Un'ted States
Ij^Jk Environmental Protection
M »Agency

ARSENIC IN DRINKING WATER
COMPLIANCE SUCCESS STORIES

Nevada: Tribal System Experience With
Arsenic Rule Compliance

Case Study Contact Information

Richard Black
Environmental Director
(775) 423-0590

The Fallon-Paiute-Shoshone water system in Nevada utilizes a groundwater supply that
has arsenic levels greater than 100 ppb. The Tribe investigated two potential treatment
alternatives but selected the one that offered the better unit cost for producing water.

Lessons Learned

The Fallon Paiute-Shoshone tribe demonstrated that a coagulation/microfiltration
treatment system offered a lower cost alternative compared to a coagulation/pressure
filtration system in terms of estimated unit cost of water produced ($1.29 vs. $1.38 per
1,000 gallons). The unit cost of producing water was considered a better overall indicator
of cost rather than capital or annual operating and maintenance costs.

System Background

The Fallon Paiute-Shoshone water system in Nevada
supplies drinking water to all tribal residents in the
colony in town and on the reservation approximately six
miles west of Fallon, as well as to about 25 non-tribal
homes in between. In total, about 313 homes are served
by this water system. The sources of supply, Colony
Wells No. 1 and 2, are 95 and 130 feet deep, respectively.

The treated water travels through up to 13 miles of piping

to feed every customer, including the distance across the desert from the colony to the
reservation.

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For many years, the drinking water served by the Fallon Paiute-Shoshone Tribes' public
water system contained arsenic at levels in excess of 100 parts per billion (ppb). The
drinking water is drawn from a basalt aquifer that is approximately 4 miles wide by 15
miles in length. The City of Fallon and the nearby Naval Air Station also draw their water
from this basalt aquifer. Their arsenic compliance success story is highlighted in a
separate case study.

Arsenic Treatment Program

A new arsenic treatment system using coagulation and microfiltration was placed into
service in January 2005 and is successfully reducing arsenic levels from the range of 90
to 120 ppb to less than 10 ppb. The total construction cost was just under $1.8 million
dollars, including design and start-up. In 2003, the Tribe applied for and was awarded
EPA Drinking Water Tribal Set-Aside Grant funding to supplement Indian Health
Service funds for the arsenic treatment facilities. The actual increase in cost to the Tribe
to provide water has been around $0.70 per 1,000 gallons.

The treatment process, rated at 500,000 gallons per day, provides carbon dioxide and
ferric chloride addition to the raw water. The carbon dioxide lowers the pH to enhance
the treatment process. Arsenic binds to ferric hydroxide, precipitates out of the treated
water stream, and is removed by the 0.1 micron filters. The sludge is dewatered and then
disposed of in a local landfill. The treated water is aerated to strip the carbon dioxide and
raise the pH again. The plant is an "on-demand" system, meaning it will only need to be
run when demand is needed, often only six hours per day.

Table 1. Cost Comparison of Pressure Filtration and Coagulation/Microfiltration

Cost Measure

Coagulation/Pressure
Filtration

Coagulation/Microfiltration

Capital Cost

$1.25 million

$0.99 million

Annual O&M Cost

$71,346

$82,392

$ per 1,000 gallons
produced based on
present worth analysis

$1.38

$1.29

Non-Treatment Alternatives

The Fallon Paiute-Shoshone tribe investigated purchasing water from the City of Fallon.
The two water systems were interconnected several years ago but poor communication
and disagreements between the two entities have prevented this alternative from being
implemented. The City of Fallon worked collaboratively with the local Naval Air Station
to construct an arsenic treatment plant using iron-based coagulation and multimedia
filtration to serve both the City and the military base.

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