New York City has released photos today of this critical—and historic—piece of our water supply infrastructure.
The city also provided some great detail on why the New Croton Aqueduct is so significant. The Department of Environmental Protection says that the $177 million rehab project is a “key milestone towards reactivation of the Croton Water Supply System, which can provide between 10 and 30 percent of the city’s daily water needs.”
More Information from the City’s Release:
The Aqueduct was originally placed into service in 1890 and is a 33-mile-long, 13-foot-diameter, brick-lined tunnel that was engineered to convey by gravity up to 290 million gallons of drinking water each day from the New Croton Reservoir in Westchester County to Jerome Park Reservoir in the Bronx.
The Aqueduct begins just below ground level and reaches a depth of roughly 400 feet.
The New Croton Aqueduct conveys water from the City’s oldest collection of upstate reservoirs in Westchester and Putnam Counties, the Croton watershed, to the in-city drinking water distribution network. For more than 150 years the system provided unfiltered drinking water to the city, first through the Old Croton Aqueduct, which was built in 1842, and then the New Croton Aqueduct.
However, as population density increased around the Croton reservoirs, water quality in the system diminished and, in the late 1990s, DEP stopped using Croton Water for in-city distribution and began planning the construction of a filtration plant. With the system taken off-line and the Aqueduct drained of water, DEP conducted an extensive inspection of the tunnel and began plans for repairs.
Water for New Yorkers of the Future
A major component of the project was the connection of the Aqueduct to the Croton Water Filtration Plant in the Bronx.
A large concrete plug, 58 feet long and 12 feet wide, was built within the Aqueduct to direct the water through a new tunnel to the filtration plant. Once the water has gone through the filtration process, it travels through a separate tunnel back to the Aqueduct, downstream of the concrete plug, and towards the distribution network. The filtration and mechanical systems within the Croton Plant are currently being tested with water provided through the New Croton Aqueduct.
The completion of the Croton Filtration Plant and the reactivation of the Croton drinking water supply system will play important roles in the future as DEP repairs leaks in the Delaware Aqueduct, which currently supplies more than 50 percent of the city’s daily water needs.
Last year DEP began building two vertical shafts on opposite sides of the Hudson River in Orange and Ulster Counties. The shafts will be used by workers to build a bypass tunnel around a leaking portion of the Delaware Aqueduct, roughly 600 feet below ground level. Once that bypass tunnel has been built, DEP will temporarily shut down the Delaware Aqueduct in 2021 to make the necessary connections.
The Croton system will be critical in ensuring that DEP can continue to meet the city’s drinking water needs during the shutdown of the Delaware Aqueduct. It will also help to supplement the city’s water supply during future drought conditions.
DEP manages New York City’s water supply, providing more than one billion gallons of water each day to more than nine million residents, including more than eight million in New York City.
The water is delivered from a watershed that extends more than 125 miles from the city, comprising 19 reservoirs and three controlled lakes. Approximately 7,000 miles of water mains, tunnels and aqueducts bring water to homes and businesses throughout the five boroughs.
And for all you New York City water system fanatics, here are some details on the actual work on the aqueduct:
Rehabilitation work included re-grouting the brick lining of the tunnel, upgrading 34 shaft site connections that allow crews to access the tunnel from ground level, and repairing valves and pumps that allow certain Westchester communities to pull water from the Aqueduct.
Five historic gatehouses located at ground level along the route of the Aqueduct were also restored.
Due to a limited number of access points, and restrictions on the size of the equipment that would fit through them, much of the machinery was taken apart and lowered by crane though the shafts hundreds of feet down to the Aqueduct, where it was reassembled.
The inspection of the Aqueduct began in 1996 and included the use of ultrasonic stress waves, ground penetrating radar, and diamond core test drilling to determine the permeability and strength of the tunnel lining and surrounding bedrock. A remotely operated vehicle inspected the portion of the tunnel that runs under the Harlem River, which was not dewatered.
Overall, the Aqueduct was found to be in good condition, with some areas requiring sediment removal, the repair of cracks in the tunnel lining, and brick and mortar repointing and replacement.
Rehabilitation work commenced in 2004 and was completed in 2013. The interior of the Aqueduct was power washed and where investigations showed that a void may be present behind the tunnel lining, a series of grouting injections was made to ensure the stability of the tunnel.
The lining of the tunnel is made up of more than 163 million bricks and portions were repointed and secured with new grouting to reduce friction in the tunnel and keep groundwater from seeping in. Additionally, a new 10-foot diameter shaft cap was installed at the Aqueduct’s terminus in upper Manhattan.
Work also included the upgrade of existing connections to the Aqueduct, including shafts and pumps, for the Villages of Briarcliff Manor, Tarrytown, and Sleepy Hollow. The New Croton Aqueduct serves as a backup water supply for these villages, which primarily rely on the Catskill Aqueduct.
In addition, the towns of New Castle, Ossining, and Pelham, the villages of Pleasantville, Ossining, Irvington, Ardsley, Bronxville, Dobbs Ferry, Hastings-on-Hudson, Pelham Manor, Pelham, Tuckahoe, and the City of New Rochelle also have connections that allow them to use water provided through the New Croton Aqueduct.