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Large Subsurface Treatment Systems in Minnesota. Brett Ballavance, P.E. MPCA, Duluth. New Wave of Wastewater Treatment. Aging Infrastructure in Minnesota. 2005 WINS Study (Wastewater Infrastructure Needs Survey) 57% of MN sewer systems are 30 years old or older
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Large Subsurface Treatment Systems in Minnesota Brett Ballavance, P.E. MPCA, Duluth
Aging Infrastructure in Minnesota • 2005 WINS Study (Wastewater Infrastructure Needs Survey) • 57% of MN sewer systems are 30 years old or older • 14,668 miles of sewer system in the state • Statewide average age of WW treatment facilities is 22 years
Jan. 2006 Report to the Legislature • Over $3.4 billion of need in the state right now for sewer systems & treatment plants • Covering over 1,000 wastewater projects • State Revolving Fund/WIF is providing $121 million this year for ~30 projects • $250-$300 million requested each year • At the same time federal funding is being reduced (cut 30% in last 2 years)
Growth of MSTSs & LSTSs in MN • Big increase in the # of LSTSs in Minnesota • ~109 LSTSs in the state • Approx. 76% permitted in last 7 years • Nearly 880 domestic MSTSs in state • Agency is responding by creating new tools • Design Guidance for LSTS (3rd version soon) • New chapter 7081 rules for MSTS
Cluster System Terms • ISTS • Individual Sewage Treatment System • Single home systems • MSTS • Medium-sized Sewage Treatment System • Cluster, less than 10,000 gpd of flow • LSTS • Large Subsurface Treatment System • Cluster, greater than 10,000 gpd of flow
Summary of LSTSs in Minn. • 109 total • Region w/ Most: Metro (36) followed by Brainerd (35) • County w/ Most: Sherburne (15) followed by Washington (12) & Scott (10) • ~2.5 million gpd total treated by LSTSs
Typical LSTS Flow Diagram • Use with the permission of North American Wetland Engineering
Secondary Treatment Tech. • Recirculating sand filters: 22 • Constructed wetlands: 12 • Recirculating gravel filters: 10 • AdvanTex textile filters: 9 • FAST units: 7 • Peat filters: 4 • SBRs: 2 (?) • None: 36
LSTS Guide Highlights • Do I need a MPCA permit? • Preliminary Site Evaluation (up front planning) • Soils Evaluation/BOD and TSS treatment • Pathogen Treatment • Nitrate Nitrogen Treatment • Areal Drainfield Sizing
LSTS Guide Highlights • Phosphorus Treatment • Hydrogeologic Evaluation • Septic Tank Sizing and Design Issues • Sewer System Design • Permit Application Submittal
Do I Need a State Permit? • 30-homes requirement being eliminated ?(likely) • Old state permit threshold • 10,000 gpd or • 30-homes or more • New state permit threshold • Just the 10,000 gpd
Preliminary Site Evaluations • New version of guide will have more of an emphasis on first doing an up front desktop analysis. • Main goal is to identify potential problem issues & to justify a more detailed and costly evaluation of the site. • More resources listed.
Soils Evaluation • 1st & 2nd version – PSS preferred • 3rd version – PSS required ?(likely) • Soil sizing factors • 2 lists down to 1 • All for pretreated effluent • ?? May change??
Pathogen Treatment • No changes to this section. • Yet we are considering requiring monitoring wells directly below the middle of the drainfield to monitor both mounding height and to take fecal samples to evaluate performance.
Nitrate Nitrogen Concerns • Some older LSTSs have high N levels in wells • Some areas have high background levels • LSTSs/MSTSs contribute to this problem • Agency developed LSTS nitrogen policy • Treat (denitrify) to 10 mg/l • Or model to show compliance at property line
Nitrogen Policy Changes • Previous policy/guide – 3 options • End-of-Pipe 10 mg/l total nitrogen • Model 10 mg/l at boundary & install gw wells • Model 5 mg/l at boundary & no wells needed • New policy/guide – 2 options • End-of-Pipe 10 mg/l total nitrogen • Model 10 mg/l at boundary & install gw wells
Tertiary Treatment - Denitrification • So far 3 technologies approved • 11 total systems but 3 technologies • Fall under the heading of: • “Denitrification processes with supplemental substrate addition” • Carbon source addition, attached growth denit
Approved Denit Systems • Chemical (carbon source) addition • Acetic acid approved for 10 cases so far • “Fresh” wastewater carbon source for 11th • Methanol, “Micro C”, etc. also work • Basic concept of this type of denit • Nitrify in the secondary treatment unit • Denitrify in subsequent unit by adding a carbon source with attached growth on a substrate
Denitrification Heterotrophic Bacteria NO3- + Organic Matter N2 + CO2 + OH- + H2O NO3- can be reduced, under anoxic conditions, to N2 gas through heterotrophic biological denitrification as shown in the following unbalanced equation:
Approved Denit Systems • NAWE Denit Unit • Nitrified in gravel filter (typical) • Denitrified in subsequent tank with carbon source addition & fixed growth on plastic media • FAST Denit Unit • MicroFAST for secondary treatment • NitriFAST – for further nitrification • ABC-N – anoxic denit. Zone • Fessel Denit Unit
Phosphorus Changes • 500 feet is the new trigger for when to evaluate for phosphorus • Within 500 feet of a surface water evaluate adsorption capacity of soils for life of system • Previous policy was 300 to 2,640 based on soil texture
Linear Loading Rate • Dropping the linear loading rate section of the guide because it is thought that groundwater mounding analyses capture this concern for horizontal movement of water more appropriately.
Groundwater Mounding • All projects must evaluate potential for groundwater mounding regardless of nitrogen option chosen • Thus all LSTS projects involve some level of hydrogeo work beyond soils analysis
Hydrogeological Evaluations • Require investigations into items such as: • Hydraulic Permeability (i.e. slug tests, pumping testing, laboratory tests, estimates from grain-size distribution) • Aquifer (saturated) Thickness (deep borings, hydrogeologic atlas, nearby well boring records) • Specific Yield (literature data, laboratory tests)
Septic Tank Sizing Changes • STEP/STEG or community tanks • Third option would be a clarifier – continuous solids removal • Fourth option would be an engineered design or vendor/product-specific design • Performance-based • Monitor tank effluent for secondary treatment design compliance (lbs BOD/day)
Conclusion • LSTSs/MSTSs are likely going to continue as a part of our infrastructure • Use LSTS Guide as starting point in design • Treatment is easy – getting water in ground is often not easy (mounding) • Follow the nitrogen policy • Plan for system management and O&M • If designed, constructed, and operated well – can be a viable part of our infrastructure
Questions/Comments • For more information call or email me at: • 218/723-4837 • Email: brett.ballavance@pca.state.mn.us • Design Guidance for Large Subsurface Wastewater Treatment Systems (LSTS) • http://www.pca.state.mn.us/water/wastewater-engineering.html • Nitrogen Policy • http://www.pca.state.mn.us/publications/wq-wwprm1-10.pdf