Presentations by Advanced Engineering and Environmental Services
Matches: 21
Membrane Technology Application In Red River Valley North Dakota
The City of Fargo completed a Facility Plan of their Water Treatment Plant (WTP) in 2011 to address two main issues: increasing water demands and high sulfate concentrations within a raw water source (Sheyenne River) primarily due to Devils Lake flooding. Reverse Osmosis (RO) was recognized as the most appropriate technology for sulfate reduction, ...
An Evaluation of the Impacts to Membrane Filtration under the Influence of TOC, MIB, and Geosmin
The paper and presentation is of interest to utilities that are challenged by total organic carbon (TOC), Geosmin, and MIB in their source water and are considering the use of membrane filtration to meet disinfection by-product (DBP) maximum contaminant levels (MCLs) and address taste and odor (T&O). Current operations are compared from plant to p...
Sheyenne River Unique Water Quality Challenges: A Comparative Pilot Study of Three MF/UF Membranes
The City of Fargo Water Treatment Plant (WTP) recently piloted GE submerged ZeeWeed 1000, Siemens encased MemCor L20N, and Pall encased UNA-620A membranes for its new 15 million gallons per day (mgd) membrane WTP. The source water Sheyenne River quality is challenging for membrane treatment: elevated total dissolved salts, high total organic conten...
Potential Drought Conditions Prompt UF & RO Pilot Study on High Organic Surface Water
Surface waters, from a water treatment perspective, can be difficult to treat due to variations in seasonal source water quality. The City of Grand Forks, ND water treatment plant (GFWTP) utilizes surface water that is further complicated with high organic material (influent TOC concentrations averaged 14 mg/L and range from 4-26 mg/L seasonally). ...
Concentrate Management and NDPDES Permitting For Inland Brackish Water Desalination Utilizing A River Shared By Multiple States
City of Fargo North Dakota has a surface water reverse osmosis system (RO) which requires brine concentrate discharge management back to a river that meets NPDES permit requirements. Contaminants of concerns are sulfates and heavy metals. Model simulations performed to determine proper mixing zone....
Lessons Learned from Two Membrane Applications on Wastewater Reuse
This paper discusses the lessons learned at the City of Fargo and the City of Grand Forks, North Dakota, water reuse facilities. A 1.4 MGD Effluent Reuse Facility (ERF) was constructed in the fall of 2008 to supply water to an ethanol plant. During the summer of 2014, a 4-month pilot study was performed to investigate an integrated membrane system ...
An Integrated Membrane Solution for a Most Challenging Surface Water - The New Grand Forks, ND Regional Water Treatment Plant
This paper summarizes the steps, processes, and results for the membrane solution on a challenging surface water in Grand Forks, ND and includes the following: Introduction; Initial Plant Design; Membrane Feasibility Piloting; Membrane Optimization Piloting; Technology Selection; and Conclusion....
Design and Operation Considerations for Cold Water Membrane Treatment Facilities
Membrane facilities are becoming a common and economical form of water treatment. Special design and operational considerations must be made when using in cold climates, as their efficiencies can be affected by changes in water density. Reviewing published literature combined with operational experience from both pilot and full scale membrane syste...
Pretreatment and Membrane Effects: After the Fire?
This presentation will summarize findings of a literature search and utility survey on the effects of large wildfires on water quality, especially in regards to membrane microfiltration and pre-treatment systems. The intent is to illuminate potential mitigation measures that can be taken to improve membrane feed water quality after a large-scale fi...
A Quantitative Procedure To Select MF/UF Membrane Design Flux Based Upon Piltoing Performance
A new quantitative procedure is proposed in this manuscript to aid engineers/investigator to analyze membrane pilot study data and select appropriate membrane design flux. This presentation will step wise demonstrate how this procedure was successfully used in two membrane water treatment plants final design in last four years....
Update on Fargo Membrane Water Treatment Plant
Fargo owns and operates a15 MGD membrane water treatment plant built in 2018, the first true surface water RO plant in the nation. The treatment processes consist of coagulation/flocculation/sedimentation, UF membrane, and RO membrane. The RO bypass flow goes through ozone and GAC. This presentation will discuss some unique aspects of the project t...
Experiences at Grand Forks and Regional Facilities on Operations and Troubleshooting
Summary of unique, pilot, design, and operations for three regional facilities including Grand Forks, Hillsboro, and Traill (and Valley City). All of which have RO, with Grand Forks and Valley City including UF. Topics may include organics passing through membranes and fouling, antiscalant tricks to reduce catridge filter, membrane replacement st...
Operation Considerations in Design of the Big Sky WRRF MBR
This presentation will utilize the MBR procurement process for the Big Sky WRRF Expansion and Upgrade project to educate the audience on the key MBR design features as they relate to MBR performance and operation. Major topics will include design specifications and the reasoning behind them, as well as cleaning and access to equipment for satisfac...
Grand Forks Regional WTP - An Innovative Facility for Modern Water Quality Challenges
The City of Grand Forks recently commissioned a green field WTP that was decades in the making. The layout and treatment systems of the new facility take into account the flashy water quality of both the Red Lake and Red Rivers to dampen the affects of several factors, including sulfates, taste and odor, hardness, turbidity, and water availability....
Cold Climate Surface Water Membrane Water Treatment Plant Operation Considerations
The City of Fargo owns and operates a 15 million gallons per day (MGD) integrated membrane water treatment plant (MWTP), which is the largest and most sophisticated surface water membrane treatment plant in North Dakota, and potentially the upper Midwest. The MWTP has been a demonstration site since it was constructed. Fargo MWTP’s major treatmen...
Cold Climate Surface Water Membrane Water Treatment Plant Operation Considerations
The City of Fargo owns and operates a 15 million gallons per day (MGD) integrated membrane water treatment plant (MWTP), which is the largest and most sophisticated surface water membrane treatment plant in North Dakota, and potentially the upper Midwest. The MWTP has been a demonstration site since it was constructed. Fargo MWTP’s major treatmen...
Sturgis: More Than a Motorcycle Rally
The City of Sturgis is located approximately 28 miles west of Rapid City in western Meade County, South Dakota. The City reports a permanent population of approximately 7,000 people. The permanent population is increasing, and the Sturgis Motorcycle Rally held in August of each year draws between 400,000 and 800,000 visitors during the 2-week event...
Sturgis: More Than a Motorcycle Rally
The City of Sturgis is located approximately 28 miles west of Rapid City in western Meade County, South Dakota. The City reports a permanent population of approximately 7,000 people. The permanent population is increasing, and the Sturgis Motorcycle Rally held in August of each year draws between 400,000 and 800,000 visitors during the 2-week event...
Fargo 15 MGD Integrated Membrane WTP: Pilot Study, Design, Operation and Optimization
The City of Fargo, ND, owns and operates a 15 MGD membrane WTP that treats surface water that has high fouling potential: 8-16 mg/L organics, TDS up to 1,000 mg/L, and wide temperature swing 33-85 °F. The plant faces various challenges through seasons: pretreatment upsets (poor settling) and high operating pressures in winter and spring, severe or...