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NASA CERCLA Program at JPL


 


Para Más Información En Español, llame a Angel Castillo, NASA JPL, Teléfono (818) 354-1585.
 

Overview of NASA’s Comprehensive Groundwater Cleanup Plan at and in the Vicinity of the Jet Propulsion Laboratory (JPL)


Media Contact -- Merrilee Fellows, NASA Manager for Community Involvement, NASA Management Office (Located at Jet Propulsion Laboratory), 4800 Oak Grove Drive Pasadena, CA 91109. Telephone:(818) 393-0754 E-mail: mfellows@nasa.gov

Media Credentialing -- Journalists who wish to access the Jet Propulsion Laboratory for purposes related to NASA’s groundwater cleanup should contact NASA Manager for Community Involvement Merrilee Fellows at (818) 393-0754 to arrange for advance credentials. All media representatives must have valid photo identification. Non-U.S. citizens must also bring their passport and visa. Journalists who hold a JPL press badge must make a separate request to Merrilee Fellows, noted above, to access the Jet Propulsion Laboratory for issues regarding NASA’s groundwater cleanup project.

News and information on the NASA groundwater cleanup, including an electronic copy of this general information backgrounder, fact sheets, status reports and images, are available on the NASA groundwater cleanup Website at http://jplwater.nasa.gov.


NASA’s Groundwater Cleanup at JPL:

A Commitment to Safeguard Area Drinking Water and Restore Water Resources

NASA is committed to cleaning up groundwater affected by chemicals associated with historic and long-discontinued waste disposal practices at the Jet Propulsion Laboratory (JPL). NASA is cleaning up the site under the Federal Comprehensive Environmental Response, Compensation and Liability Act (CERCLA), commonly known as Superfund. The groundwater chemicals being addressed by NASA are volatile organic compounds (VOCs) and the chemical compound perchlorate. While NASA takes the lead for environmental investigations and cleanup activities associated with JPL, federal and California regulatory agencies provide oversight, including the:

  • U.S. Environmental Protection Agency (EPA), 
  • California Department of Toxic Substances Control (DTSC), and 
  • Regional Water Quality Control Board (RWQCB), Los Angeles Region

A Signed Final Cleanup Plan 

The groundwater cleanup program achieved a major milestone early in 2018. NASA and the regulatory agencies approved and signed a final cleanup plan referred to as the final Record of Decision (ROD). The parties agreed that continuing the operation of the three groundwater treatment plants [see below] at and near JPL is “the best approach to reaching the cleanup goals and maintain protection of human health and the environment.” NASA prepared a fact sheet summarizing the investigations and remedial actions that led to approval of the ROD.

Three NASA-Funded Groundwater Treatment Plants Will Continue Under the Final Plan

  • One of the NASA-funded groundwater treatment plants is located on JPL property and has been successfully removing groundwater chemicals from the source area since January 2005.
  • Another plant is removing groundwater chemicals from the farthest reaches of the area affected by the chemicals – at wells operated in Altadena by the Lincoln Avenue Water Company (LAWC). 
  • A third plant on City of Pasadena-owned property adjacent to the Windsor Reservoir— the Monk Hill Treatment System (MHTS)—is providing groundwater cleanup in the area between the source of the chemicals and the farthest reaches. Pasadena Water & Power (PWP) has been able to re-open previously closed water production wells located in the Arroyo Seco and serve treated water from those wells to its customers. 

The combination of these three treatment plants working together will complete the cleanup over the next 10-15 years.

JPL Site Cleanup Activities: A Brief History

Soil Cleanup

Even before the groundwater treatment plants were operating,  NASA used a technology called soil vapor extraction (SVE) to remove 230 pounds of carbon tetrachloride and 30 pounds of trichloroethylene (TCE) from the dry soil directly beneath JPL. By removing this source of chemicals, NASA eliminated further chemical movement from the soil into the aquifer hundreds of feet below the ground surface.  This SVE was completed in 2007.

Groundwater Treatment at the Source Area

NASA’s source area groundwater treatment system, located in the north-central section of the 150-acre JPL complex, focuses on an eight-acre by 100-foot-thick portion of the aquifer deep beneath the ground surface. Operating at its full capacity of up to 300 gallons per minute, the on-site plant – since startup in January 2005 to the end of 2018 – had removed more than 98 percent of unwanted chemicals in groundwater beneath JPL. The plant has been using two technologies: 

  • A fluidized-bed reactor system with naturally-occurring microorganisms to break down and eliminate perchlorate from the groundwater, and
  • A liquid-phase granular activated carbon (LGAC) technology to trap dissolved VOCs for subsequent disposal at licensed off-site facilities.

NASA’s strategy to target chemicals at the source area is helping to:

  • Remove chemicals from groundwater at the source area, where the highest levels of the chemicals are found, and
  • Reduce migration of chemicals to offsite groundwater beneath areas near JPL.

Recent Upgrades

NASA installed a new extraction well at the source area in 2018 and is installing new treatment technology. The new well removes chemicals from groundwater which was outside the reach of the existing wells. A state-of-the-art ion exchange technology that uses a perchlorate-selective resin to absorb or “capture” the perchlorate will replace the original fluidized bed reactor. As lower levels of perchlorate in the source area groundwater have been achieved, ion exchange technology becomes the more effective treatment method.

From system startup in January 2005 to the end of 2018, the total amount of unwanted chemicals in groundwater beneath JPL has been reduced by more than 98 percent. While chemical removal has been significant, the levels are still above the cleanup goal, and removing the remaining chemicals from the groundwater beneath JPL is expected to take another five to ten years. This is typical in groundwater remediation, because it is more difficult to remove chemicals as concentrations of the chemicals in the water decrease. 

Groundwater Treatment with Lincoln Avenue Water Company

Since 1992, the Lincoln Avenue Water Company (LAWC) has operated a NASA-funded treatment plant, removing VOCs from LAWC’s two water production wells in Altadena. In 2004, NASA funded the expansion of that plant to remove perchlorate from the groundwater, enabling LAWC to provide its customers with a continuous supply of drinking water that meets all State and federal clean drinking water standards.

Recent Upgrade

NASA funded construction of a third drinking water well for LAWC, which was put into operation in late 2017.  In all, since 2004, the three wells and associated groundwater treatment have reduced more than 50 percent of the levels of VOCs and perchlorate beneath the LAWC wells. Groundwater is treated by the plant at a rate of up to 2,000 gallons per minute (gpm). The LAWC plant uses an ion exchange perchlorate-removal technology, while VOCs are removed from the groundwater with a liquid-phase granular activated carbon (LGAC) system.

Groundwater Treatment with City of Pasadena

In the spring of 2011, the City of Pasadena began operating the NASA-funded Monk Hill Treatment System, or MHTS, near four previously closed water production wells located in the Arroyo Seco. The plant, with a capacity of 7,000 gallons per minute, is removing perchlorate from groundwater using ion exchange technology and VOCs using LGAC technology.Since system startup, chemical levels in groundwater extracted by the MHTS have been reduced by more than 75 percent. 

New Enhancements Coming

With NASA funding and technical support, Pasadena Water and Power (PWP) is planning two upgrades at the MHTS: 

  • Construction of a new drinking water well located in the northern portion of the Arroyo Seco, and 
  • Modification of the nearby Behner Treatment Plant. 

The new well would help increase removal of targeted chemicals by an estimated 40 percent and would significantly reduce the time needed to clean up the aquifer. Groundwater from the new well would be piped to and treated at the Windsor Avenue plant along with water from the four existing wells. This new well would be strategically located to capture chemicals originating from the JPL site. PWP’s nearby Behner Treatment Plant, currently not in use, would be put back into operation for storage and treatment of process water generated by the MHTS. Process water -- water that is generated from well installation and start-up activities -- is currently managed at the Windsor Avenue plant, but would be more efficiently managed at the Behner location. The Behner plant can store large volumes of process water, which could then be treated and discharged into the spreading basins for infiltration back into the aquifer.

Groundwater Monitoring – Well Water Sampling

Scientific research is central to NASA’s objective to implement a sound and comprehensive cleanup. Using various methods, NASA continually seeks to evaluate conditions and the extent and movement of chemicals in groundwater. Quarterly groundwater samples are taken from the 25 NASA monitoring wells located throughout the area. Results are placed on the NASA water cleanup website at http://jplwater.nasa.gov.

Regulatory Oversight Continues

Cleanup at and in the vicinity of JPL continues under CERCLA requirements, which include a required review of cleanup efforts every five years. An initial Five-Year Review was completed in February 2012; a second was completed in January 2017.  Both determined that – with EPA concurrence in each case – the three NASA-funded groundwater treatment systems currently in place, combined with NASA’s comprehensive groundwater monitoring system, continue to be “protective of human health and the environment.”

Updated March 2019


Last Modified: 6/20/2019 4:22:57 PM
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