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Description: Determining the Dissolution Rate of Field Grown Struvite
Determining the Dissolution Rate of Field Grown Struvite
Abstract
Background Managing phosphorus (P) within the Food-Energy-Water (FEW) network is essential for securing P fertilizers necessary for meeting projected food demands and preventing excess P leaching into waterways from municipal water resource recovery facilities (WRRF) and agricultural operations. Minimizing the release of P into waterways prevents impacts such as eutrophication, dead zones, deadly algal blooms, and biodiversity loss.
Background Managing phosphorus (P) within the Food-Energy-Water (FEW) network is essential for securing P fertilizers necessary for meeting projected food demands and preventing excess P leaching into waterways from municipal water resource recovery facilities (WRRF) and agricultural operations. Minimizing the release of P into waterways prevents impacts such as eutrophication, dead zones, deadly algal blooms, and biodiversity loss.
Author(s)
Sam AguiarAdrian RomeroLeon DowningRachel LeeTom JohnsonRoland Cusick
SourceProceedings of the Water Environment Federation
SubjectSession 03: Phosphorus Recovery
Document typeConference Paper
PublisherWater Environment Federation
Print publication date Jul 2019
ISSN1938-6478
DOI10.2175/193864718825157381
Volume / Issue
Content sourceNutrient Removal and Recovery Symposium
Copyright2019
Word count9
Subject keywordsPhosphorus Removal and RecoveryResearchSidestream Treatment

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