City of Kansas City, MO
Troost and Brush Creek CSO Project Overview

Wade and Associates, Inc., in partnership with CDM (Camp, Dresser, & McKee) is assisting the City of Kansas City, Missouri in implementing a Combined Sewer System Investigation in the Troost and Brush Creek Neighborhood. 

The purpose of the study is to investigate the existing combined sanitary and storm sewer system at Troost and Brush Creek CSO #33 (combined sewer overflow), in order to evaluate potential sewer separation efforts. 

Field investigations for this project include smoke testing of approximately 6,700 linear feet of sewers. as well as CCTV inspection and dyed-water investigation.  Field crews carry identification and use Wade & Associates vehicles. The current smoke testing program is scheduled for February, 2006.

Door hanger notification for smoke testing of sewer lines in the study area will be distributed at least 2-4 days before testing in the area begins.  Materials used are: NON-TOXIC, HARMLESS, ODORLESS, AND CREATE NO FIRE HAZARD.
 

Previous neighborhood smoke testing programs were completed by Wade in the Brookside Neighboorhood and the Pennsylvania Ave Neighborhood areas.  Wade is also assisting in the Kansas City, MO, Round Grove Creek Overflow Control Program - SSES & I/I Study.  See Wadeprojects.com for more info about these programs.
 

We would like to thank the citizens of the Troost and Brush Creek Neighborhood for their efforts in making this project a success!
 

Check our Daily Schedule link for boundaries of this study area.  Visit our SSES links to learn more about Wade's other field investigations.  

In general, a Sanitary Sewer Evaluation Study (SSES)
may consist of all or some of the following parts:

Flow Monitoring: In order to determine the volume of water flowing through a sewer pipe, the flow must be monitored and measured. Once this is done, data analysis is completed to determine relationships between flows and rainfall data. The resulting data may also be used to build a computer model of hydraulic flows throughout the entire sewer system. This hydraulic model is highly useful in determining areas of stress, addressing capacity issues, and diagnosing problems in the sewer system.  A hydraulic model is also useful as a tool for future planning and development.

Smoke Tests: Smoke testing (often referred to as a rainfall simulation test) is used to detect I/I sources in both the private and public sectors. Smoke testing is performed by placing a smoke generator into the intake chamber of a high-capacity blower placed over an isolated sewer pipe. Field crews monitoring the area document locations where smoke escapes the system at some defect or I/I source. Although not a defect, one common escape route for smoke is the vent pipe: this is the pipe emerging from the roof of a private dwelling that allows the escape of sewer gasses before they enter the residence.  The smoke that can be seen coming from  vent pipes or rising from areas in the ground is: 

NON-TOXIC, HARMLESS, ODORLESS, AND CREATES NO FIRE HAZARD.
 

Manhole Inspections: Fifty percent or more of water entering into the sewer system, and overloading the sewer pipes, enters through manhole structures. During these inspections, our trained field inspectors survey all manhole structures and components for defects, as well as incoming and outgoing sewer lines.

Visual Pipe Inspections: Commonly called 'lamping,' this is the process of entering a manhole and using a light and mirror to visually examine all sewer pipes entering and exiting the manhole to identify early signs of pipe deterioration, root intrusion, deposition and other defects.

Building Surveys: Smoke testing alone cannot confirm every possible I/I defect on a property. For this reason building surveys are conducted to detect and/or confirm potential I/I sources. During a building survey, crews examine private property for evidence of defects in the sewer line connections, called 'service laterals.' Such defects can lead to unwanted and potentially dangerous influx of gasses into residences. Such surveys are conducted with minimal disturbance to building residents and owners; special provisions are made to assure homeowners and occupants of the legitimacy of the survey and to communicate the importance of the information needed.

TV Inspections: This process involves transporting a closed-circuit TV camera through a sewer pipe. Engineers and technicians view the resulting footage and glean valuable data on conditions of the sewer pipe.

Dyed-Water Testing: Sometimes a simple visual inspection of a suspect I/I source cannot confirm if the source is connected to the sewer system. In this case, crews will introduce dyed-water into the suspect source. If dyed water shows up in the sewer system, the leak will be confirmed. This makes identifying leaks and breaks in the pipe much easier to identify.