• Overview of the Problem
• Understanding the Sewer Collection System
  • History
  • How the Sewer System Works
  • Inflow, Infiltration and Overflows
• Stormwater
  • Stormwater Permits
  • MS4 Permittees
• Progress on the Issue
• A Regional Approach
• FAQs
• Abbreviations & Glossary
• Regulatory Update
  • Federal
  • State
  • Local

UNDERSTANDING THE SEWER COLLECTION SYSTEM

Inflow, Infiltration and Overflows

Unlike water pipes, always full because of the pressure used to deliver water into homes, sewer pipes are rarely full when wastewater is flowing from homes to the sewage treatment plant. When water pipes break, crack or are broken, they leak water out; sewer systems, on the other hand, allow groundwater and stormwater to leak in.

When groundwater or stormwater leak into the sewer system, it takes up extra space that could be carrying wastewater. If the pipes become overloaded, raw sewage may overflow at points throughout the sewer system before it reaches the treatment plant.

Inflow and infiltration are terms used to describe how stormwater and groundwater get into the sewer system.

Inflow
Inflow is stormwater that is directly piped into a separate sanitary sewer system to control runoff. These connections, which may include storm drains in streets, parking lots and driveways and roof gutters, exist in a combined sewer system because it is designed to carry both wastewater and stormwater. Stormwater should never be connected into a sanitary system designed to carry only wastewater.

Some examples of the way inflow affects the sewer system:

• In some cases, homeowners or contractors have illegally attached roof drain pipes and basement sump pumps to the sanitary sewer.
  
• Streams can be directly piped into the sewer system. ALCOSAN has identified at least 12 direct stream connections diverted into the sewer system in the course of constructing roads or homes. Direct stream connections drain millions of gallons of water from 4,500 acres of land and clog the sewers with gravel, rocks, sticks and debris.
  
• Tens of thousands of designed stormwater connections drain volumes of water into the combined sewer system.

Example of inflow: A downspout connected directly to the sanitary sewer system.

Infiltration
Infiltration is excess water that gets into the sewer system through open joints, cracks, and breaks in the pipes. These deficiencies may allow constant infiltration of groundwater. The average sewer pipe is designed to last about 20-50 years, depending on the material. In many cases in this region, collection system pipes and household laterals have gone much longer without inspection or repair and are likely to be cracked or broken.

Some examples of the way infiltration affects the sewer system:

• Cracked or collapsed sewer pipes, caused by deterioration over time, or poor design, installation or maintenance, allow groundwater into the collection system.
  
• Sewer lines are installed beneath a creek or stream because creeks are usually at the lowest point in the area, and it is more expensive to install pipes under a street. These sewer lines are therefore highly susceptible to infiltration when they crack or break. In some cases, broken lines have been known to drain entire streams into the local sewer system.
  

Example of infiltration: A deteriorated house lateral that allowed water to seep into the sewer collection system.

Inflow and infiltration play a significant role in the sewage overflow problem. During dry weather, about 40% of all flow that reaches the ALCOSAN treatment plant is due to inflow and infiltration of stormwater and groundwater.

Of course, wet weather magnifies the problem: Inflow and infiltration can add as much as 3,000 gallons of stormwater per person per day to the sewers, instead of the average daily 100 gallons per person of water use that is typical during dry weather. That's an overload of 30 times more flow per day during rain or snow melt, which then causes sewage to overflow into creeks, streams and rivers at hundreds of locations throughout Allegheny County before reaching the sewage treatment facility.

Overflows
When an overflow occurs in a separate sanitary sewer system, it is called a sanitary sewer overflow (SSO). This may occur at an overflow structure, into a street from a manhole cover or into the basement of homes. Overflow structures, which were legal at the time of construction, and unintentional SSOs both are illegal in separate sanitary sewer systems under the Clean Water Act.

In a combined sewer system, overflows are called combined sewer overflows (CSO). Because combined sewer systems are intended to carry stormwater and wastewater, they were designed with structures to deliberately release excess flow when the system becomes overloaded, usually during wet weather. While overflow structures in combined sewer systems are legal, municipalities must acquire a permit for each structure and very soon will need to dramatically decrease the number of CSOs that occur annually. CSOs may also occur at unintended locations, such as manholes and basements. Like SSOs, these types of CSOs are illegal.

While every community is likely to experience at least a few overflows in their sewer system, the older communities located in downstream valleys experience the most overflows and basement backups due to their low location in the watershed. The sewer collection systems in these communities not only carry their own sewage (and in many cases stormwater), but they also receive the wastewater flow from their neighboring communities upstream. The complex network of integrated sewer collection system pipes throughout the ALCOSAN service area makes it critical for all municipalities to collaborate on and share the responsibility for developing and implementing long-term solutions to the overflow problem.

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