Chemists
Kay Keltner, left, and Jaime Edwards are part of a team at Hanford’s
Waste Treatment and Immobilization Plant that is integrating scientific
instruments inside the plant’s Analytical Laboratory. The laboratory is
the first nuclear facility in the tank waste treatment plant to complete
start-up testing prior to moving into the commissioning phase for
operations.
RICHLAND, Wash. – Workers recently finished start-up testing at the Analytical Laboratory in Hanford’s Waste Treatment and Immobilization Plant
(WTP), marking the first nuclear facility in the tank waste treatment
complex to reach that point prior to moving into the commissioning phase
for operations.
The
Analytical Laboratory is a key part of the system that will be used to
treat millions of gallons of waste from Hanford’s underground tanks
through the Direct-Feed Low-Activity Waste approach. Moving these facilities from the construction phase to commissioning is one of EM’s priorities for 2020.
The
plant’s commissioning team will now ensure workers are trained, systems
and equipment are operational, and written procedures are in hand to
support future laboratory operations.
“This
is a significant accomplishment for Hanford cleanup,” said Tom
Fletcher, EM WTP federal project director. “The laboratory is critical
to making sure tank waste is safely encased in glass and meets
requirements for disposal. Our team is continuing to deliver significant
progress.”
The
laboratory’s key function is to determine the correct glass formulation
“recipe” for each incoming batch of waste and confirm that vitrified
glass produced by the Low-Activity Waste Facility meets regulatory
requirements and standards.
During
operations to treat tank waste using the Direct-Feed Low-Activity Waste
approach, laboratory chemists and technicians will analyze
approximately 3,000 samples each year. Samples will also be taken
throughout the vitrification process to confirm production of a
high-quality glass product and good process controls.
“Our
entire workforce contributed to safely handing over the Analytical
Laboratory systems from startup to commissioning,” said Valerie McCain,
principal vice president and WTP project director with Bechtel National,
Inc., EM’s WTP contractor. “Next, our workforce, along with teams of
chemists and technicians, will integrate the training, systems,
scientific instruments, and procedures needed to prepare the laboratory
to support the treatment of low-activity waste.”
-Contributor: George Rangel
Crews Mobilize to Resume Demolition at ETEC
As
part of the deactivation process, workers from DOE contractor North
Wind gather furnishings taken from buildings in the Radioactive
Materials Handling Complex that will be demolished later this summer at
the Energy Technology Engineering Center. The items will be disposed of
outside the State of California at licensed commercial disposal
facilities.
SIMI VALLEY, Calif. – Work crews at the Energy Technology Engineering Center
(ETEC) are mobilizing for demolition of 10 buildings at the former
nuclear and liquid metals research site in Southern California.
Deactivation
work to prepare the structures began the week of June 22, consisting of
disconnecting remaining power lines and removing loose debris from the
buildings. Demolition is expected to start in July, and to take
approximately six months. After more than a decade, active cleanup work
has resumed at ETEC.
“The
Department of Energy is eager to resume active cleanup at ETEC, and the
work will be done safely and effectively,” said ETEC Federal Project
Director John Jones.
The
10 buildings comprise the former Radioactive Materials Handling
Facility (RMHF) complex, built in 1959 and used to process, package, and
ship radioactive and mixed wastes during site operations that ended in
1988.
Demolition of the complex is being conducted under a recently signed agreement between the Department of Energy
(DOE) and the State of California. Removing the facilities will reduce
potential risk of release of hazardous substances due to wildfires or
erosion from severe storms.
DOE
and its contractor North Wind will adhere to all safety practices for
demolition and transport of the debris outside the State of California
to licensed commercial disposal facilities. They further will adhere to
all safety precautions and practices recommended to protect workers from
exposure to the coronavirus.
The
ETEC site is located in Area IV of the Santa Susana Field Laboratory in
Ventura County, and ETEC served as a premier research facility. Since
the 1980s, more than 200 structures on the ETEC site have been
demolished and removed; once RMHF demolition is complete, only eight DOE
structures will remain.
DOE
will continue to work with the state on the steps necessary to remove
the remaining DOE buildings at ETEC, and toward remediation of soils and
groundwater at the site.
Oak Ridge’s UCOR Earns 94 Percent of Available Fee for First Half of Fiscal 2020
UCOR
began demolition on the Centrifuge Complex during the first half of
fiscal 2020. These buildings were the largest remaining buildings at the
site and spanned 235,000 square feet.
OAK RIDGE, Tenn. – EM
recently awarded Oak Ridge cleanup contractor UCOR $10.4 million for
its performance from October 2019 through March 2020, amounting to 94
percent of the available fee for the period.
The Oak Ridge Office of Environmental Management
(OREM) issued its fee determination scorecard for UCOR for the
six-month period of fiscal 2020 after completing its evaluation of the
contractor. EM releases information relating to contractor fee payments —
earned by completing the work called for in the contracts — to further
transparency in its cleanup program.
The
contractor received “excellent” ratings for project management and
business systems, and regulatory and stakeholder activity; a “good”
rating for operations management; and “high confidence” for cost and
schedule incentive, according to the scorecard.
UCOR had several significant accomplishments:
- Continued to address the environmental liability of DOE by accelerating cleanup, reducing risks, generating cost savings, and resolving regulatory issues and concerns.
- Provided outstanding support to the Mercury Treatment Facility construction project.
- Completed the conceptual design report for the Molten Salt Reactor Experiment’s Continuous Purge System. Implementing this strategy will improve the safety posture and reduce costs for maintaining the facility.
- Completed upgrades to the Aquatic Ecology Laboratory that provide unique capabilities for researchers to test and mature mercury remediation technologies that will aid mercury cleanup in the years ahead.
- Met all regulatory schedule requirements. UCOR has operated 60 months without a letter of noncompliance from an outside regulatory agency and 99 months without a spill or release reportable to outside agencies other than a routine regulatory report.
- Met or exceeded all DOE subcontracting goals for small business, including small disadvantaged business, women owned, HUBZone (Historically Underutilized Business Zones), service disabled veteran owned, and veteran owned.
OREM
noted areas for improvement. UCOR experienced several issues with
transportation, including an accident involving an employee and a
tractor trailer truck at the East Tennessee Technology Park. There are
opportunities for UCOR to improve after a couple items fell during
hoisting and riggings activities. There were no injuries in that
incident.
View the fee determination letter and the full scorecard here.
NNSS Cleanup Contractor Earns 96 Percent of Available Fee From October 2018 Through January 2020
Navarro
Research and Engineering, Inc. performed environmental corrective
actions at the Clean Slate III site in July 2019 that included removing
contaminated soil and debris for packaging and disposal at the Nevada
National Security Site.
LAS VEGAS – EM’s
cleanup contractor for the Nevada National Security Site (NNSS),
Navarro Research and Engineering, Inc. (Navarro), has earned 96 percent
of the available fee for its most recent contract evaluation period,
according to recently released information.
For
the period of Oct. 1, 2018 through Jan. 31, 2020, Navarro earned
$1,158,125 out of an available $1,210,298 in award and incentive fees.
Navarro received “excellent” ratings in the areas of business relations;
management of key personnel and subcontracts; cost control; and health
and safety. The contractor received ratings of “very good” in the areas
of schedule and quality of products and services.
Crews
have completed deactivation inside the 42,000-square-foot K-1600
facility. Teardown is scheduled to begin this summer. It will mark the
final demolition project for the Oak Ridge Office of Environmental
Management and its cleanup contractor UCOR to achieve Vision 2020.
OAK RIDGE, Tenn. – Workers have completed deactivating
Building K-1600, a former test and demonstration facility for uranium
enrichment centrifuges at the East Tennessee Technology Park (ETTP), and now it is ready for demolition.
“This
is an incredibly significant project for us and our contractor UCOR
because it paves the way for the final demolition at ETTP and positions
us to accomplish our ambitious Vision 2020 goal,” said Jay Mullis,
manager of the Oak Ridge Office of EM.
Among EM’s 2020 priorities, Vision 2020
is the cleanup program’s goal to complete all demolitions and major
cleanup at ETTP by the end of 2020. It will mark the first time in the
world an enrichment complex is cleaned and removed.
The
42,000-square-foot K-1600 facility was transferred to Oak Ridge cleanup
contractor UCOR in September 2019 to complete deactivation and
demolition. Centrus Energy Corp. had leased Building K-1600 since 2002
and finished decommissioning activities prior to the transfer. The
company no longer needed the lease after consolidating its centrifuge
testing and demonstration activities into a location in Oak Ridge.
Building
K-1600 is a recognizable facility at ETTP due to its height and
location. It sits in the center of the footprint for the former
mile-long, U-shaped K-25 Building. K-25 was one of the site’s five
massive gaseous diffusion buildings that once held the title of the
world’s largest building.
Deactivation
of K-1600 included rendering the building “cold and dark,” which means
disconnecting utilities to the structure and installing temporary
utilities, such as electrical power. It also included asbestos abatement
and waste removal.
Demolition is scheduled to begin this summer.
To
date, Oak Ridge’s EM program has taken down facilities spanning nearly
13 million square feet, transferred more than 1,200 acres of land for
economic development, and placed more than 3,000 acres in a conservation
easement for community recreational use.
Additionally,
more than 100 acres will be used for historic preservation efforts at
ETTP. Since the K-25 footprint is part of the Manhattan Project National Historical Park, the demolition of Building K-1600 will increase accessibility and remove risks in the area for future use.
-Contributor: Wayne McKinney
SRS Set to Clean Up 12-Acre Coal Yard From Cold War Powerhouse
While
maintaining social distancing, Savannah River Nuclear Solutions (SRNS)
heavy equipment operators Tyler Wilson, left, and Ed Townsley, center,
update SRNS Project Manager Kelsey Holcomb regarding the D-Area Coal
Storage Yard Project at the Savannah River Site.
AIKEN, S.C.
– The long metal arm and strong steel teeth of a massive construction
excavator recently cleared its first bucket full of hardened clay
containing countless bits and pieces of coal, the first step towards
removing contaminated soil from 12 acres at the Savannah River Site (SRS) known as the D-Area Coal Storage Yard.
Until
recently, the yard held huge piles of coal used to continuously feed an
enormous powerhouse built in the late 1950s that provided steam and
electricity for SRS missions. The site shut it down in 2012 and launched
an innovative technology that burns forest debris, agricultural waste,
and scrap lumber to generate steam and power. The powerhouse is now cold
and dark, awaiting demolition.
“Any
large pile of coal that sits for nearly six decades will interact with
rainwater and the atmosphere,” said Kelsey Holcomb, a project manager
with EM contractor Savannah River Nuclear Solutions (SRNS). “Coal
contains iron sulfide, also known as pyrite or fool’s gold. And when it
mixes with rainwater, it creates sulfuric acid. The acidity leaches into
the soil and draws out heavy metals such as beryllium and chromium.”
According
to Holcomb, these heavy metals are found primarily within the first few
feet of soil but will slowly migrate over time into the groundwater
where they might risk reaching the Savannah River, a source of drinking
water for downstream communities.
“We
like to catch things as far up stream as possible before we get into a
human health or ecology threat condition,” Holcomb said. “We’re taking
action to remedy the acidic condition of the soil in the coal storage
yard. It currently has about the same pH as a cola-based soft drink,
around 3.0 to 3.2. We’re going to thoroughly mix fine grade limestone
throughout 12 acres of the coal storage yard down to four feet, which
will bring the pH back to around 5.5. That’s normal for this area.”
Plans call for using approximately 1,000 tons of fine-grade limestone over six months to complete the project. The material was purchased from a quarry in eastern South Carolina.
Plans call for using approximately 1,000 tons of fine-grade limestone over six months to complete the project. The material was purchased from a quarry in eastern South Carolina.
SRNS
construction personnel will work on only one acre at a time to control
erosion and ensure no sediment enters nearby creeks and streams as a
result of soil excavation. The construction workers will operate an
excavator, dump trucks, a road scraper, and a large industrial mixer to
treat each section of the coal yard.
Gigantic
piles of unused coal were removed from the coal storage yard in 2012
and the surface was scraped to reveal a layer of red clay.
“It looks like the surface of Mars out there,” Holcomb said.
The
sprawling coal storage yard will change from red to gray over the next
six months as the final covering, normally sodded grass, will include a
layer of limestone gravel. This innovative approach is expected to
shorten the project schedule and significantly reduce the overall cost.
“Working
closely with our South Carolina and federal environmental regulators,
this project is typical of the creative, cost-effective, and responsible
cleanup activities we as a company have embraced while successfully
remediating dozens of projects since SRNS became the
management-and-operations contractor in 2008,” said Chris Bergren, SRNS
director of environmental compliance and area completion projects.
-Contributor: DT Townsend
Idaho Site Finishes Treating 'Squeezant' Liquid Wastes
IDAHO FALLS, Idaho – EM
and cleanup contractor Fluor Idaho have finished processing a
challenging liquid waste form dubbed “squeezants,” allowing the material
to be sent from the Idaho National Laboratory (INL) Site to an out-of-state permanent disposal facility.
“This was a great effort on the part of our crews to safely treat this material and prepare it for shipment to the Waste Isolation Pilot Plant
(WIPP) or other off-site facility for compliant disposal,” said Ross
Langseth, Fluor Idaho operations manager at the INL Site’s Advanced Mixed Waste Treatment Project (AMWTP).
The
radioactive and hazardous liquid wastes were generated by AMWTP’s
supercompactor when 55-gallon waste drums were crushed with 4 million
pounds of force to create what resemble 5-inch-thick hockey pucks to
reduce their shipping and storage volume. Squeezants are the liquids
that were "squeezed" out of the waste drums by the supercompactor. The
squeezants captured in the supercompactor’s sump were later moved to
4-liter jars and placed into 55-gallon drums.
Those
drums were transferred to six drum overpacks and brought into one of
the facility’s boxlines where the squeezants were soaked up by an
absorbent and blended with debris waste. The material was then put in
55-gallon drums and compacted in the supercompactor. Boxlines are huge
concrete and metal hot cells where containers of radioactive waste are
opened and sorted without exposing workers to the materials inside.
Since
2003, workers at AMWTP have retrieved, treated, packaged, certified,
and shipped an inventory of 65,000 cubic meters of transuranic and
low-level wastes generated during nuclear weapons production at the former Rocky Flats Plant
and other Cold War facilities. The waste was shipped to the INL Site
for above-ground storage from 1970 to the late 1980s. AMWTP completed
treatment of transuranic debris waste in October 2019 and is scheduled
to continue sending that waste to WIPP throughout the next decade.
“Our
crews are some of the best in the business when it comes to
dispositioning challenging wastes,” Langseth said. “We prove each and
every time that it can be done safely.”
-Contributor: Erik Simpson
System Reliability, Remote Monitoring Support Hanford Groundwater Treatment
The
200 West Pump and Treat Facility is Hanford’s largest groundwater
treatment plant. All six of Hanford’s operating pump-and-treat
facilities can be monitored remotely, allowing plant managers to ensure
the systems continue to operate safely and efficiently while meeting
social distancing requirements. The six facilities combined have treated
more than 1.6 billion gallons of contaminated groundwater in fiscal
2020, which began Oct. 1.
RICHLAND, Wash. – Despite the challenges posed by the COVID-19 pandemic this spring, Hanford Site groundwater treatment continued largely uninterrupted and remains on track to meet EM’s goal of treating at least 2.2 billion gallons of contaminated groundwater in fiscal 2020.
Hanford’s advanced pump-and-treat systems allow operations managers with EM Richland Operations Office
(RL) contractor CH2M HILL Plateau Remediation Company (CHPRC) to safely
monitor the facilities remotely from home — meeting social distancing
requirements while ensuring the plants continue to operate efficiently
during the site’s essential mission-critical operations posture.
“The
efficiency and reliability of Hanford’s treatment systems have been
instrumental to our ability to maintain this key component of our
cleanup mission that’s so critical to the protection of the Columbia
River,” said Mike Cline, RL project director for cleanup of soil and
groundwater at Hanford.
Hanford’s
six operating pump-and-treat facilities have collectively treated more
than 1.6 billion gallons of groundwater in fiscal 2020, which began Oct.
1. In the first quarter of fiscal 2020, the 200 West Pump and Treat
Facility alone treated more than 300 million gallons of contaminated
groundwater on Hanford’s Central Plateau, a record volume for any
quarter since the site’s largest treatment plant began operating in
2012.
“I’m
proud of our team’s efforts to stay focused and ensure our facilities
operate safely as we continue striving to meet our cleanup goals,” said
Bill Barrett, vice president of CHPRC’s soil and groundwater remediation
project. “The ability to maintain safe operations during these unique
times has truly been a team effort and the result of excellent
communication and collaboration between our workers, labor, DOE, and the
regulators.”
Through
the life of the cleanup mission, Hanford has treated more than 23
billion gallons of groundwater and removed more than 500 tons of
contaminants, including the majority of the chromium along the River
Corridor and hundreds of tons of nitrates on the Central Plateau, as
well as other contaminants of concern such as carbon tetrachloride,
uranium, and technetium-99.
-Contributor: Dieter Bohrmann
EM Nevada Extends Grant for Groundwater Contamination Testing Program
Nye County’s John Klenke collects water samples from an Amargosa Valley location.
LAS VEGAS – The EM Nevada Program
has awarded a two-year grant extension to an intergovernmental
groundwater testing program carried out by Nye County that works to
ensure the safety of publicly accessible water.
The
Tritium Sampling and Monitoring Program, an EM grant-funded initiative,
supports annual independent sampling for tritium at locations near the
Nevada National Security Site (NNSS). Tritium is the primary contaminant
of concern, because it is highly mobile in groundwater and can serve as
an indicator of contaminant migration from nuclear testing.
“We
are proud of our collaborative partnership with Nye County, which is
helping to ensure the continued safety of publicly accessible water near
the Nevada National Security Site,” said Rob Boehlecke, EM Nevada
Program manager. “The Tritium Sampling and Monitoring Program is a
valuable initiative that continues to show no detectible migration of
tritium at sampling locations in Nye County."
Private
wells, natural springs, and local facilities make up the 20 tritium
sampling and monitoring locations the Tritium Sampling and Monitoring
Program sampled in 2019. For more information, visit the Nye County Nuclear Waste Repository Project.
The
collaborative sampling and monitoring initiative was initiated in 2015
when EM issued a five-year, $1.27 million grant to Nye County to monitor
tritium in wells near the NNSS. The grant also supports the county’s
involvement in technical reviews of the historical nuclear underground
test area groundwater activities.
Geoscientists
under the Nye County Nuclear Waste Repository Project Office have
sampled and monitored 50 separate locations since the program began,
including 42 wells and eight springs. Of these sites, 10 are sampled
every year, while the other 10 locations rotate annually. The 2019
sampling results of 17 wells and three springs found no detectible
levels of tritium in the sampled locations.
As
the environmental program services contractor for the EM Nevada
Program, Navarro Research and Engineering has supported Nye County in
coordinating the administration of the Tritium Sampling and Monitoring
Program. Other supporting partners include the State of Nevada Division
of Environmental Protection, Desert Research Institute, and the Nevada
Site Specific Advisory Board.
-Contributor: Michelle French
Hanford Firefighters Battle Challenging Wildfire
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EM Update | Vol. 12, Issue 15 | June 30, 2020
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Major Hanford Tank Waste Treatment Unit First to Complete Start-up Testing | |
Employees
with Navarro Research and Engineering, Inc. and visiting scientists
observe the E-Tunnel South Portal at the Rainier Mesa/Shoshone Mountain
groundwater characterization area during a field trip to the Nevada
National Security Site.
Navarro’s
key accomplishments during the evaluation period included completing
remedial actions and obtaining regulatory closure of the final
contaminated soils site seven years earlier than the original EM Nevada
Program baseline; making significant progress toward closure of two
major groundwater areas on the NNSS; and cost effectively implementing
the Radioactive Waste Acceptance Program.
Navarro
also continued to demonstrate strong safety and health performance.
There were no injuries, exposures, or lost-workday accidents during the
evaluation period. Additionally, Navarro safely and efficiently
completed extensive follow-on activities within a remote high-hazard
area, including using heavy equipment in high radiological contamination
areas with no lost-time accidents, injuries, or radiological issues.
There
were no significant or notable deficiencies identified during the
rating period. Areas of improvement identified during the period
included timely completion of non-incentivized products, resolution of
information systems access issues, and implementation of a comprehensive
electronic waste profile review and approval process.
To view Navarro’s fee determination scorecard, click here.
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Last Major ETTP Facility Ready for Demolition at Oak Ridge | |
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The
supercompactor ram at the Advanced Mixed Waste Treatment Project exerts
4 million pounds of force to compact filled waste drums.
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Kenny
Ferguson, director of information technology infrastructure services
for Richland Operations Office, inspects for potential damage to an
unoccupied facility following the Gable Mountain fire, which burned more
than 5,000 acres on the Hanford Site.
RICHLAND, Wash. – In a well-coordinated effort, the Hanford Fire Department
and nearby cities and counties successfully contained a wildfire that
presented firefighters with many challenges and obstacles.
Lightning sparked the fire that burned more than 5,000 acres of Gable Mountain, located near the center of Hanford, earlier this month. No one was injured.
“Before
the fire was contained, I had the opportunity to visit the fire command
center and see firsthand the hard work and dedication of the Hanford
Fire Department and other firefighters from neighboring cities and
counties,” said Brian Vance, Hanford Site manager. “These men and women
were battling challenging conditions to ensure the safety of our people,
the site, and our community.”
The
fire department, managed by Hanford contractor Mission Support Alliance
(MSA), called in firefighters from the nearby cities of Richland and
Kennewick, as well as Walla Walla, Benton, and Franklin counties to
combat the wildland fire. MSA also used heavy equipment operations to
support firefighting efforts.
“Firefighting
crews were challenged with heavy fuels due to the location,
difficult-to-access locations, and changing weather conditions such as
strong winds and increasing temperatures,” said Adam Moldovan, acting
fire chief of the Hanford Fire Department.
Lightning
also caused several other small fires across the 580-square-mile site.
Firefighters quickly extinguished those fires, protecting facilities and
allowing them to return focus to the Gable Mountain effort.
-Contributor: Melissa VerSteeg
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