Objective:
Every year, millions of rounds of ammunition - bullets composed
of lead and other heavy metals - are fired into impact berms
at small arms ranges. Heavy metals in soil have the potential
to impact human health and the environment if not removed
or maintained. Current treatment methods are limited to solidification,
stabilization, and landfilling, which keep the metals from
moving and/or contain them, but do not remove them. Since
no current methods are considered permanent, the military
services have been developing other processes to remove heavy
metals from impact berm soil. This project demonstrated a
process derived from mining techniques that removes more than
99 percent of lead and other heavy metals from the soil.
The U.S. Army Environmental Center and the U.S. Naval Facilities
Engineering Service Center conducted a joint demonstration
of physical separation combined with acid leaching for removal
of heavy metals from range soil. Physical separation capitalizes
on density differences between metals and soil; when suspended
in water, the denser metals settle out of soil for collection
and recycling. The project independently evaluated two acid
leaching processes using different strengths of acid to dissolve
and wash metals from the clay fraction of soil. A full-scale
processing plant was established at Fort Polk, Louisiana to
demonstrate this technology.
Results:
Two different contractors demonstrated soil leaching technologies
at the Fort Polk site. The acetic (weak) acid process failed
to meet Toxicity Characteristic Leaching Procedure (TCLP)
requirements. However, the hydrochloric (strong) acid system
coupled with physical separation successfully processed 875
tons of soil and met the required 5 milligrams per liter (mg/L)
TCLP and 500 grams per kilogram requirement of total lead.
In fact, the TCLP lead concentration was well below the requirement
at 1.83 mg/L.
Benefits:
Unlike stabilized or landfilled soil, the site incurs no
liability when returning the washed soil to the site provided
the soil meets TCLP requirements, and the recovered metals
can be recycled. State regulators have selected the physical
separation/acid leaching soil washing process as the technology
of choice for small arms range remediation. In addition, this
technology is cost-effective for the maintenance of ranges
with low clay content. This physical separation/acid leaching
technology could potentially save the U. S. Department of
Defense millions of dollars. Assuming 10,000 tons are processed,
physical separation combined with acid leaching costs approximately
$168 per ton. Stabilization and landfilling of contaminated
soil costs between $200 and $300 per ton plus a $40 per ton
transportation charge. In addition to savings with soil processing,
recovered lead can be sold to a smelter for approximately
$300 per ton.
Implications:
The results of this demonstration show physical separation/acid
leaching is a promising technology ready for technology transfer. (Project Completed - 1997)
References:
1.
Battelle Columbus Operations, Ohio. Final Technology Evaluation
Report (Nov 95-Sep97) for the Naval Facilities Engineering
Service Center and the U.S. Army Environmental Center. Physical
Separation and Acid Leaching: A Demonstration of Small-Arms
Range Remediation at Fort Polk, Louisiana. Volumes
1 and 2. SFIM-AECET-CR-97049. DTIC ADA340521 and ADA340522.2.
September 1997.
2.
ESTCP
Cost and Performance Report. September 1997. (PDF File
Format)
