Tunnel and Reservoir Plan
The Tunnel and Reservoir Plan (abbreviated TARP and more commonly known as the Deep Tunnel Project or the Chicago Deep Tunnel) is a large civil engineering project that aims to reduce flooding in the metropolitan Chicago area, and to reduce the harmful effects of flushing raw sewage into Lake Michigan by diverting storm water and sewage into temporary holding reservoirs. The megaproject is one of the largest civil engineering projects ever undertaken in terms of scope, cost and timeframe. Commissioned in the mid-1970s, the project is managed by the Metropolitan Water Reclamation District of Greater Chicago. Completion of the system is not anticipated until 2029,[1] but substantial portions of the system have already opened and are currently operational. Across 30 years of construction, over $3 billion has been spent on the project.[2]
History
19th century
The Deep Tunnel Project is the latest in a series of civil engineering projects dating back to 1834. Many of the problems experienced by the city of Chicago are directly related to its low level topography and the fact that the city is largely built upon marsh or wet prairie. This combined with a temperate wet climate and the human development of open land leads to substantial water runoff. Lake Michigan was ineffective in carrying sewage away from the city, and in the event of a rainstorm, the water pumps that provided drinking water to Chicagoans became contaminated with sewage. Though no epidemics were caused by this system (see Chicago 1885 cholera epidemic myth), it soon became clear that the sewage system needed to be diverted to flow away from Lake Michigan in order to handle an increasing population's sanitation needs.
Begun in 1836, and completed in 1848, the Illinois and Michigan Canal was built, diverting some sewage water from the Chicago River. In 1900, to improve general health standards, the flow of the main branch of the Chicago River was reversed to drain water from Lake Michigan, as opposed to having the river flow into Lake Michigan. This further improved the sanitation of Lake Michigan, and helped to prevent further waterborne epidemic scares.
Between 1864 and 1867, under the leadership of Ellis S. Chesbrough, the city built the two-mile Chicago lake tunnel to a new water intake location further from the shore. Crews began from the intake location and the shore, tunneling in two shifts a day. Clay and earth were drawn away by mule-drawn railcars. Masons lined the five-foot-diameter tunnel with two layers of brick. The lake and shore crews met in November 1866, less than seven inches out of alignment. A second tunnel was added in 1874.[3]
20th century
The construction of the Sanitary and Ship Canal (1892–1900), enlargements to the North Shore Channel (1907–1910), the construction of the Cal-Sag Channel (1911–1922) and the construction of locks at the mouth of the Chicago River (1933–1938) brought further improvements to the sanitary issues of the time. These projects blocked further amounts of sewage from draining into Lake Michigan. The projects also brought fresh lake water to inland waterways to further dilute sewage that was already in the waterways.
Surrounding farmland also engaged in flood control projects. The Illinois Farm Drainage Act of 1879 established drainage districts. These districts were generally named for the basin they drained—for example, the Fox River Drainage District. After World War II, suburban communities began to realize the benefits of separating stormwater from sewage water and began to construct separate sewer and storm drainage lines. The primary benefit of wastestream separation is that storm water requires less treatment than sewage before being returned to the environment.
Flood damage grew markedly after 1938, when surrounding natural drainage areas were lost to development and human activity. Serious flooding has occurred in the Chicago metropolitan area in the years 1849, 1855, 1885, 1938, 1952, 1954, 1957, 1961, 1973, 1979, 1986, 1987, 1996, 2007 and 2008—but most record-setting crests have been set after 1948.
In the 1960s, the concept of Deep Tunnel was studied and recommended as a solution to continuing flooding issues.
Status
Phase 1, the creation of 109.4 miles (176 km) of tunnels ranging from 9–33 feet in diameter, up to 350 feet underground, was adopted in 1972, commenced in 1975, and completed and operational by 2006. Phase 2, reservoirs primarily intended for flood control, remains underway with an expected completion date of 2029. Currently, up to 2.3 billion gallons of sewage can be stored and held in the tunnels themselves while awaiting processing at sewage treatment plants, which release treated water into the Calumet and Des Plaines Rivers.
Additional sewage is stored at the 7.9 billion gallon Thornton Composite Reservoir, and the 350 million gallon Gloria Alitto Majewski Reservoir near O'Hare International Airport. The 10 billion gallon McCook Reservoir is scheduled for completion in 2017 (3.5 billion gallons) and 2029 (6.5 billion gallons). As the reservoirs are decommissioned quarries, construction has been delayed by decreased demand for the quarried gravel. Upon completion, the TARP system will have a capacity of 17.5 billion gallons of storage.
Effects
Severe weather events have forced water management agencies to pump excess wastewater into the lake and river in order to prevent flooding. These incidents have decreased in frequency as more of the Deep Tunnel system has become operational. Long considered an open sewer, the Chicago River now hosts more than 50 species of fish and increased wildlife along its shores. Substantial development is occurring along many portions of the riverfront. Canoeing is once again allowed on the waterway, but swimming is still prohibited due to high pollution levels.
On October 3, 1986, a heavy thunderstorm drenched the southern portion of the Deep Tunnel area with several inches of rain in a short period of time. While the Deep Tunnel system performed satisfactorily by absorbing excess water, water within the system itself rushed past the north side of Chicago and near the Bahá'í Temple in Wilmette. Geysers of over 65 feet (20 m) were reported in both locations for up to an hour as the water was redistributed more evenly through the system. A 30 ft (9 m) geyser erupted downtown at the corner of Jefferson and Monroe.[4] A system of watertight bulkheads has since been installed to prevent the event from occurring again.
During the Chicago Flood of 1992, the water from the Chicago River that leaked into the long-disused underground freight tunnel system was eventually drained into the Deep Tunnel network, which itself was still under construction.
Sources
- Horan, D. (2005). "Deep Tunnel, Deep Ties". Chicago Tribune, March 14, 2005. Retrieved December 23, 2005.
- American Underground Association's Featured Project. American Underground Construction Association, August 1999. Retrieved December 23, 2005.
- Deep Tunnel Project. City of South Holland Website. Retrieved December 23, 2005.
- Schmidt, E. (2004). Chicago's Tunnel, Reservoir Plan. McGraw-Hill Construction, August 2004. Retrieved December 23, 2005.
- . The Metropolitan Water Reclamation District of Greater Chicago. Retrieved April 21, 2013.
- Jones, S. and Waller, J. (2004). Chicago Public Library - Down the Drain. Chicago Public Library website, August 2004. Retrieved December 23, 2005.
References
- ↑ Lydersen, Kari (2011-05-17). "Chicago River on National Endangered List". Chicago News Cooperative. Retrieved 2011-06-06.
- ↑ Sanders, Steve (2005-10-10). "WGN-TV CoverStories: Deep Tunnel". WGN-TV. Archived from the original on 2005-11-05. Retrieved 2005-12-23.
- ↑ Chicago Department of Public Works. Chicago Public Works: A History. 1973.
- ↑ Karwath, Rob (1986-10-17). "Tunnel's Geyser Effect Still Puzzling". Chicago Tribune. Retrieved 2017-07-04.
External links
- Set of photos of the Morrison Knudsen segment of the tunnel
- Metropolitan Water Reclamation District of Greater Chicago
- Video of TARP on YouTube
- Video of TARP on YouTube
- Article and Map in the Encyclopedia of Chicago