Site Overview
The site straddles the border between the Village of Lake Success and the Town of North Hempstead, NY and comprises approximately 90.5 acres.? It includes one main building and several smaller buildings to the south of the main building. For more information see the Timeline below.?
Remediation
As a result of historical operations, there are contaminants present at the site in the groundwater, soil, sediments and soil vapor.
- As part of the original manufacturing operations at the former Unisys site, a series of dry wells were constructed at the southeast corner of the main building for the disposal of liquid wastes.
- The dry wells have been identified as the source and primary entry point for most of the subsurface contamination associated with the Site.? The dry wells were used under past ownership and are no longer in use.
- Environmental contaminants of concern are present at the site in the groundwater, soil, soil vapor and sediments, and in groundwater off-site.
- Between 1978 and 2012, a series of studies identified the nature and extent of these contaminants. A number of actions have been taken to address these findings.
- An area of contaminated groundwater, known as a plume, originates at the site and spreads out under approximately 900 acres, extending north/northwest from the site.
- The plume lies between 100 and 400 feet below the surface of the ground and has affected some public water supply wells of the Water Authority of Great Neck North and the Manhasset-Lakeville Water District, and the golf course irrigation well at the Village of Lake Success golf course.
- Treatment systems are in place on the impacted public water supply and irrigation wells, and the water supplied meets standards appropriate for their use.
- The primary contaminants of concern in the groundwater are trichloroethene (TCE); tetrachloroethene (PCE); 1,2-dichloroethene (1,2- DCE) and Freon 113. These chemicals are typically used as cleaning solvents.
- The contaminants in the soil and sediments include metals, principally copper, barium and cadmium, and semi-volatile organic compounds (SVOCs), principally polycyclic aromatic hydrocarbons (PAHs).
- The contaminated soil is located in defined areas on the property.
- In a May 1991 Consent Order, the New York State Department of Environmental Conservation (NYSDEC) designated the former Unisys site as a Class 2 Site on the Registry of Inactive Hazardous Waste Disposal Sites. The Consent Order outlined remediation goals for on- and off-site cleanup.
- The NYSDEC subsequently issued the OU-1 Record of Decision in early 1997 and an amendment in early 2015 that specify the details of construction, operation, maintenance and monitoring of the cleanup of groundwater, soil, soil vapor, and sediments on-site.
- Additionally, the NYSDEC issued a Record of Decision for the off-site groundwater cleanup (Operable Unit 2) in December 2014. The Records of Decision respond to cleanup alternatives presented by Lockheed Martin following its extensive investigations and ongoing cleanup actions to address the contaminants.
- During the course of its investigations, Lockheed Martin coordinated with NYSDEC, which discussed all of the alternatives and their ramifications with the citizens of the area surrounding the former Unisys site, and collaborated with local government officials and water purveyors.
Click for a larger view of the Great Neck Project Timeline
Groundwater Clean Up
Environmental investigation and cleanup activities have been divided into two separate areas: cleanup at the Marcus Avenue site and cleanup of contaminants that moved off the site.
- In April 1993, Unisys installed an interim groundwater treatment system (Operable Unit-1, OU-1) to begin removing volatile organic compounds from the on-site groundwater at the 90.5-acre site’s northern boundary and to contain the movement of the plume.
- The 1997 Record of Decision (ROD) issued by the NYSDEC directed installation of a state-of-the-art groundwater treatment system to replace the interim system.
- Lockheed Martin installed this system in 2001-2, and it began operation in August 2002.
- A separate Record of Decision for off-site groundwater, released by the NYSDEC in late 2014, approved Lockheed Martin’s proposal to upgrade the capacity of OU-1 from 730 gallons per minute to 850 gallons per minute by adding a deeper well to extract groundwater for treatment.
- To clean up the contaminated groundwater that had already moved off site, Lockheed Martin constructed a second interim off-site groundwater treatment system (Operable Unit-2, OU-2) in June 2004 just south of the Great Neck South school property at a former water supply facility.
- The Record of Decision issued by the NYSDEC in late 2014 approved Lockheed Martin’s proposal to continue operating OU-2 at its present rate of 500 gallons per minute.
- The Record of Decision also approved Lockheed Martin’s plan to provide funding to protect the public water supply in the wider area, working with the two water providers, Manhasset-Lakeville Water District and Water Authority of Great Neck North.
- This plan ensures the distribution of potable water of highest quality to local citizens with treatment systems on wells affected by site-related contamination, including continued operation of all existing systems and installation of additional treatment systems or upgrades to existing systems as necessary.
- Monitoring well sampling and laboratory analyses will continue to track movement of groundwater contaminants. Samples from these wells provide early warning of the need to add or adjust wellhead treatment systems.
- Since the two operating units, OU-1 and OU-2, began operations, more than 57,000 pounds of volatile organic compounds have been removed from the groundwater plume.
- The two units capture groundwater from those areas with the highest contaminant concentrations and return clean water to the aquifer.
- For more information view the?Groundwater Public Water Supply Protection & Mitigation Program Compliance Report June 2020.
On-Site Soil and Sediment Clean Up
The on-site environmental cleanup that began in the 1990s in accordance with the 1997 NYSDEC Record of Decision is largely completed and is in an operations and maintenance mode.
The work included removing contaminated soil and sludge from three on-site dry wells, installing a permanent on-site groundwater pump and treat system, installing a soil vapor extraction area in the former dry well area, creating an environmental easement that protects human health by limiting access, and use of certain areas through deed restrictions and physical barriers.
Soil
Soil cleanup began in 1994 and is confined to the property boundary.
- In January 1994, an interim soil vapor extraction system was installed on-site near the original disposal area to remove any leftover volatile organic compounds from the soil.
- Responding to the 1997 Record of Decision issued by the NYSDEC, this system was expanded to remove contaminants from soil and from water perched in the soil above the aquifer outside the southeast corner of the main building.
- In 1998, the effort to remove leftover volatile organic compounds was expanded by excavating down to 30 feet around the three dry wells. Approximately 800 tons of contaminated soil was removed and disposed of off-site.? The excavation was backfilled with certified clean sand.
- In 2017 and 2019, six additional areas of the Site were excavated to remove buried contamination, primarily polycyclic aromatic hydrocarbons (PAHs).? All excavations were backfilled with certified clean soil.
- Remaining areas of soil contamination are being investigated and will either be removed or managed with an environmental easement.
Sediment
During the course of its investigations, Lockheed Martin discovered contaminants at the bottom of three stormwater basins located at the southwest corner of the site.
- The contamination resulted from stormwater runoff from site parking lots, roads and building roofs and are confined to the sediment.
- Lockheed Martin proposed, and the NYSDEC in its 1997 Record of Decision accepted, that public health would be served best by simply limiting access to these basins.
- An environmental easement is now in place requiring that these basin sediments not be disturbed and that the basins continue to be used for stormwater management.
- Deed restrictions have been recorded, a fence was constructed and is maintained around the basins and warning signs to restrict access are posted at the basins and on the fence.
On Site Soil Vapor ?
In 2006, the New York State Department of Health (NYSDOH) released guidance on vapor intrusion. Vapor intrusion, or soil vapor intrusion, refers to chemicals in soil that move as a gas or vapor through the soil and into a building.
- Responding to the NYSDOH guidance, Lockheed Martin investigated whether or not chemical vapors were present at the site. While samples taken in 2007 revealed no indoor air concentrations in the site buildings above the state guidelines, samples taken in 2008 identified two areas in the main building that did not meet state guidelines.
- Lockheed Martin informed building management of the situation and worked closely with tenants and the property owner to install two temporary sub-slab depressurization systems.
- Sub-slab depressurization systems use a vacuum to collect soil vapor below the foundation of a building, treat it, and move the cleaned air to the outside of the building.
- Lockheed Martin subsequently constructed and began operating a new building-wide sub-slab depressurization system in 2013. The system is continuously operated and monitored to ensure that a vacuum is constantly maintained under the building.
- In 2017, the New York State Department of Health updated the vapor intrusion guidance, lowering the allowable concentrations of contamination in the soil vapor beneath buildings.
- In response to the updated guidance and the 2018 sampling results, Lockheed Martin installed a sub-slab depressurization system in the northwest corner of the athletic facility located on the property.
- The New York State Department of Health concurs that the sub-slab depressurization systems protect human health.
- Lockheed Martin will continue to advise tenants and the property owner on the sub-slab depressurization system performance.
- For more information see the?Site-Wide Indoor Air Quality & Vapor Intrusion Program 2016
Recent Documents
- Indoor Air Annual Monitoring Report 2021/2022 Heating Season LA Fitness
- Construction Completion Report, Operable Units 1 & 2 October 2021
- 2021 Soil Vapor Monitoring Report
- 2021 Indoor Air Annual Monitoring Report LA Fitness
NYSDEC Documents
- NYSDEC Fact Sheet January 2015
- Amended Record of Decision OU 1 January 2015
- Record of Decision OU 2 January 2015
The sub-slab depressurization system (SSDS) ensures safe air quality inside the main building.
Documents for the Great Neck Project Are Available in Public Repositories at:
Hillside Public Library
155 Lakeville Road
New Hyde Park, NY 11040
516.355.7850
Great Neck Public Library
159 Bayview Avenue
Great Neck, NY 11023
516.466.8055
Community Information
If you have questions, please contact Lockheed Martin Communications.
lm.communications@lmco.com
800.449.4486
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Source Area Investigation of Soil & Groundwater Fact Sheet, Spring 2022
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Sub-Slab Depressurization System (SSDS) Expansion Fact Sheet, September 2021
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Sentinel Well Installation Project Update, Summer/Fall 2021
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DW-101 Cleaning Information, July 2021
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Recovery Well RW-1RS Cleanout September 2024
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Diffusion Well 15 (DW-15) Installation Spring 2021
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Area 21 Soil Removal Photo Tour, February 2021
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Soil Fact Sheet Summer/Fall 2020
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Soil Vapor Extraction Investigation & Repair Fact Sheet Summer 2020
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Groundwater Fact Sheet Summer 2023
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Site-Wide Indoor Air Quality & Vapor Intrusion Program 2020
Lake Success Sentinel Well Installation Project Update Summer 2019
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Environmental Clean-Up Program Overview
Timeline
1941?- The U.S. government built the facility
1947 to 1952?- The property served as the United Nations
1951?-Sperry Gyroscope bought the business and property.?
1978 - 2012?- A series of studies identified the nature and extent of contamination. ?
1986?- Sperry merged with the Burroughs Corporation to become Unisys Corporation.?
1991?- NYSDEC issued a Consent Order, and designated the former Unisys site as a Class 2 Site on the Inactive Hazardous Waste Disposal list.
1993?- Unisys installed an interim groundwater treatment system ?
1994?- An interim soil vapor extraction system was installed on-site
1995?- Loral Corporation acquired the assets of Unisys Defense Systems. ?
1996 -?Lockheed Martin purchased the electronics and systems integration businesses of Loral, and in turn inherited the responsibility for the ongoing environmental cleanup of the site.?
1997- The NYSDEC issued the OU-1 Record of Decision
1998?- After its purchase Lockheed Martin discontinued operations at the site.
2000?- Lockheed Martin sold the property.The site is owned by Apollo Lake Success Property LLC and 1111 Marcus Avenue Unit 2 Owners, LLC. ?
2002?- Installation of a state-of-the-art groundwater treatment system to replace the interim system.?
2004?- Lockheed Martin constructed a second interim off-site groundwater treatment system
2005?-The NYSDEC issued the OU-1 Record of Decision amendment
2007?- Lockheed Martin investigates indoor air quality and sub-slab soil vapor conditions.
2008?- Two temporary sub-slab depressurization systems were installed under the main building on the property.
2014?- NYSDEC issued a Record of Decision for the off-site groundwater cleanup (OU2).
2015?- An?Amended Record of Decision (AROD)?for the?Unisys Corporation Site has been issued by the NYSDEC.?
2015?-??Record of Decision (ROD)?has been issued describing the remedy selected for Operable Unit 02 ?
2016?- Lockheed Martin remains responsible for the environmental cleanup.
2020?-?Groundwater Public Water Supply Protection & Mitigation Program Compliance Report June 2020?released. ?
View a List of Terms Commonly Used in Relation to General Environmental Remediation Efforts