Javascript must be enabled to continue!
Nitrogen Recovery from Wastewater: Possibilities, Competition with Other Resources, and Adaptation Pathways
View through CrossRef
Due to increased food production, the demand for nitrogen and phosphorus as fertilizers grows. Nitrogen-based fertilizers are produced with the Haber–Bosch process through the industrial fixation of N2 into ammonia. Through wastewater treatment, the nitrogen is finally released back to the atmosphere as N2 gas. This nitrogen cycle is characterized by drawbacks. The energy requirement is high, and in the wastewater treatment, nitrogen is mainly converted to N2 gas and lost to the atmosphere. In this study, technologies for nitrogen recovery from wastewater were selected based on four criteria: sustainability (energy use and N2O emissions), the potential to recover nitrogen in an applicable form, the maturity of the technology, and the nitrogen concentration that can be handled by the technology. As in wastewater treatment, the focus is also on the recovery of other resources; the interactions of nitrogen recovery with biogas production, phosphorus recovery, and cellulose recovery were examined. The mutual interference of the several nitrogen recovery technologies was studied using adaptive policy making. The most promising mature technologies that can be incorporated into existing wastewater treatment plants include struvite precipitation, the treatment of digester reject water by air stripping, vacuum membrane filtration, hydrophobic membrane filtration, and treatment of air from thermal sludge drying, resulting respectively in 1.1%, 24%, 75%, 75%, and 2.1% nitrogen recovery for the specific case wastewater treatment plant Amsterdam-West. The effects on sustainability were limited. Higher nitrogen recovery (60%) could be realized by separate urine collection, but this requires a completely new infrastructure for wastewater collection and treatment. It was concluded that different technologies in parallel are required to reach sustainable solutions. Nitrogen recovery does not interfere with the recovery of the other resources. An adaptation pathways map is a good tool to take into account new developments, uncertainties, and different ambitions when choosing technologies for nitrogen recovery.
Title: Nitrogen Recovery from Wastewater: Possibilities, Competition with Other Resources, and Adaptation Pathways
Description:
Due to increased food production, the demand for nitrogen and phosphorus as fertilizers grows.
Nitrogen-based fertilizers are produced with the Haber–Bosch process through the industrial fixation of N2 into ammonia.
Through wastewater treatment, the nitrogen is finally released back to the atmosphere as N2 gas.
This nitrogen cycle is characterized by drawbacks.
The energy requirement is high, and in the wastewater treatment, nitrogen is mainly converted to N2 gas and lost to the atmosphere.
In this study, technologies for nitrogen recovery from wastewater were selected based on four criteria: sustainability (energy use and N2O emissions), the potential to recover nitrogen in an applicable form, the maturity of the technology, and the nitrogen concentration that can be handled by the technology.
As in wastewater treatment, the focus is also on the recovery of other resources; the interactions of nitrogen recovery with biogas production, phosphorus recovery, and cellulose recovery were examined.
The mutual interference of the several nitrogen recovery technologies was studied using adaptive policy making.
The most promising mature technologies that can be incorporated into existing wastewater treatment plants include struvite precipitation, the treatment of digester reject water by air stripping, vacuum membrane filtration, hydrophobic membrane filtration, and treatment of air from thermal sludge drying, resulting respectively in 1.
1%, 24%, 75%, 75%, and 2.
1% nitrogen recovery for the specific case wastewater treatment plant Amsterdam-West.
The effects on sustainability were limited.
Higher nitrogen recovery (60%) could be realized by separate urine collection, but this requires a completely new infrastructure for wastewater collection and treatment.
It was concluded that different technologies in parallel are required to reach sustainable solutions.
Nitrogen recovery does not interfere with the recovery of the other resources.
An adaptation pathways map is a good tool to take into account new developments, uncertainties, and different ambitions when choosing technologies for nitrogen recovery.
Related Results
Adaptive Planning for Resilient Coastal Waterfronts
Adaptive Planning for Resilient Coastal Waterfronts
Many delta and coastal cities worldwide face increasing flood risk due to changing climate conditions and sea level rise. The question is how to develop measures and strategies for...
Current therapeutic strategies for erectile function recovery after radical prostatectomy – literature review and meta-analysis
Current therapeutic strategies for erectile function recovery after radical prostatectomy – literature review and meta-analysis
Radical prostatectomy is the most commonly performed treatment option for localised prostate cancer. In the last decades the surgical technique has been improved and modified in or...
Economics Of Air Separation Products Used For Both Enhanced Hydrocarbon And Sulphur Recovery
Economics Of Air Separation Products Used For Both Enhanced Hydrocarbon And Sulphur Recovery
Abstract
The concept of using the nitrogen from an air separation plant for enhanced hydrocarbon recovery and the oxygen for sulphur production is reviewed. An ar...
Penentuan Status Hara Nitrogen pada Bibit Duku
Penentuan Status Hara Nitrogen pada Bibit Duku
<p>Nitrogen merupakan unsur yang sangat memengaruhi pertumbuhan, perkembangan dan produksi tanaman. Hara ini merupakan komponen esensial klorofil, protein, hormon, dan enzim...
Successful coastal adaptation projects? The role of multi-lateral climate funding.
Successful coastal adaptation projects? The role of multi-lateral climate funding.
<p><strong>This thesis investigates the evaluation of climate change adaptation success of projects in coastal zones of developing countries, specifically focusing on t...
Wastewater-based surveillance for tracing the circulation of Dengue and Chikungunya viruses
Wastewater-based surveillance for tracing the circulation of Dengue and Chikungunya viruses
SummaryBackgroundArboviral diseases, transmitted by infected arthropods, pose significant economic and societal threats. Their global distribution and prevalence have increased in ...
Occurrence and variations of cryptosporidium and giardia in wastewater treatment and receiving river basins
Occurrence and variations of cryptosporidium and giardia in wastewater treatment and receiving river basins
Wastewater disposal may be a source of environmental contamination of Cryptosporidium and Giardia. Releasing untreated wastewater into the environment may result in waterborne or f...
Microalgae growth in industrial wastewater for the production of hydrocarbons
Microalgae growth in industrial wastewater for the production of hydrocarbons
Microalgae have demonstrated unique abilities to photosynthesise the conversion of
biodegradable organic materials and inorganic carbon to value-added biomass because
dissolved nit...

