Internal hydraulics of an agricultural drainage denitrification bioreactor

Laura Christianson, Matthew Helmers, Alok Bhandari, Thomas Moorman

Research output: Contribution to journalArticlepeer-review

62 Scopus citations

Abstract

Denitrification bioreactors to reduce the amount of nitrate-nitrogen in agricultural drainage are now being deployed across the U.S. Midwest. However, there are still many unknowns regarding internal hydraulic-driven processes in these engineered treatment systems. To improve this understanding, the internal flow dynamics and several environmental parameters of a denitrification bioreactor treating agricultural drainage in Northeastern Iowa, USA were investigated with two tracer tests and a network of bioreactor wells. The bioreactor had a trapezoidal cross section and received drainage from approximately 14.2ha at the North East Research Farm near Nashua, Iowa. It was clear from the water surface elevations and the continuous pressure transducer data that flow was attenuated within the bioreactor (i.e., reduction in peak flow as the hydrograph moved down gradient). Over the sampling period from 17 May to 24 August 2011, flow conditions and internal parameters (temperature, dissolved oxygen, oxidation reduction potential) varied widely resulting in early samplings that showed little nitrate removal ranging to complete nitrate removal (7-100% mass reduction; 0.38-1.06gN removed per m3 bioreactor per day) and sulfate reduction at the final sampling event. The bioreactor's non-ideal flow regime due to ineffective volume utilization was a major detriment to nitrate removal at higher flow rates. Regression analysis between mass nitrogen reduction and theoretical retention time (7.5-79h) suggested minimum design retention times should be increased, though caution was also issued about this as increased design retention times and corresponding larger bioreactors may exacerbate detrimental by-products under low flow conditions. Operationally, outlet structure level management could also be utilized to improve performance and minimize detrimental by-products.

Original languageEnglish (US)
Pages (from-to)298-307
Number of pages10
JournalEcological Engineering
Volume52
DOIs
StatePublished - Mar 2013
Externally publishedYes

Bibliographical note

Funding Information:
Funding for this research was provided by the Leopold Center for Sustainable Agriculture. This project was also supported by Agriculture and Food Research Initiative Competitive Grant No. 2011-67011-30648 from the USDA National Institute of Food and Agriculture (pre-doctoral fellowship to lead author). Additional thanks goes to Chad Ingels and the Coldwater Palmer Watershed Improvement Association for funding the installation and monitoring equipment and to Ralph White and Ken Pecinovsky for site management. Lastly, the authors owe a significant debt of gratitude to Carl Pederson and Reid Christianson for assistance in the field.

Keywords

  • Agricultural drainage
  • Denitrification bioreactor
  • Nitrate
  • Tracer test

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