Superfund Site

While I was working toward my environmental science one of my classes was Environmental Law and Policy. For one of our assignments we had to research a Superfund site and present to the class. The site I chose was less than a mile as the crow flies from where I grew up. At that time, EPA hadn’t begun work on the site. Last year after moving back to Pennsylvania, I attended an EPA meeting on the status of the cleanup. This year, as work nears completion, I was able to tour the site with EPA’s Tim Gallagher.

Contrary to what you might think, not all Superfund sites are full of leaking drums of glowing green radioactive waste. The Watson-Johnson property was a landfill from the 50s to the 70s, then forgotten about. In the late 90s, water testing revealed several contaminants in the groundwater. One of the town wells for the water supply was closed. The solution the EPA came up with was to cap the landfill and use chemical injection to neutralize the contaminants in the groundwater.

Watson Johnson landfill site. The geosynthetic is
buried under 18 inches of soil here.

Capping the landfill is a common practice at sites like this. Why not remove the waste? Odds are, everything would just be taken out of the ground and buried in another landfill somewhere else. One oozing container was discovered and removed from the site, but otherwise it was all collected together and capped. The cap uses a layer of compacted clay soil, a waterproof synthetic fabric, more soil, and vegetation. The purpose of the cap is to keep the waste contained and keep water out, preventing anything from seeping into the groundwater.  Water drains to wetlands, ponds, and level spreaders. Level spreaders are cement cisterns that capture water and allow it to overflow and slowly spread away from the site.

Drainage swale around the outside of the capped landfill.
Grass seed has already been spread inside it.

Level spreader beyond the edge of the capped landfill

The soil above and around the cap is contoured to divert surface water away from the cap. There are natural wetlands on site, as well as new artificial wetlands created to contain and disperse runoff. The cap itself layered in a way that creates pathways for gases flow towards several vents. Because they site was once open but now is closed with those release points, concentrations are higher. Methane has been noted at the vents, but not volatile organic compounds (VOCs).

Gas vent. No monitors are attached.

Monitoring and injection wells reach the groundwater. Sodium permanganate is injected to react with the chemicals in the water. The reaction breaks down the chemicals (including the sodium permanganate) into harmless elements like oxygen and hydrogen. Monitoring wells are set up to test the levels of chemicals in the water. Injections will stop once the concentration goes below 100 parts per billion. At that point, EPA will begin bioremediation. Microscopic critters that eat the contaminants will be injected to the groundwater to bring the contaminants down even further.

Work on the site is nearing completion. Despite a cold winter and rainy summer, work is only two months behind schedule. Workers are currently adding a layer of topsoil six inches deep on top of the cover soil. Once topsoil is in place, it will be seeded with native grasses. Around the cap, workers are setting up deer fence to protect new trees that will be going in. Landscaping was supposed to start last week but was delayed by heavy rain.

EPA will continue to monitor the site for a year after completion, before turning that duty over to the state. Future plans include nesting boxes for swallows and bats. The new trees will create a nice matrix with the older existing woods on the edge of the site, which should attract songbirds that prefer new growth. The site is privately owned, so it will not become a park like old landfills in other areas. However, development will be limited by cap so it will likely remain a nice green oasis as the area becomes increasingly more urbanized.

For more information visit the EPA's Watson Johnson website. Special thanks to Tim Gallagher for taking time out of his day to show me around.