Effect of Urine Dilution on Ammonium Sorption using Natural Zeolites

Boyer, Treavor H.; Cribbs, Katie

doi:10.2175/193864714815939372

Cited by 2 publications

(1 citation statement)

References 18 publications

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“…In contrast, the advantages of adsorption–regeneration–precipitation are the ability to remove P from either fresh urine or hydrolyzed urine, and the option to recover P in different mineral forms other than struvite. Following phosphate removal by ion exchange, ammonium and potassium can be removed from urine using cation exchanger such as clinoptilolite. − Hence, a three-stage adsorption process can be used to remove pharmaceuticals and recover phosphate and ammonium/potassium.…”

Section: Can Nutrients and Pharmaceuticals In Urine Be Separated And ...mentioning

confidence: 99%

Opportunities for Building-Scale Urine Diversion and Challenges for Implementation

Boyer

Saetta

2019

Acc. Chem. Res.

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Conspectus Urine diversion (i.e., urine source separation) has been proposed as a more sustainable solution for water conversation, nutrient removal and recovery, and pharmaceutical sequestration. As wastewater regulations become more stringent, wastewater treatment plants reach capacity, and water resources become more strained, the benefits of urine diversion become more appealing. By using nonwater urinals and urine-diverting toilets, urine diversion systems seek to collect undiluted human urine for nutrient recovery and pharmaceutical sequestration. Urine is a unique, nutrient-rich waste stream that constitutes an overall low volume of waste entering a wastewater treatment plant. If urine is separated at the building-scale, various technologies can be used to recover nutrients and sequester pharmaceuticals at their most concentrated location. However, the implementation of urine diversion requires a paradigm shift from conventional comingling of wastewater and centralized treatment to source separation and decentralized treatment. This Account proposes a vision for building-scale implementation of urine diversion with the goal of clarifying the opportunities and challenges in this context. The main components of urine, i.e., nitrogen, phosphorus, potassium, and pharmaceuticals, are major drivers for technology development and system implementation. Stepping back, the benefits from water conservation and effects on wastewater treatment are an extension of the system boundary that can impact the sustainability of adjacent systems. However, major challenges have been identified in the literature as hurdles for widespread implementation of urine diversion. Challenges include the comparison of recovering nutrients at the wastewater plant versus at the source, the collection and storage of urine, the ability to recover nutrients and sequester pharmaceuticals, and the overall environmental and economic impacts of urine diversion systems. While these challenges exist, studies have been conducted to address some of the underlying research questions. As more research is conducted, the vision of a seamless urine diversion system with building-wide plumbing and storage comes closer to reality. As such, the application of urine diversion systems will benefit from technology development and research to fill gaps that have been identified. It is important to classify urine diversion systems as a process and not a product. This has implications for the way these systems are evaluated, as their impact on peripheral systems can be of benefit to different stakeholders. In the same light, new research areas, such as cyber-physical systems, reverse logistics, and sustainability transitions, can be applied to urine diversion as approaches for ensuring a robust process for widespread implementation. However, established technologies should be constantly reassessed and enhanced by newer techniques. For example, membrane distillation, eutectic freeze concentration, and solar evaporation should be considered for nutrient recovery and ...

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Section: Can Nutrients and Pharmaceuticals In Urine Be Separated And ...mentioning

confidence: 99%