Combined Sewer Overflows

Drivers and Stressors

Community Investments Have Reduced Pollution from Combined Sewer Overflows (CSOs)

Discharges from CSOs Dropped by Eighty Percent Over Two Decades

WHY IT MATTERS

The term “combined sewer overflows” refers to discharges of untreated or partially treated mixtures of sewage and stormwater into rivers or the Bay after rainstorms, imperiling water quality and public health.

When sewer systems were built in the Casco Bay watershed, even as late as the mid-twentieth century, it was common to install pipes that collected a combination of sewage and rainwater, and discharged the mixture into nearby waters. Today, those pipes (if they have not been replaced) normally carry the combined sewage and rainwater to a wastewater treatment plant instead. Heavy rainfall, however, can overwhelm the capacity of the sewer system or the wastewater plant, leading the overflow to be discharged—pollution and all—directly into a waterbody. Combined sewer overflows (CSOs) are therefore regulated, and municipalities are required to make progress reducing discharges.

Fixing this problem is challenging and expensive. Communities must build parallel stormwater and sanitary sewer systems (known as “sewer separation”), redesign combined sewers, or build underground tanks to store large volumes of combined waters after storms, which are then released gradually to wastewater treatment facilities.

STATUS

CSO volumes have, on average, declined 7.5 percent each year across the Casco Bay watershed over the past two decades. Portland, South Portland, Westbrook, and Cape Elizabeth had permitted CSOs in 2019. Portland accounted for most CSOs, by volume, events, and locations. All four communities and Portland Water District are working to reduce CSO discharges. 

CSO Outfall Locations

In 2019, 40 CSO outfalls were classified with an "active" permit status. Some of these active outfalls, however, have been remediated or eliminated and have not discharged CSO effluent in several years.

Number, Volume, and Reductions of Combined Sewer Overflows (CSOs)

Community Storms with Measurable CSO Discharges 2019 Permitted Outfalls 2019 CSO Volume 2019 (millions of gallons) Percent Reduction 1997-1999 vs 2017-2019
Cape Elizabeth 2 1 0.4 93%
Portland and Portland Water District 46 30 184.5* 78%
South Portland 3 4 8.7 95%
Westbrook 4 5 9.8 88%
TOTAL N/A** 40 203.4 80%
* This value does not include “bypass” wet weather flows at the East End Wastewater Treatment Facility, which receive primary treatment and disinfection.
** A total is not applicable in this column because the same storm may cause CSO discharges in multiple communities.

Decrease in CSO Volumes in Casco Bay Watershed

Annual CSO volumes in the Casco Bay watershed have declined approximately 80 percent over a period of two decades. The improvement reflects long-term investments by communities with CSOs. Years with high CSO volumes tend to correspond to years with high rainfall as measured at the Portland Jetport. Yarmouth had permitted discharges until 2002, but they were too small to be visible on this graph.

Portland CSO Volumes by Site

Over the past five years, 44 percent of Portland's CSO discharge volume has passed through the two most significant CSO outfalls at Preble Street and Franklin Street. The city’s Back Cove South CSO Storage facility, under construction in 2021, is designed to catch and store up to 3.5 million gallons of CSO effluent, principally from those two outfalls. (Source: PWD)

successes & challenges

  • Portland Water District (PWD) has a sophisticated monitoring system that tracks CSO volumes in real time at many outfalls. PWD staff use the data to identify emerging problems and improve operations of the sewer systems.
  • Despite the rising costs of remediation and some delays in implementing State-mandated Long-Term Control Plans, Casco Bay communities have made substantial progress over the past twenty years in reducing CSOs, and progress looks likely to continue.
  • Current plans call for continued investment of tens of millions of dollars in CSO abatement but not closure of all CSOs. Costs to eliminate the last few climb rapidly, and greater water quality benefit may be achievable by investing in other water quality solutions.
  • A primary goal of the CSO abatement effort has been to remove CSO discharges from small streams. Portland accomplished that for Fall Brook but still has CSO outfalls in Capisic and Nasons Brooks. South Portland still has a CSO outfall to Barberry Creek and one to Calvary Pond. Elimination of CSO outfalls to these vulnerable waters remains a priority.
  • In 2019, wet weather bypass flows at Portland’s East End Wastewater Treatment Facility—which receive partial treatment, including disinfection, and so pose a lower human health risk—were nearly 1.3 times the CSO volumes. For comparison, the facility’s total permitted discharges of treated wastes are twenty-five times greater.

STATE OF CASCO BAY