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Tuesday, September 25, 2012

Partnership with Harvard School of Public Health to Enhance Modeling and Monitoring of Drinking Water Quality

Studies Will Provide Quantitative Information on How Storms Affect Turbidity in Watershed Streams and Reservoirs; Data Will Improve NYC Water Supply Operators’ Forecasting Models for Water Quality in Anticipation of Severe Weather

New York City Department of Environmental Protection (DEP) Commissioner Carter Strickland today announced a new scientific collaboration with Harvard School of Public Health (HSPH) to study water supply turbidity and to enhance watershed modeling and monitoring. The study, which will include scientists from both HSPH and DEP, consists of three specific projects designed to assist in the operation of the New York City water supply: Statistical Analysis of Turbidity in Reservoirs; Sediment Source Tracking; and Hydrodynamic Circulation in Kensico Reservoir. By developing quantitative water quality metrics and scientific modeling, the study will help improve DEP’s understanding of the relationship between turbidity and the intensity and duration of rainstorms. After receiving record levels of rainfall in 2011 through events such as Hurricane Irene and Tropical Storm Lee, the study’s results will produce data critical to improving water quality modeling predictions in anticipation of severe weather events. The three studies will cost $80,000, are funded by the Harvard Club of New York City and will conclude in the spring of 2013.

“Through this partnership with the Harvard School of Public Health DEP will gain considerable assistance with our water quality modeling and data analysis,” said Commissioner Strickland. “These studies will help us better understand the link between severe weather and turbidity, and improve our water quality operations as a result.”

“What is attractive to us is that we will bring together students at all levels, both undergraduate and graduate students, from throughout the University,” said Dr. James Shine of Harvard School of Public Health, Department of Environmental Health. “Our goal is to engage students interested in environmental sciences and allow them to see how science is used to inform public decision making, in this case the quality of water delivered to New York City. These experiences will reaffirm the students’ commitment to the environment.”

The research collaboration will consist of three major studies:
  • Statistical Analysis of Turbidity in Reservoirs will assess the uniqueness and duration of major deviations in turbidity levels over the course of DEP’s long-term monitoring records, determining the link between elevated turbidity levels and meteorological factors;
  • Sediment Source Tracking will involve laboratory study of field samples collected from select streams in the Catskill and Delaware systems to assist in determining specific sources of turbidity, providing chemical measurements that will help assess current water quality models; and
  • Hydrodynamic Circulation in Kensico Reservoir will insert a “numerical tracer” into a two-dimensional computer model of Kensico reservoir, and use the model run to monitor water quality during simulations of increased flow through the reservoir. The model outputs will be evaluated in comparison to both current monitoring at Kensico Reservoir as well as hypothetical weather scenarios created for the purpose of experimentation

Thursday, September 6, 2012

New York City Begins Study of New Method to Seal Cracks in Delaware Aqueduct


$4 Million, Year-long Study Will Determine Effectiveness of Lime in Sealing Cracks in Concrete Water Pipes



New York City Environmental Protection (DEP) Commissioner Carter Strickland today announced the start of a year-long pilot study to evaluate a new method of sealing cracks in concrete water pipes that could eventually help stop leaks and maintain the Delaware Aqueduct –an 85-mile water tunnel that conveys approximately half of the drinking water from four upstate reservoirs to more than eight million people in New York City, and one million people in Ulster, Orange, Putnam, and Westchester counties. A Syracuse University lab test, funded in part by DEP, demonstrated that introducing lime and other chemicals into water flowing through concrete pipes can effectively seal hairline cracks and reduce leaks. In August, DEP began a $4 million proof of concept experiment at the Rondout Reservoir that will simulate actual conditions in the Delaware Aqueduct and determine if this new leak sealing technique can be applied on a larger scale.

“The Delaware Aqueduct is a critical link between our reservoirs and the nine million New Yorkers who rely on the water it supplies,” said Commissioner Strickland. “This study is one of many investments we are making to ensure future generations have access to this precious resource, and a demonstration of our commitment to exploring every option to stop leaks in the aqueduct.”

The lime study experiment is taking place in a temporary structure on the southeast side of the Rondout Reservoir. Inside, water from the reservoir is being pumped through three 2,400-foot sections of 1.5-inch diameter pipe. Scientists are testing different flow rates to determine if the lime and other chemicals introduced into the pipes will seal cracks under conditions similar to those inside the Delaware Aqueduct. A high flow setting simulates the actual velocity of water inside the aqueduct and will help determine if lime is deposited in cracks at that speed. A lower flow setting will help scientists learn if enough lime remains in the pipe to seal cracks after it travels for approximately 80 minutes—the time it takes water to travel from the reservoir to the leaking sections of aqueduct in Wawarsing. The experiment will also help researchers assess the extent to which lime deposits build on the walls of the pipe, which can reduce capacity in the aqueduct.

As water flows through the test pipes, modules spaced in 800-foot intervals simulate different-sized cracks, and monitor changes in pressure that allow researchers to determine if those cracks are being filled. The experiment will also help calculate appropriate lime dosage and which chemical combinations are most effective at sealing cracks. Chemical combinations being examined include: lime, lime with carbon dioxide, “liquid lime” which uses calcium chloride, sodium hydroxide, and carbon dioxide.

Water exiting the experiment site will be treated and then discharged back into the reservoir. All water reintroduced to the reservoir will be permitted by the New York State Department of Environmental Conservation and will not have any adverse effects on the New York City drinking water supply.

The pilot project is part of Water for the Future, a comprehensive $2.1 billion plan to fix the leaking Delaware Aqueduct. The plan includes construction of a three-mile bypass tunnel around a portion of the aqueduct that is leaking in Roseton in Orange County, and repair work to sections that are leaking in Wawarsing in Ulster County. DEP plans to break ground on the bypass tunnel in 2013, and expects to complete the connection to the Delaware Aqueduct in 2021. The tunnel repair program is expected to create between 1,000 and 1,500 jobs.

In addition to creating jobs, DEP recently announced $7 million in funding to expand the Napanoch Water District from the Vernooy Kill to the State Police Barracks area on Route 209, including most of the side streets such as Smith Road, Kelsey Lane, Kagan Road and Foordemoore Road. DEP also announced a $5.5 million home repair fund for eligible projects that address groundwater issues in the area that had been previously designated for the buyout program. The fund will be administered by the Town of Wawarsing.