DWSD Customer Service Phone Number 313-267-8000.  
    DWSD 24-hour Emergency Service Phone Number 313-267-7401


DWSD.ORG, the official website of the Detroit Water and Sewerage Department.

Overview of Storm Water in Detroit

When it rains in Detroit, storm water falls on rooftops, streets, sidewalks and parking lots and then this storm water flows into our sewer system. The sewer system in Detroit is a combined sewer system. That means it carries both storm water and sanitary sewage. During wet weather, too much storm water can overload the combined system. This might cause basement backups, street flooding, and polluted wastewater to flow into the Rouge River, the Detroit River, and eventually, Lake Erie.

We all share the benefits of healthy water and the consequences of overloading Detroit’s combined sewer system. That’s why we also share the responsibility for controlling the amount of storm water that flows into the system.

Outfall on Rouge River

Outfall on Rouge River

Outfall on Rouge River

CSO Basin


Learning about Detroit Storm Water and Solutions

Use these links to learn more about storm water, the combined sewer system, and what you can do to be a part of Detroit’s storm water solution.

How does untreated storm water and sanitary sewage get into our waterways, like the Detroit River and Lake Erie?
What is DWSD doing about this problem?
What is Green Infrastructure and how can it help Detroit?

How Does Untreated Storm Water and Sanitary Sewage Get Into the Rouge River, the Detroit River and Lake Erie?

In southeast Michigan, approximately three million residents and thousands of businesses send wastewater down their drains each day to a network of sewer pipes that lead to the Detroit Wastewater Treatment Plant (WWTP). The sewer pipes don’t only carry wastewater from toilets, showers, and drains—they also carry storm water when there’s wet weather. When wastewater from homes and businesses mix with storm water, the Rouge and Detroit Rivers are in danger of becoming more polluted.

Storm Water in the Combined Sewer System. Combined sewers transport wastewater from homes and businesses with storm water during wet weather in a single pipe. During storms, combined sewer systems collect the storm water that runs off our streets and houses along with untreated sewage. That means the volume of flow in that single pipe can be 10 to 100 times greater than the volume of flow that passes through the pipe on a dry day. In southeast Michigan, 30 percent of the sewer systems (26 of 77 communities) that send flows to the Detroit WWTP are combined sewers. Combined sewers were constructed when development was much lower, meaning the pipes had to carry less flow.

During wet weather, there is a lot of pressure on the collection and treatment system. If flows exceed the capacity of the system, an overflow of untreated sewage and storm water enters the Rouge and Detroit Rivers. These overflows are called combined sewer overflows, or CSOs. CSOs are a last resort to prevent sewer backups and basement flooding.

Storm Water in the Sanitary Sewer System. Many of the conventional sanitary sewers in the remaining 70 percent of the service area take on storm water flow from footing drains that are connected to the sanitary sewer rather than to a sump in the basement. Like combined sewers, sanitary sewers with storm water flows can become overloaded and cause sanitary sewer overflows, or SSOs, to the Rouge and Detroit rivers.

Storm Water in the Municipal Separate Storm Sewer System (MS4). There are small portions of Detroit, as well as portions of other suburban communities, that have pipes and other conveyances (e.g., ditches) intended to transport only storm water, referred to as a municipal separate storm sewer system, or an MS4. Unlike wastewater in the combined sewer system and sanitary sewer system, storm water that travels through the MS4 is never treated and goes directly into rivers and lakes. Approximately four percent of the system is an MS4. When there is too much storm water in the MS4, streets and homes can experience flooding.

How is DWSD Managing Storm Water?

DWSD is responsible for managing facilities and programs to prevent untreated CSOs, as well as reducing the quantity and improving the quality of storm water in Detroit.

Managing storm water in the combined sewer system. DWSD staff manage and operate the collection system to prevent combined sewer overflows, or CSOs, from occurring. Facilities like retention treatment basins, or RTBs, temporarily store and treat combined sewage. From January through April 2014, these RTBs prevented more than 7.5 billion gallons of untreated combined sewage from overflowing into our waterways.

   DWSD’s Protecting Our Waterways fact sheet provides an overview on DWSD’s progress in preventing CSOs.

   Visit DWSD’s Customer Outreach Portal for more information on DWSD’s CSO facilities and efforts to manage pollution from the combined sewer system.

To prevent more overflows without expensive investments in more collection facilities, DWSD is working to reduce the amount of storm water that enters the combined sewer system through investments in Green Infrastructure approaches. This is part of DWSD’s Alternative Rouge River CSO Control Program, a 25-year phased plan that focuses on Green Infrastructure solutions and right-sized CSO control facilities.

Managing storm water in the municipal separate storm sewer system (MS4). For storm water entering the separate storm sewer system, DWSD has a National Pollutant Discharge Elimination System (NPDES) MS4 permit. This permit requires DWSD to develop and implement a storm water management program (SWMP). The SWMP includes six types of management activities intended to improve the quality of storm water before it enters the MS4.

    Download a copy of DWSD’s 2013 SWMP (PDF, 136 pp., 9.3 MB)

Rainfall to Results: The future of stormwater

Based on input from leading stormwater professionals, the Water Environment Federation (WEF) Stormwater Institute drafted a report, Rainfall to results: The future of stormwater that details the challenges, opportunities, and pathways to improving the nation's stormwater systems to make them more efficient, effective and sustainable. To read full report, Click Here.