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Illicit Discharge Detection & Elimination




Federal regulations define an illicit discharge as “…any discharge to the municipal separate storm sewer system (MS4) that is not composed entirely of storm water…” with some exceptions.
These discharges are considered “illicit” because MS4s are not designed to accept or discharge such non-storm water wastes. It is important to note that illicit does not necessarily mean illegal.
Illicit discharges can come from improperly connected/maintained sanitary sewers, dewatering construction sites, draining swimming pools, draining construction ponds, improper equipment/vehicle washing, improper vehicle/machinery maintenance (drippings) as well as improper disposal of items such as pet waste, cigarette butts, oils, paints, and trash.

Illicit Discharge Interactive Demonstration

Click the links below to view an illicit discharge demonstration (
How to deal with Illicit Discharge  
How NOT to deal with Illicit Discharge


Storm water is not treated in the traditional sense. It is important to note that storm sewer water is different than sanitary sewer waste. Sanitary waste is the modern technical name for sewage, the combined wastewaters from all toilets, sinks, shower/tubs, floor drains, etc. These wastes are treated at a wastewater treatment plant to attain a set of legally specified water quality standards before being discharged into natural waters. Duluth’s (including all of UMD) wastewater is treated at the Western Lake Superior Sanitary District (WLSSD) facility. Unlike sanitary sewer waste, storm water from UMD drains directly into local streams and Lake Superior if preventative measures are not taken. On campus, we have more than 60 preventative storm water features in place to treat the storm water to varying degrees before it discharges to streams. Examples of these features include rain gardens, pervious surfaces, green roofs, filtration ponds, and alternative plantings.


According to the EPA definition in 40 CFR Part 122.26, non-storm discharges can include “water line flushing, landscape irrigation, diverted stream flows, rising ground waters, uncontaminated ground water infiltration, and uncontaminated potable water sources, foundation drains, air conditioning condensation, irrigation water, springs, water from crawl space pumps, footing drains, lawn watering, individual residential car washing, flows from riparian habitats and wetlands, de-chlorinated swimming pool discharges, and street wash water.”


To identify illicit discharges, it is important to know the system and its surroundings. For this reason, UMD has developed and continues to maintain storm sewer system maps.
During storm water outlet inspections, physical observations such as odor, color, and condition are reviewed to locate potential illicit discharges.
Several programs identify potential illicit discharges, including the UMD Spill Prevention Control and Countermeasures Plan, U of M Chemical Hygiene Plan, as well as the state-of-the-art integrated waste management facility at the Twin Cities campus.
We are in the process of completing a building-by-building document that provides record of storm water and sanitary inspections. The goal of this document is to determine potential interconnections for the buildings.
3c-1 UMD Storm Water Illicit Discharge Review (2016) (under development) 
Illicit Discharge Best Management Practices (BMPs) and Standard Operating Procedures (SOPs)

3a-1 Storm Sewer System Map BMP Summary Sheet (2006)

3b-1 Regulatory Control Program BMP Summary Sheet (2006)

3b-1 Priority ID Inspection Areas SOP (2015)

3b-1 Illicit Discharge Response SOP (2015)

3b-1 Emergency Response Plan SOP (2015)

3c-1 Illicit Discharge Detection and Elimination Plan BMP Summary Sheet (2006)

3d-1 Public and Employee Illicit Discharge Information Program BMP Summary Sheet (2006)

3d-1 Swimming Pool Maintenance BMP (2008)

3d-1 Sewer Dye Testing Procedure BMP (2007)

3d-1 Examples of Unusual Conditions BMP (2007)

2016 3d-1 Storm Drain Marking

3e-1 Identification of Nonstormwater Discharges and Flows BMP Summary Sheet (2016)

3e-2 Portable Toilet Management BMP Summary Sheet (2007)

3e-2 Portable Toilets BMP (2008)


IMPROPER CONNECTIONS: Improper connections of indoor floor drains to the storm system are difficult to discover, since these drains rarely have any flow, until an unexplainable exterior contaminant is linked to an interior spill. In the old days, equipment room sump pits and loading dock floor drains were sometimes connected to the storm sewer.

IMPROPER MAINTENANCE: Cracked or broken sanitary lines can leach effluent into the groundwater, later to be picked up in nearby drain tile, or leached directly into nearby cracked or broken storm sewer lines.

DEWATERING: Dewatering construction sites, draining swimming pools, or draining construction ponds into the storm water system is considered illicit discharge. Construction water requires pre-treatment and/or an Minnesota Pollution Control Agency (MPCA) permit prior to discharge into the storm water system. Swimming pools must be de-chlorinated prior to non-sanitary discharge. The MPCA reserves the right to require a separate discharge permit prior to draining a storm water containment or recreational pond.
A close up of dewatering filter equipment.
A campus pool is properly dewatered.
Vehicles or equipment wash water should not be allowed to enter the storm water system. If there is no danger to the ground water, washing (spraying the underside of lawn mowers, rinsing horticultural equipment, etc.) can be done in grassy areas. Washing of vehicles and equipment that could release oils, greases, or other contaminants should be washed in a location that drains to sanitary sewer. Construction tools and equipment should not be washed or rinsed in a manner that allows paints, fines or other materials to contaminate ground or surface waters.

A student washes a campus vehicle in a secured wash location.

The small drips coming from your oil pan or radiator may not seem like much when you see that dime size puddle on your garage floor, but imagine multiplying that by 5000 cars day after day, year after year. With the expanse of parking lots and the sheer volume of cars coming and going from UMD, those small individual drips can add up to a substantial problem. Every rain washes a little more of that material into one of our creeks.
A fuel spill drains into a campus catch basin.

Litter plugs up storm sewers, destroys the visual beauty of our area, and can harm aquatic creatures and wildlife. It can wash and blow into our creeks and ponds from several sources, the most common on campus are:
• Litter dropped by pedestrians, spectators, or blown from cars.
• Overflowing or unclosed trash cans and dumpsters.
• Construction sites.
An overfilled dumpster without a lid.
Oils, paints, and other liquids dumped or washed into the catch basins on campus would end up directly in local streams and in Lake Superior. 

When pet waste is not picked up and not properly disposed of, it can cause high levels of bacteria (pathogens) in our streams and lakes.
Litter at the end of a storm drain, about to enter local waters.
Last Modified: 4/13/2016