Description
Influence of EHC® on Groundwater Perchlorate Concentrations
Perchlorate is a groundwater contaminant that is highly mobile and
persistent in the environment. Perchlorate posses a risk to human health
since it interferes with the uptake of iodine by the thyroid gland, which
in turn disrupts the production of metabolic hormones (Brown et al.,
2002).
Research to-date indicates that both abiotic and biotic
mechanisms support removal of perchlorate from groundwater. Biological
perchlorate reduction occurs when the bacterium uses perchlorate as an
electron acceptor in place of other electron acceptors (i.e. oxygen or
nitrate). Perchlorate reducing bacteria are ubiquitous and have even been
found in pristine environments (Coates et al., 1999).
A recent
study conducted at Adventus showed that greater than 99% removal of
perchlorate from groundwater was achieved with EHC®. A column
was filled with a mixture of EHC® (24% by mass) and sand. This
column was designed to mimic a permeable reactive barrier trench filled
with a mixture of the reactive material (EHC®) and sand. The
column was followed by two downstream attenuation microcosms, which were
filled with soil, to monitor any further reduction of perchlorate that may
occur down gradient of the reactive zone. A control system was also set up
as described above, except no EHC was added to the column. The influent
perchlorate concentration was approximately 100,000 ppb and the flow rate
through the columns was maintained at 150 mL/day. The influent and
effluents were periodically sampled for perchlorate.
The
perchlorate concentrations in the influent and column effluents of the
EHC® and control systems are presented in Figure 1. On day 76,
the EHC® column reduced the perchlorate concentration from
120,000 ppb in the influent to 9,400 ppb, corresponding to a 92% removal.
The
perchlorate concentration was further reduced in the first soil
microcosm to non-detect (detection limit = 200 ppb). The control system
showed a slight (17%) decrease in the perchlorate concentration.
The columns were not sampled for an extended period of time,
however regular sampling has occurred since about day 400 of the study.
All the results showed complete removal of perchlorate (detection limit =
2 ppb) while the control column showed little reduction, if any, for the
first 900
days of the study followed by a gradual decline, potentially
due to the development of perchlorate- degrading bacteria. The most recent
samples were taken on day 1,287 of the study, which corresponds to 3.5
years of treatment. This work is being conducted at 20 oC. Given that the
longevity of the EHC® is expected to be much greater in the
subsurface due to lower temperatures, it is reasonable to believe that
EHC® may have longevity of at least five to seven years in the
subsurface.
To illustrate that the treatment is a result of
biodegradation and not an adsorptive process, chloride samples were taken
along with the day-619 sampling. These data are presented in Table 1. The
amount of chloride produced in the EHC® effluent was 98% of
the theoretical amount that would be created from the complete treatment
of the influent perchlorate. The effluent chloride level of the control
column was very close to that of the influent.
At approximately day 600 of the study, trichloroethylene (TCE) was
added to the influent water to evaluate the treatment of chloroethenes
simultaneously with perchlorate. The results, shown in Figure 2,
illustrate excellent removal of total VOCs, with minimal production of
cis-1,2- dichloroethylene or vinyl chloride.
In conclusion, this important work has shown the following:
- EHC® is capable of consistently treating greater than
99% of perchlorate
- EHC® is capable of treating perchlorate at
concentrations of at least 100 mg/L
- The treatment mechanism is likely destruction of the perchlorate
given the chloride produced
- EHC® has demonstrated effectiveness for 1,287 days (3.5
years) at room temperature, illustrating that it exhibits high longevity
- EHC® is capably of simultaneously treating chlorinated
solvents
EHC® has been successfully applied in the field using
various application methods, including trench permeable reactive barriers
(PRBs), open excavations, hydraulic fracturing injection, and direct
injection. Please contact Adventus for further information on the use of
EHC® for perchlorate
treatment.
Companies On This Project
ADVENTUS GROUP
