前沿关注 进展:美国全面启动短程反硝化[PnDN]-Anammox示范项目 [复制链接]

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本项目题目“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”,Project Amount999,670;项目实施周期是2020年9月至2023年8月31号,3周年时间。2 V+ o3 \1 p/ @8 K
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课题具体目标是通过提高厌氧氨氧化细菌(Anammox)在主流系统中的亚硝酸盐利用率,为快速去除氮过程的全面应用铺平道路。 9 n' ~* [! U3 X# {" O

6 Z) w. B% L1 x. X基于部分反硝化(PDN)路线,不是通过洗出NOB(亚硝酸盐氧化细菌)的技术路径(传统短程硝化路径),而是通过PnDN过程将可能提供更可靠的亚硝酸盐来源,PnDN-Anammox技术路线可能是更有利于生产尺度上加速自养脱氮的实施和推进。
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1 \4 B4 F! f% {2 p' ~Nutrient management and removal technologies currently in use at point sources, such as wastewater treatment plants, are mainly biological (for nitrogen (N) and phosphorus (P) removal) or a combination of biological and chemical (for P removal) processes that have been used since the early 1970s. In recent years, research has been focused on alternative N removal strategies that can reduce capital, chemical, and energy costs. Mainstream shortcut N removal and mainstream deammonification processes represent a paradigm shift for the industry, offering the opportunity for sustainable N removal, energy neutral or even energy positive facilities and dramatic reductions in treatment costs, which has widespread environmental benefits in reducing the formation of HABs. But full-scale implementation has met with limited success. & L& _$ l% M5 a7 c5 I7 |- ^

2 V: y: w" ?- |. U) Z/ c0 UObjective:      
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4 r" n' G/ X2 L+ D9 V! S8 OThe specific objective of this project is to pave the way for full-scale applications of shortcut N removal processes, by increasing nitrite availability for anaerobic ammonium oxidizing bacteria (anammox) in mainstream systems. Shortcut N removal systems developed based on the partial denitrification (PdN) route rather than the NOB (nitrite oxidizing bacteria) out-selection route, will likely provide more reliable nitrite production and could accelerate full-scale implementation of shortcut N technologies.   * t! c5 g1 w4 N0 A  c5 p: r/ w

- ^: ?6 N8 a0 O9 W/ |Partial denitrification/anammox (PdNA) technologies span a range of readiness levels. The attached growth polishing PdNA concepts that will be explored further in this project have already been partially validated in pilot testing and full-scale treatment plants. HRSD transitioned their York River Treatment Plant post-dentification filters to PdNA almost two years ago, the first real full-scale example of mainstream anammox oxidizing a relevant amount of the influent ammonia load. Based on the successful outcome of piloting PdNA in a polishing moving bed biofilm reactor (MBBR) process, the pending full-scale nutrient upgrade for the HRSD James River plant will include this technology. This project will address remaining unknowns with designing and operating polishing PdNA processes.        
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& f4 Z, E7 o! oIntegrated PdNA applications, whereby anammox are incorporated into the main plant BNR process pre- or post-anoxic zones, have been validated conceptually in laboratory and pilot studies at DC Water and Columbia University, and this project will move these concepts rapidly to full-scale application. This project will also evaluate the integration of biological P removal with PdNA shortcut N removal.
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