’s Blueprint/Guidance Document that includes fundamentals on PdNA, case studies, and design considerations for full-scale implementation of PdNA:
https://www.waterrf.org/research/projects/mainstream-deammonificationbiological-phosphorus-removal-0.
Future Activities:
Objective 1: Develop New PdNA Concepts Using Denitrifying PAO
• Conduct routine reactor performance monitoring via in-cycle nutrient analysis.
• Perform a series of ex situ tests to understand segregation of biological P and N removal activities in suspended solids and on biofilm carriers separately.
• Continue to investigate the impact of increasing COD:P ratio on dPAO-PdN selection.
• Prepare for anammox biofilm carrier re-inoculation and the following acclimatization.
Objective 2: Develop Proof of Principle for Different PdNA Configurations
Work is continuing on Task 2.6: Understanding of PdNA mechanisms. Parallel evaluation of process performance and microbial structure and function is currently underway to understand the pathways involved in PdN using different carbon sources. The diversity and concentration of anammox bacteria enriched in these reactors is also being determined.
Objective 3: Move PdNA into Full-Scale Application
Work is continuing on Task 3.5: Evaluate sustainability of PdNA concepts with a winter N2O emissions sampling campaign planned for James River Treatment Plant and Blue Plains Advanced WWTP.
Objective 4: Conduct Outreach and Technology Transfer
• Prepare and publish final project deliverable: Practitioner’s Blueprint/Guidance Document (second edition).
• Host final project webcast in 2024.
Journal Articles on this Report : 1 Displayed | Download in RIS Format
Other project views: | All 6 publications | 5 publications in selected types | All 5 journal articles |
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Type | Citation | ||
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Bachmann M, Parsons M, Klaus S, Kurt H, Chandran K, Stockard D, Wells G, De Clippeleir H, Bott C. Comparing methanol and glycerol as carbon sources for mainstream partial denitrification/anammox in an IFAS process. WATER ENVIRONMENT RESEARCH 2024;96(4):e11017 |
R840086 (2023) |
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Supplemental Keywords:
Biological Nutrient Removal (BNR), Nutrients, Treatment, Nitrogen, Phosphorus, Nitrous Oxide (N2O)Relevant Websites:
Harmful Algal Blooms (HABs) - When a Detour Becomes a Shortcut Exit
Progress and Final Reports:
Original AbstractThe perspectives, information and conclusions conveyed in research project abstracts, progress reports, final reports, journal abstracts and journal publications convey the viewpoints of the principal investigator and may not represent the views and policies of ORD and EPA. Conclusions drawn by the principal investigators have not been reviewed by the Agency.