Hudak, George JEstepp, LisaSchoff, Patrick K2017-10-022017-10-022017-07-14https://hdl.handle.net/11299/190404Collaborators: Jeff Hanson, Brandon Hanson, Stephanie Hanson, Michael Sadowsky, Randall Hicks, Daniel Jones, Tina Löesekann, Siqian Huang, Whitney Scherkenbach, Thomas Ferguson, Monica Haynes, Gina Chiodi Grensing, Travis Eisenbacher, Andrew Burke, Karen Haedtke, and Oksana KolomitsynaThis report opens with an Executive Summary, which briefly describes the project’s major accomplishments to date. The body of the report is constructed in sections focused on five related project efforts: 1) Bioreactor Design, Operation, and Performance, 2) Power Management, 3) Microbiology, 4) Chemical Treatments, and 5) Economic Aspects of Sulfate Reduction. Each of these sections, in turn, starts with a brief summary, which is followed by a detailed report. Additional materials concerning bioreactor design, construction, and operation, as well as experimental design, rationale, methods, and data are included in appendices. In addition, the MnDRIVE Project Accountability metrics, which contain a breakdown of particular project tasks, are included as appendices.enSmart bioremediation technologySulfateNortheastern MinnesotaWatershedsMnDRIVE Transdisciplinary projectNatural Resources Research InstituteUniversity of Minnesota DuluthThe MnDRIVE Transdisciplinary Project Implementation of Smart Bioremediation Technology to Reduce Sulfate Concentrations in NE Minnesota WatershedsNatural Resources Research Institute Technical ReportTechnical Report