The (Atlas) Moab Mill site is the location of a former uranium mill in Moab, Utah. It operated from 1956 to 1988,
leaving behind uranium mill tailings and contaminated soil and groundwater. Under the NDAA for FY 2001, DOE
will remediate the site and perform any long-term stewardship activities required. Remediation may include
relocating wastes and restoring groundwater. Long-term activities such as groundwater monitoring are expected but
will depend on the final remediation plan. The site covers 162 hectares and residual contamination volumes are
currently unknown.
The Bayo Canyon site in New Mexico was used by DOE for explosive compression tests on metals from 1982 to
1942. Long-term stewardship activities include surveillance and institutional controls over 0.6 hectares to restrict
access to subsurface contamination. The estimated annual cost from 2000 to 2006 was $1,000.
The document summarizes long-term stewardship activities and costs at Argonne National Laboratory - East in Illinois. Major activities include surveillance and monitoring of engineered units and groundwater monitoring. The total site area is 607 hectares. Some portions will require long-term stewardship through 2033, with an estimated average annual cost of $216,500 from 2000-2006. The U.S. Department of Energy will be responsible for long-term stewardship activities and future land use at the site.
This document provides information on the Battelle Columbus Laboratory-King Avenue site in Ohio. The 2.4 hectare site was used between 1943 and 1986 for atomic energy research and development conducted by Battelle Memorial Institute for the DOE and its predecessors. Buildings and grounds were contaminated with uranium, thorium, and other materials from these activities. DOE completed cleanup of the nine contaminated buildings by 1998, disposing of wastes offsite. Cleanup activities will be fully completed in 2000 with final surveys. DOE is not expected to be responsible for long-term stewardship, as Battelle Memorial Institute owns the property.
The Hanford site in southeastern Washington was established in 1943 to produce plutonium for nuclear weapons. It covers 152,000 hectares and contains significant residual radioactive contamination from weapons production activities. Current remediation activities aim to clean up contaminated facilities, soil and groundwater. Once remediation is complete, long-term stewardship will involve institutional controls, maintenance, surveillance and monitoring of disposal sites at an estimated annual cost of $55,000. Responsibility will be shared between the DOE, U.S. Forest Service, Bureau of Land Management, State of Washington and Port of Benton. The extent of residual contamination requiring long-term management has yet to be determined.
The Kansas City Plant site has soil and groundwater contamination from previous industrial operations. Long-term stewardship activities include monitoring of groundwater and surface water, maintaining caps and treatment systems, and enforcing land-use restrictions. These activities are expected to continue indefinitely due to contaminants entering the groundwater that are difficult to remove. Estimated long-term costs average around $1.3 million annually through 2070 due to long-term groundwater monitoring and treatment requirements.
The Kansas City Plant in Missouri has soil and groundwater contamination from previous industrial activities that requires long-term stewardship. Groundwater monitoring and treatment will likely continue for hundreds of years to address volatile organic compounds and dense non-aqueous phase liquids. Surface water and sediment near the site also contain PCB contamination from historical spills. The site will require long-term monitoring of soil, groundwater, surface water, and sediment, as well as maintenance of institutional controls and groundwater treatment systems. Estimated costs for long-term stewardship activities at the site are $1-2 million annually through 2070. The Department of Energy plans to use the site for the foreseeable future.
The Lakeview Site in Oregon contains a disposal cell that received approximately 722,000 cubic meters of contaminated materials from the nearby Lakeview Mill uranium processing site. The U.S. Department of Energy is responsible for long-term stewardship activities at the site, including monitoring the disposal cell and maintaining institutional controls. Annual inspections evaluate the condition of surface features and groundwater monitoring assesses initial disposal cell performance. Estimated annual long-term stewardship costs are $111,000 through at least 2070 to ensure protection of human health and the environment.
The document provides a biopile management plan for remediating petroleum hydrocarbon contaminated soil at the Cantung Mine site. It describes the design of the biopile, which will use divided steel tanks to contain approximately 90 cubic meters of soil per cell. Operations will involve sampling soil for contaminants, accepting only light hydrocarbon contaminated soil, and conducting field trials to determine the optimal remediation treatment over multiple seasons. Soil and leachate will be sampled and monitored according to standards from GNWT and CCME guidelines. The goal is to remediate an estimated total of 600 cubic meters of contaminated soil in batches over approximately six seasons.
The Bayo Canyon site in New Mexico was used by DOE for explosive compression tests on metals from 1982 to
1942. Long-term stewardship activities include surveillance and institutional controls over 0.6 hectares to restrict
access to subsurface contamination. The estimated annual cost from 2000 to 2006 was $1,000.
The document summarizes long-term stewardship activities and costs at Argonne National Laboratory - East in Illinois. Major activities include surveillance and monitoring of engineered units and groundwater monitoring. The total site area is 607 hectares. Some portions will require long-term stewardship through 2033, with an estimated average annual cost of $216,500 from 2000-2006. The U.S. Department of Energy will be responsible for long-term stewardship activities and future land use at the site.
This document provides information on the Battelle Columbus Laboratory-King Avenue site in Ohio. The 2.4 hectare site was used between 1943 and 1986 for atomic energy research and development conducted by Battelle Memorial Institute for the DOE and its predecessors. Buildings and grounds were contaminated with uranium, thorium, and other materials from these activities. DOE completed cleanup of the nine contaminated buildings by 1998, disposing of wastes offsite. Cleanup activities will be fully completed in 2000 with final surveys. DOE is not expected to be responsible for long-term stewardship, as Battelle Memorial Institute owns the property.
The Hanford site in southeastern Washington was established in 1943 to produce plutonium for nuclear weapons. It covers 152,000 hectares and contains significant residual radioactive contamination from weapons production activities. Current remediation activities aim to clean up contaminated facilities, soil and groundwater. Once remediation is complete, long-term stewardship will involve institutional controls, maintenance, surveillance and monitoring of disposal sites at an estimated annual cost of $55,000. Responsibility will be shared between the DOE, U.S. Forest Service, Bureau of Land Management, State of Washington and Port of Benton. The extent of residual contamination requiring long-term management has yet to be determined.
The Kansas City Plant site has soil and groundwater contamination from previous industrial operations. Long-term stewardship activities include monitoring of groundwater and surface water, maintaining caps and treatment systems, and enforcing land-use restrictions. These activities are expected to continue indefinitely due to contaminants entering the groundwater that are difficult to remove. Estimated long-term costs average around $1.3 million annually through 2070 due to long-term groundwater monitoring and treatment requirements.
The Kansas City Plant in Missouri has soil and groundwater contamination from previous industrial activities that requires long-term stewardship. Groundwater monitoring and treatment will likely continue for hundreds of years to address volatile organic compounds and dense non-aqueous phase liquids. Surface water and sediment near the site also contain PCB contamination from historical spills. The site will require long-term monitoring of soil, groundwater, surface water, and sediment, as well as maintenance of institutional controls and groundwater treatment systems. Estimated costs for long-term stewardship activities at the site are $1-2 million annually through 2070. The Department of Energy plans to use the site for the foreseeable future.
The Lakeview Site in Oregon contains a disposal cell that received approximately 722,000 cubic meters of contaminated materials from the nearby Lakeview Mill uranium processing site. The U.S. Department of Energy is responsible for long-term stewardship activities at the site, including monitoring the disposal cell and maintaining institutional controls. Annual inspections evaluate the condition of surface features and groundwater monitoring assesses initial disposal cell performance. Estimated annual long-term stewardship costs are $111,000 through at least 2070 to ensure protection of human health and the environment.
The document provides a biopile management plan for remediating petroleum hydrocarbon contaminated soil at the Cantung Mine site. It describes the design of the biopile, which will use divided steel tanks to contain approximately 90 cubic meters of soil per cell. Operations will involve sampling soil for contaminants, accepting only light hydrocarbon contaminated soil, and conducting field trials to determine the optimal remediation treatment over multiple seasons. Soil and leachate will be sampled and monitored according to standards from GNWT and CCME guidelines. The goal is to remediate an estimated total of 600 cubic meters of contaminated soil in batches over approximately six seasons.
The document summarizes a request to rezone 120 acres from agricultural to industrial use to allow for the development of a limestone quarry. Key details include:
- The site is currently farmed and zoned for agriculture. Surrounding uses are also agricultural.
- Concerns were raised about impacts to traffic, water resources, property values, and consistency with the land use plan.
- Township and county planning bodies recommended denying the rezoning due to environmental and community impacts.
The document provides an update on the remediation approach for the Gude Landfill site to community members. It summarizes the findings of site investigations identifying groundwater contamination beyond the landfill boundary. It outlines the assessment of corrective measures currently underway to evaluate technologies to address the contamination to meet regulatory standards. It also discusses future land reuse preferences of the community and next steps in the process including further community engagement and coordination with county agencies.
This document summarizes a community meeting about remediation efforts at the Gude Landfill. The proposed corrective measure is to install a geomembrane cap over part of the landfill and additional landfill gas collection wells to address groundwater contamination. A land reuse process was outlined that involves community input and approval from county officials. Passive recreation uses are preferred by the community for post-remediation land use. The anticipated schedule and ongoing community engagement were also discussed.
The Parkersburg Site in West Virginia contains an engineered disposal cell for radioactive waste from a former uranium mill. Major long-term stewardship activities include monitoring the disposal cell, restricting access, inspecting fencing and signs, and monitoring groundwater. The 6-hectare site has been monitored since 1983, with disposal of approximately 15,300 cubic meters of waste in the cell. Annual costs average around $16,400, with higher costs every 5 years for groundwater monitoring. The site will remain under long-term stewardship by the DOE indefinitely to ensure the integrity of the disposal cell.
San Manuel 1999 Ore Reserves Report (Draft)Gary Sutton
This document summarizes the oxide ore reserves report for the San Manuel copper mine as of June 1, 1999. It details the geology, exploration history, mining operations, and block model used to estimate reserves of xxx.x million kilograms of recoverable copper remaining at the mine, primarily within the in situ leaching reserves. Production from in situ leaching has averaged 2.3 million pounds of copper per month. The report provides the background and methodology used to estimate reserves for SEC reporting requirements.
The Edgemont Site in South Dakota contains a 145-hectare disposal cell that was built in 1989 to encapsulate uranium mill tailings and contaminated materials from a nearby former uranium mill. Major long-term stewardship activities at the site include monitoring of the disposal cell, restricting access, inspections, and maintenance. The estimated annual cost for long-term stewardship activities from 2000-2006 was $7,800. The primary future use of the site will be long-term surveillance and maintenance of the onsite disposal cell.
Montgomery County Department of Environmental Protection Division of Solid Waste Services - Gude Landfill Remediation Project Corrective Measures Implementation - June 2017
The document provides an update on remediation efforts at the Gude Landfill site in Montgomery County, Maryland. It summarizes the landfill background, community engagement efforts, studies conducted to assess contamination, and the proposed corrective measure of installing a cap and additional landfill gas collection wells. It also discusses future land reuse planning and ongoing community involvement in the remediation process.
The document summarizes long-term stewardship activities at two sites in Idaho - the Idaho National Engineering and Environmental Laboratory (INEEL) and the Lowman Site. For INEEL, major activities include monitoring engineered units, enforcing institutional controls, and restricting access across its 230,321 hectare area. The estimated annual cost is $3.7 million. For the smaller Lowman Site, major activities are disposal cell monitoring, enforcing institutional controls, and restricting access across its 7.3 hectare area. The estimated annual cost is $71,000.
The document provides information on two sites in Pennsylvania - the Burrell Site and the Canonsburg Site. For the Burrell Site, it summarizes that the major activities are disposal cell and groundwater monitoring with access restrictions. The site size is 28 hectares and the estimated annual cost from 2000-2006 was $51,600. For the Canonsburg Site, it summarizes the major activities are disposal cell monitoring, groundwater and surface water monitoring, and access restrictions, with a site size of 14 hectares and estimated annual cost from 2000-2006 of $148,000.
This document summarizes a citizen's forum meeting regarding remediation of the Gude Landfill. Representatives from the county, concerned citizens groups, and engineering firms presented information. The county discussed the landfill history and current operations/monitoring. Groundwater monitoring has found some exceedances of EPA standards near the landfill. The concerned citizens group objectives ensuring remediation is completed before any reuse. The engineering firm discussed plans for further site characterization and risk assessment to develop remediation alternatives. The concerned citizens group discussed possible future reuse options for the landfill property.
The (Conoco) Conquista Site in Texas was formerly used for uranium milling from 1972 to 1982. Remediation activities are being conducted by the site owner, Continental Oil Company (CONOCO), to consolidate contaminated mill tailings, soil, and debris into an onsite disposal cell. In 2002, the U.S. Department of Energy will assume responsibility for long-term stewardship activities at the 243 hectare site, including monitoring of the disposal cell and contaminated groundwater. The estimated annual long-term stewardship cost from 2000 to 2006 is $38,943.
The W.R. Grace and Company Site is located on an industrialized peninsula in south Baltimore, Maryland. During the 1950s, W.R. Grace milled thorium for the Atomic Energy Commission, resulting in low-level radioactive waste that was buried on the property. Radiation surveys identified randomly distributed contamination over the waste burial area and elevated levels of radioactivity in other locations. The primary contaminant of concern is thorium-232. The site was designated for remedial action under the Formerly Utilized Sites Remedial Action Program in 1984, but cleanup is not yet complete so long-term stewardship requirements are not yet known.
Muitos espaços como escolas, empresas de aluguel de quadras e locais para eventos estão ociosos. Uma nova plataforma pretende conectar proprietários destes espaços ociosos a pessoas que precisam alugar estes locais de forma mais acessível, oferecendo também serviços adicionais de gestão e pagamento. A plataforma permite a gestão de horários, finanças e emissão de recibos de forma online para proprietários e locatários.
The document provides information on 5 sites in New Jersey that may require long-term stewardship: DuPont & Company, Maywood Chemical Works, Middlesex Sampling Plant, Princeton Plasma Physics Laboratory, and Wayne Site. For each site, it gives a brief overview of past activities that led to contamination and notes that cleanup is not yet complete, so long-term stewardship requirements are not yet determined. Contact information is also provided for each site.
The Oak Ridge Reservation in Tennessee encompasses 14,000 hectares and contains residual radioactive contamination from past nuclear weapons production activities. Major long-term stewardship activities include maintaining engineered barriers, monitoring ground and surface water, and enforcing institutional controls. Remediation is ongoing but as of 2006, residual contamination will remain in soil, groundwater, sediments, burial grounds, and subsurface structures. The estimated annual long-term stewardship cost from 2000-2006 was $6.7 million.
The document discusses the benefits of exercise for both physical and mental health. Regular exercise can improve cardiovascular health, reduce stress and anxiety, boost mood, and reduce the risk of diseases. It recommends that adults get at least 150 minutes of moderate exercise or 75 minutes of vigorous exercise per week to gain these benefits.
The Ames Laboratory is located on the campus of Iowa State University in Ames, Iowa. It was established in 1947 to produce purified uranium for the Manhattan Project. The 10-acre site currently includes several research buildings. Past waste disposal practices led to soil and groundwater contamination, which was remediated by 1994. Groundwater monitoring will continue through 2002. With cleanup complete, no long-term stewardship is expected to be required after 2006.
The document summarizes a request to rezone 120 acres from agricultural to industrial use to allow for the development of a limestone quarry. Key details include:
- The site is currently farmed and zoned for agriculture. Surrounding uses are also agricultural.
- Concerns were raised about impacts to traffic, water resources, property values, and consistency with the land use plan.
- Township and county planning bodies recommended denying the rezoning due to environmental and community impacts.
The document provides an update on the remediation approach for the Gude Landfill site to community members. It summarizes the findings of site investigations identifying groundwater contamination beyond the landfill boundary. It outlines the assessment of corrective measures currently underway to evaluate technologies to address the contamination to meet regulatory standards. It also discusses future land reuse preferences of the community and next steps in the process including further community engagement and coordination with county agencies.
This document summarizes a community meeting about remediation efforts at the Gude Landfill. The proposed corrective measure is to install a geomembrane cap over part of the landfill and additional landfill gas collection wells to address groundwater contamination. A land reuse process was outlined that involves community input and approval from county officials. Passive recreation uses are preferred by the community for post-remediation land use. The anticipated schedule and ongoing community engagement were also discussed.
The Parkersburg Site in West Virginia contains an engineered disposal cell for radioactive waste from a former uranium mill. Major long-term stewardship activities include monitoring the disposal cell, restricting access, inspecting fencing and signs, and monitoring groundwater. The 6-hectare site has been monitored since 1983, with disposal of approximately 15,300 cubic meters of waste in the cell. Annual costs average around $16,400, with higher costs every 5 years for groundwater monitoring. The site will remain under long-term stewardship by the DOE indefinitely to ensure the integrity of the disposal cell.
San Manuel 1999 Ore Reserves Report (Draft)Gary Sutton
This document summarizes the oxide ore reserves report for the San Manuel copper mine as of June 1, 1999. It details the geology, exploration history, mining operations, and block model used to estimate reserves of xxx.x million kilograms of recoverable copper remaining at the mine, primarily within the in situ leaching reserves. Production from in situ leaching has averaged 2.3 million pounds of copper per month. The report provides the background and methodology used to estimate reserves for SEC reporting requirements.
The Edgemont Site in South Dakota contains a 145-hectare disposal cell that was built in 1989 to encapsulate uranium mill tailings and contaminated materials from a nearby former uranium mill. Major long-term stewardship activities at the site include monitoring of the disposal cell, restricting access, inspections, and maintenance. The estimated annual cost for long-term stewardship activities from 2000-2006 was $7,800. The primary future use of the site will be long-term surveillance and maintenance of the onsite disposal cell.
Montgomery County Department of Environmental Protection Division of Solid Waste Services - Gude Landfill Remediation Project Corrective Measures Implementation - June 2017
The document provides an update on remediation efforts at the Gude Landfill site in Montgomery County, Maryland. It summarizes the landfill background, community engagement efforts, studies conducted to assess contamination, and the proposed corrective measure of installing a cap and additional landfill gas collection wells. It also discusses future land reuse planning and ongoing community involvement in the remediation process.
The document summarizes long-term stewardship activities at two sites in Idaho - the Idaho National Engineering and Environmental Laboratory (INEEL) and the Lowman Site. For INEEL, major activities include monitoring engineered units, enforcing institutional controls, and restricting access across its 230,321 hectare area. The estimated annual cost is $3.7 million. For the smaller Lowman Site, major activities are disposal cell monitoring, enforcing institutional controls, and restricting access across its 7.3 hectare area. The estimated annual cost is $71,000.
The document provides information on two sites in Pennsylvania - the Burrell Site and the Canonsburg Site. For the Burrell Site, it summarizes that the major activities are disposal cell and groundwater monitoring with access restrictions. The site size is 28 hectares and the estimated annual cost from 2000-2006 was $51,600. For the Canonsburg Site, it summarizes the major activities are disposal cell monitoring, groundwater and surface water monitoring, and access restrictions, with a site size of 14 hectares and estimated annual cost from 2000-2006 of $148,000.
This document summarizes a citizen's forum meeting regarding remediation of the Gude Landfill. Representatives from the county, concerned citizens groups, and engineering firms presented information. The county discussed the landfill history and current operations/monitoring. Groundwater monitoring has found some exceedances of EPA standards near the landfill. The concerned citizens group objectives ensuring remediation is completed before any reuse. The engineering firm discussed plans for further site characterization and risk assessment to develop remediation alternatives. The concerned citizens group discussed possible future reuse options for the landfill property.
The (Conoco) Conquista Site in Texas was formerly used for uranium milling from 1972 to 1982. Remediation activities are being conducted by the site owner, Continental Oil Company (CONOCO), to consolidate contaminated mill tailings, soil, and debris into an onsite disposal cell. In 2002, the U.S. Department of Energy will assume responsibility for long-term stewardship activities at the 243 hectare site, including monitoring of the disposal cell and contaminated groundwater. The estimated annual long-term stewardship cost from 2000 to 2006 is $38,943.
The W.R. Grace and Company Site is located on an industrialized peninsula in south Baltimore, Maryland. During the 1950s, W.R. Grace milled thorium for the Atomic Energy Commission, resulting in low-level radioactive waste that was buried on the property. Radiation surveys identified randomly distributed contamination over the waste burial area and elevated levels of radioactivity in other locations. The primary contaminant of concern is thorium-232. The site was designated for remedial action under the Formerly Utilized Sites Remedial Action Program in 1984, but cleanup is not yet complete so long-term stewardship requirements are not yet known.
Muitos espaços como escolas, empresas de aluguel de quadras e locais para eventos estão ociosos. Uma nova plataforma pretende conectar proprietários destes espaços ociosos a pessoas que precisam alugar estes locais de forma mais acessível, oferecendo também serviços adicionais de gestão e pagamento. A plataforma permite a gestão de horários, finanças e emissão de recibos de forma online para proprietários e locatários.
The document provides information on 5 sites in New Jersey that may require long-term stewardship: DuPont & Company, Maywood Chemical Works, Middlesex Sampling Plant, Princeton Plasma Physics Laboratory, and Wayne Site. For each site, it gives a brief overview of past activities that led to contamination and notes that cleanup is not yet complete, so long-term stewardship requirements are not yet determined. Contact information is also provided for each site.
The Oak Ridge Reservation in Tennessee encompasses 14,000 hectares and contains residual radioactive contamination from past nuclear weapons production activities. Major long-term stewardship activities include maintaining engineered barriers, monitoring ground and surface water, and enforcing institutional controls. Remediation is ongoing but as of 2006, residual contamination will remain in soil, groundwater, sediments, burial grounds, and subsurface structures. The estimated annual long-term stewardship cost from 2000-2006 was $6.7 million.
The document discusses the benefits of exercise for both physical and mental health. Regular exercise can improve cardiovascular health, reduce stress and anxiety, boost mood, and reduce the risk of diseases. It recommends that adults get at least 150 minutes of moderate exercise or 75 minutes of vigorous exercise per week to gain these benefits.
The Ames Laboratory is located on the campus of Iowa State University in Ames, Iowa. It was established in 1947 to produce purified uranium for the Manhattan Project. The 10-acre site currently includes several research buildings. Past waste disposal practices led to soil and groundwater contamination, which was remediated by 1994. Groundwater monitoring will continue through 2002. With cleanup complete, no long-term stewardship is expected to be required after 2006.
This document provides an overview of EMFStore, which allows storing and sharing EMF models. It describes EMFStore's architecture with a repository and workspace server. The tutorial then demonstrates how to integrate models in EMFStore and build a custom EMFStore client. More information can be found on EMFStore's website and social media pages.
Trekking Pu Luong Nature Reserve and Cycling Tam Coc (4 days)vktbox
This 4-day tour takes travelers through northern Vietnam, including trekking in Pu Luong Nature Reserve, homestays with local Thai families, a boat trip on the Boi River in Tam Coc, and cycling through rural villages. The itinerary includes trekking through rice fields and villages in Pu Luong Nature Reserve, spending nights with local families in their homes, and enjoying a river boat trip in Tam Coc before cycling and returning to Hanoi.
A VLAN allows hosts to communicate as if on the same broadcast domain regardless of physical location. It groups devices logically instead of relocating them physically. Network changes can be done through software. A WAP connects wired devices to a wireless network using Wi-Fi or Bluetooth standards. It relays data between wireless and wired devices on a network. WAPs are managed by wireless LAN controllers and provide wireless access in public hotspots. Security features like encryption and authentication servers help secure wireless traffic on WAPs.
This document is a report from the 2006 National Survey of Fishing, Hunting, and Wildlife-Associated Recreation for Florida published by the U.S. Fish & Wildlife Service. It provides statistics on recreational activities like fishing, hunting and wildlife watching in Florida. The report includes data on the number of participants in these activities, days spent participating, expenditures, types of fish/game pursued, and places frequented. It also makes comparisons to data from the 1996 survey to examine trends over time. The report aims to provide information to help guide conservation and recreation resource management.
Dokumen ini berisi rencana pelaksanaan kegiatan PERSAMI yang mencakup tujuan, manfaat, jadwal, panitia pelaksana, rancangan anggaran, dan persetujuan kepala sekolah. Kegiatan ini bertujuan untuk meningkatkan keterampilan siswa dan akan diselenggarakan dengan anggaran yang telah disetujui.
The (Atlas) Moab Mill site is a former uranium milling site located on 162 hectares near Moab, Utah. Operations from 1956 to 1988 created uranium mill tailings and other wastes occupying around 53 hectares. The U.S. Department of Energy will be responsible for long-term stewardship if needed. Per the 2001 National Defense Authorization Act, the Department of Energy must prepare a remediation plan considering relocating wastes to an offsite disposal cell and restoring groundwater, in consultation with other groups. Long-term activities are not expected to begin until after 2006.
The Bayo Canyon site in New Mexico was used by the DOE for explosive compression tests on metals from
1982 to 1992. The 0.6-hectare site contains low-level radioactive contamination from these tests. Long-term
stewardship activities include annual inspections and maintaining institutional controls to restrict access and
land use. The estimated annual cost for long-term stewardship from 2000 to 2006 was $1,000.
The document summarizes long-term stewardship activities at two sites in Oregon - the Lakeview Mill site and the Lakeview Site. At the Lakeview Mill site, activities include groundwater monitoring and enforcing deed restrictions to restrict groundwater use. At the Lakeview Site, activities involve monitoring the disposal cell that contains contaminated materials relocated from the Lakeview Mill site and maintaining institutional controls such as fencing and signage. The estimated average annual cost for long-term stewardship activities from 2000-2006 was $47,000 for the Lakeview Mill site and $111,000 for the Lakeview Site.
The Hallam Nuclear Power Facility site in Lancaster County, Nebraska entombed residual radioactive materials onsite after decommissioning a sodium-cooled nuclear reactor in the 1960s-1970s. Current activities include annual groundwater monitoring to ensure containment of contaminants. The 7.3 hectare site is estimated to require groundwater monitoring and maintenance from 1998 to past 2070 at an average annual cost of $46,000.
The Edgemont Site in South Dakota contains a 145-hectare disposal cell that encapsulates contaminated tailings and waste from a former uranium mill. Long-term stewardship activities at the site include annual inspections of the disposal cell, restricting access, and maintenance. The disposal cell will be monitored and maintained in perpetuity at an estimated average annual cost of $7,800. The site provides long-term isolation of 2.3 million cubic meters of contaminated material beneath an engineered cap designed to last 200-1000 years.
The (Conoco) Conquista Site is a former uranium milling site in Karnes County, Texas encompassing 243 hectares. Continental Oil Company (CONOCO) operated the mill from 1972-1982. Remediation efforts encapsulated contaminated soils and mill tailings in an onsite 101-hectare disposal cell. Groundwater is contaminated with radionuclides. In 2002, responsibility will transfer to the US Department of Energy for long-term stewardship activities including groundwater monitoring and disposal cell inspections costing an estimated $38,943 annually.
This document provides information on three Department of Energy sites in Washington:
1) The (Dawn) Ford Site, a former uranium milling site of 202 hectares that will be transferred to DOE in 2019 for long-term monitoring.
2) Hanford, a 152,000 hectare former plutonium production site undergoing environmental remediation to address contaminated liquids, soils, groundwater and solid waste. Major long-term activities will include institutional controls and monitoring.
3) The (WNI) Sherwood Site, a 154 hectare former disposal site requiring disposal cell and groundwater monitoring with an estimated annual cost of $38,700 for long-term stewardship through 2006.
The document provides information on several long-term stewardship sites in Missouri, including the Kansas City Plant site. The Kansas City Plant site covers 56 hectares and requires long-term groundwater and surface water monitoring and institutional controls for soil contamination. Major remediation activities at the site have included soil removal and treatment of contaminated groundwater. Estimated annual long-term stewardship costs for 2005-2006 were $1.33 million. The Weldon Spring Site requires similar long-term monitoring of surface water, groundwater, and landfill maintenance, and had estimated annual costs of $1 million for 2003-2006.
The Argonne National Laboratory - East site covers 607 hectares and contains residual contamination from past research and waste disposal practices. Major activities include monitoring of engineered containment units and groundwater. Remediation has addressed numerous contaminated facilities, but residual contamination will remain in some areas requiring long-term stewardship. Annual costs for long-term stewardship activities from 2000-2006 averaged $216,500.
The document describes long-term stewardship activities at several sites in Missouri impacted by historical DOE operations. It provides details for the Kansas City Plant site, including:
- Groundwater and surface water monitoring and institutional controls are ongoing to address soil contamination from historical operations.
- Over $1 million per year is spent on long-term stewardship activities like groundwater treatment and monitoring.
- Surface and groundwater remediation has been ongoing since the 1990s and is expected to continue indefinitely to reduce contaminants to regulatory limits.
The Idaho National Engineering and Environmental Laboratory site covers 230,321 hectares in southeast Idaho. Past nuclear activities have resulted in soil, groundwater, and facility contamination that is being remediated. Long-term stewardship activities will include monitoring, maintaining remediation structures, and enforcing access restrictions to prevent exposure in residually contaminated areas. The site is expected to require stewardship activities indefinitely to protect human health and the environment.
The Battelle Columbus Laboratory-King Avenue site in Ohio was used from 1943 to 1986 for atomic energy research and development. Buildings and grounds were contaminated with uranium, thorium, and other materials. Cleanup was completed in 2000, with all wastes shipped offsite. The U.S. Department of Energy is not expected to be responsible for long-term stewardship at the privately owned site, as necessary activities will be conducted by the current landowner, Battelle Memorial Institute.
The Hallam Nuclear Power Facility in Lancaster County, Nebraska was a former nuclear reactor that operated from 1962 to 1964. It was decommissioned and dismantled in the late 1960s, with some low-level radioactive materials entombed onsite. Current activities involve annual groundwater monitoring to ensure the stability of the entombed reactor. The site is 7.3 hectares and estimated costs for long-term stewardship activities from 1998 to past 2070 are $46,000 annually on average. The primary long-term activity is groundwater monitoring to ensure no contamination has migrated from the buried materials.
The document provides information on two sites in Kentucky - the Maxey Flats Disposal Site and the Paducah Gaseous Diffusion Plant. It summarizes that the Maxey Flats site accepted radioactive waste from 1963-1977 and is undergoing remediation to be completed by 2003, after which the Commonwealth of Kentucky will assume responsibility for long-term stewardship. It also notes that the Paducah Gaseous Diffusion Plant enriches uranium on a 1,385 hectare site owned by the DOE, with current activities including engineered caps, monitoring, and maintenance expected to continue in perpetuity.
The Kansas City Plant site covers 56.4 hectares and requires long-term stewardship activities including groundwater and surface water monitoring, as well as maintaining institutional controls for soil contamination. Groundwater treatment and monitoring will need to continue indefinitely due to DNAPLs in the aquifer. Estimated annual costs for long-term stewardship activities at the site are $1.3 million.
The Parkersburg Site is a 6-hectare former uranium mill site that now contains an engineered disposal cell. Long-term stewardship activities include monitoring the disposal cell, restricting access, inspections, and maintenance. The estimated annual cost from 2000-2006 was $16,400. The site will be maintained in perpetuity.
The document provides information about the Savannah River Site located in South Carolina. Key details include:
1) The Savannah River Site covers 80,127 hectares and was used from the 1950s to late 1980s to produce nuclear materials for national defense. Major current activities include environmental cleanup and waste management.
2) Environmental remediation has addressed over 300 of 500 contaminated acres and over 40% of 515 inactive waste sites. Over $4 billion gallons of contaminated groundwater have been treated.
3) In addition to site cleanup, wastes and materials onsite are being dispositioned, including vitrifying over 132 million liters of high-level radioactive waste and disposing of low-level
The document provides information about the Savannah River Site located in South Carolina. Key details include:
1) The Savannah River Site covers 80,127 hectares and was used from the 1950s to late 1980s to produce nuclear materials for national defense. Major current activities include environmental cleanup and waste management.
2) Environmental remediation has addressed over 300 of 500 contaminated acres and over 40% of 515 inactive waste sites. Over $4 billion gallons of contaminated groundwater have been treated.
3) In addition to site cleanup, wastes and materials onsite are being dispositioned, including vitrifying over 132 million liters of high-level radioactive waste and disposing of low-level
The document provides information about two sites in Kentucky - the Maxey Flats Disposal Site and the Paducah Gaseous Diffusion Plant. It summarizes that the Maxey Flats site accepted low-level radioactive waste until 1977 and is undergoing remediation expected to be complete by 2003, at which point the Commonwealth of Kentucky will assume long-term stewardship responsibilities. It also summarizes that the Paducah plant has been operating since 1952 to enrich uranium, and that DOE is currently conducting cleanup activities of environmental contamination from plant operations expected to be complete by 2010, along with long-term monitoring and maintenance.
The Savannah River Site in South Carolina covers 198,344 acres and has four main long-term stewardship activities: institutional controls, surveillance and maintenance of treatment systems, operation and monitoring of engineered units, and monitoring of groundwater. Major past activities at the site included producing nuclear materials for national defense from the 1950s to 1980s. Current activities focus on environmental management and cleanup, with over 300 of 500 contaminated acres remediated and treatment systems operating at nine groundwater sites. The site requires long-term management into the future.
Werner Jim Testomony FINAL Nov 2005 Senate EPW Subcommittee on Clean AirJim Werner
- The director of Delaware's Division of Air and Waste Management testified before Congress about implementing national air quality standards for particulate matter and ozone.
- Delaware faces significant air pollution challenges as a small, downwind state receiving pollution from upwind sources. However, Delaware is pursuing various regulations and initiatives to reduce emissions within the state to improve air quality.
- While implementation of air quality standards comes with costs, studies consistently show the substantial health and economic benefits of cleaner air outweigh the costs. Delaware urges consideration of both costs and benefits when evaluating compliance schedules.
- James D. Werner, Director of Delaware's Air and Waste Management Division, testified before the Senate Committee on Environment and Public Works about EPA's proposed revision to lower the ground-level ozone standard.
- While Delaware faces challenges in meeting the current ozone standard due to its downwind location receiving air pollution from other states, Werner expressed support for lowering the standard further in accordance with EPA's independent scientific advisory committee's recommendation.
- Werner raised concerns that EPA did not fully follow its scientific advisory committee's advice in proposing to lower the standard only slightly rather than more substantially as recommended, noting this was the second time EPA had not fully followed its committee's recommendation.
This document discusses radioactive waste control and progress toward sustainability from 1992 to 2002. It begins with an introduction that explores different definitions of sustainability in relation to radioactive waste and nuclear power. It then provides a primer on the different types of radioactive waste. The majority of the document evaluates U.S. progress and failures in radioactive waste control based on principles from the 1992 Rio Declaration and Agenda 21. It assesses performance for different waste types and offers recommendations, including establishing long-term stewardship funds and improving scientific understanding of radioactive waste management.
This document provides background information on the U.S. Department of Energy's (DOE) long-term stewardship obligations after completing cleanup activities at over 100 sites contaminated from decades of nuclear weapons production and research. Long-term stewardship will be needed to monitor and maintain engineered barriers and land-use controls to protect human health and the environment from residual radioactive and chemical contamination. The document examines the transition from active cleanup to long-term stewardship required under various environmental laws and regulations. It also provides context for a study required by a 1998 legal settlement on ensuring protections as land use changes over decades or centuries.
This document provides a summary of the U.S. Department of Energy report "Linking Legacies: Connecting the Cold War Nuclear Weapons Production Processes to Their Environmental Consequences". The report connects the nuclear weapons production facilities during the Cold War to the environmental impacts and waste left behind. It details each step of nuclear weapons production and disposition and the resulting contamination found on and around the sites. The goal is to inform Congress, DOE managers, analysts, and the public about the environmental results of nuclear weapons production in order to guide future cleanup efforts.
The document discusses the benefits of exercise for mental health. Regular physical activity can help reduce anxiety and depression and improve mood and cognitive function. Exercise causes chemical changes in the brain that may help protect against developing mental illness and improve symptoms for those who already suffer from conditions like anxiety and depression.
The document summarizes information about long-term stewardship activities at the Oak Ridge Reservation site in Tennessee. It discusses:
- Major activities including maintaining engineered barriers, monitoring ground and surface water, and enforcing institutional controls.
- The site size is 14,000 hectares (35,000 acres).
- The estimated average annual cost from FY2000-2006 was $6,733,000.
The Savannah River Site in South Carolina covers 80,127 hectares and produces nuclear materials. Major long-term stewardship activities include institutional controls, monitoring, and operating treatment systems. An estimated 26.4 million is spent annually on long-term stewardship. The site has remediated over 300 of 500 contaminated acres and cleaned over 4 billion gallons of groundwater. Future plans include ongoing cleanup efforts and disposition of wastes and materials stored on site.
The Center for Energy and Environmental Research (CEER) in Puerto Rico consists of four sites totaling 72 hectares that were used for nuclear and energy research. DOE has completed cleanup activities at the sites according to environmental regulations. Long-term stewardship responsibilities remain for the Boiling Nuclear Superheat Research Reactor site, which includes annual inspections and maintenance of security and controls around the entombed radioactive materials. The estimated annual cost for long-term stewardship is $25,000.
The Burrell Site and Canonsburg Site summaries are as follows:
Burrell Site:
- Major activities include disposal cell and groundwater monitoring and access restrictions
- Site size is 28 hectares
- Estimated average annual cost from FY2000-2006 is $51,600
Canonsburg Site:
- Major activities include disposal cell monitoring, groundwater/surface water monitoring, access restrictions, and inspections
- Site size is 14 hectares
- Estimated average annual cost from FY2000-2006 is $148,000
The document provides site summaries for 4 locations in New Jersey - the DuPont & Company site, Maywood Chemical Works, Middlesex Sampling Plant, and Princeton Plasma Physics Laboratory. It describes the historical activities at each site, the contaminants present, and notes that the U.S. Army Corps of Engineers is responsible for remediation at these Formerly Utilized Sites Remedial Action Program sites, while the U.S. Department of Energy is responsible for any long-term stewardship activities once cleanup is complete. However, the document notes that cleanup is not yet finalized at these sites so the extent of required long-term stewardship is not yet determined.
The document discusses three sites in Nevada - the Central Nevada Test Area, Nevada Test Site and Tonopah Test Range, and Project Shoal. For the Central Nevada Test Area:
- One subsurface nuclear test was conducted in 1968, with ongoing groundwater monitoring and access restrictions required.
- Surface remediation of contaminated soil pits will be complete by 2001, with long-term monitoring and controls over residual subsurface contamination indefinitely.
- Annual costs for long-term stewardship are estimated at $37,000.
The Salmon Site covers 1,470 acres in Mississippi where the U.S. Atomic Energy Commission conducted two underground nuclear tests in the 1960s, contaminating the subsurface and groundwater. Major long-term stewardship activities include annual groundwater monitoring and enforcing restrictions to prevent access to the contaminated subsurface. Stewardship is estimated to cost $40,000 annually through 2010 and $6.8 million total after 2070, involving monitoring, data analysis, and well maintenance every 25 years. The site is planned to transfer to the state as a demonstration forest after surface contamination decays over 10 years.
The Shpack Landfill is located 40 miles southwest of Boston in Massachusetts. It began operating as a private landfill in the 1960s and received both industrial and domestic waste. In the late 1970s, elevated radiation was detected at the site. The landfill contains contaminated wastes from a former nuclear plant in Attleboro. Cleanup of the site under FUSRAP began in the 1980s and radioactive materials were removed. In 1997, the Army Corps of Engineers took over remediation of the site, which is not yet complete. The long term stewardship requirements are still unknown.
The document discusses the benefits of exercise for mental health. Regular physical activity can help reduce anxiety and depression and improve mood and cognitive function. Exercise causes chemical changes in the brain that may help protect against mental illness and improve symptoms for those who already suffer from conditions like anxiety and depression.
5th LF Energy Power Grid Model Meet-up SlidesDanBrown980551
5th Power Grid Model Meet-up
It is with great pleasure that we extend to you an invitation to the 5th Power Grid Model Meet-up, scheduled for 6th June 2024. This event will adopt a hybrid format, allowing participants to join us either through an online Mircosoft Teams session or in person at TU/e located at Den Dolech 2, Eindhoven, Netherlands. The meet-up will be hosted by Eindhoven University of Technology (TU/e), a research university specializing in engineering science & technology.
Power Grid Model
The global energy transition is placing new and unprecedented demands on Distribution System Operators (DSOs). Alongside upgrades to grid capacity, processes such as digitization, capacity optimization, and congestion management are becoming vital for delivering reliable services.
Power Grid Model is an open source project from Linux Foundation Energy and provides a calculation engine that is increasingly essential for DSOs. It offers a standards-based foundation enabling real-time power systems analysis, simulations of electrical power grids, and sophisticated what-if analysis. In addition, it enables in-depth studies and analysis of the electrical power grid’s behavior and performance. This comprehensive model incorporates essential factors such as power generation capacity, electrical losses, voltage levels, power flows, and system stability.
Power Grid Model is currently being applied in a wide variety of use cases, including grid planning, expansion, reliability, and congestion studies. It can also help in analyzing the impact of renewable energy integration, assessing the effects of disturbances or faults, and developing strategies for grid control and optimization.
What to expect
For the upcoming meetup we are organizing, we have an exciting lineup of activities planned:
-Insightful presentations covering two practical applications of the Power Grid Model.
-An update on the latest advancements in Power Grid -Model technology during the first and second quarters of 2024.
-An interactive brainstorming session to discuss and propose new feature requests.
-An opportunity to connect with fellow Power Grid Model enthusiasts and users.
Digital Marketing Trends in 2024 | Guide for Staying AheadWask
https://www.wask.co/ebooks/digital-marketing-trends-in-2024
Feeling lost in the digital marketing whirlwind of 2024? Technology is changing, consumer habits are evolving, and staying ahead of the curve feels like a never-ending pursuit. This e-book is your compass. Dive into actionable insights to handle the complexities of modern marketing. From hyper-personalization to the power of user-generated content, learn how to build long-term relationships with your audience and unlock the secrets to success in the ever-shifting digital landscape.
Have you ever been confused by the myriad of choices offered by AWS for hosting a website or an API?
Lambda, Elastic Beanstalk, Lightsail, Amplify, S3 (and more!) can each host websites + APIs. But which one should we choose?
Which one is cheapest? Which one is fastest? Which one will scale to meet our needs?
Join me in this session as we dive into each AWS hosting service to determine which one is best for your scenario and explain why!
GraphRAG for Life Science to increase LLM accuracyTomaz Bratanic
GraphRAG for life science domain, where you retriever information from biomedical knowledge graphs using LLMs to increase the accuracy and performance of generated answers
Salesforce Integration for Bonterra Impact Management (fka Social Solutions A...Jeffrey Haguewood
Sidekick Solutions uses Bonterra Impact Management (fka Social Solutions Apricot) and automation solutions to integrate data for business workflows.
We believe integration and automation are essential to user experience and the promise of efficient work through technology. Automation is the critical ingredient to realizing that full vision. We develop integration products and services for Bonterra Case Management software to support the deployment of automations for a variety of use cases.
This video focuses on integration of Salesforce with Bonterra Impact Management.
Interested in deploying an integration with Salesforce for Bonterra Impact Management? Contact us at sales@sidekicksolutionsllc.com to discuss next steps.
Generating privacy-protected synthetic data using Secludy and MilvusZilliz
During this demo, the founders of Secludy will demonstrate how their system utilizes Milvus to store and manipulate embeddings for generating privacy-protected synthetic data. Their approach not only maintains the confidentiality of the original data but also enhances the utility and scalability of LLMs under privacy constraints. Attendees, including machine learning engineers, data scientists, and data managers, will witness first-hand how Secludy's integration with Milvus empowers organizations to harness the power of LLMs securely and efficiently.
Taking AI to the Next Level in Manufacturing.pdfssuserfac0301
Read Taking AI to the Next Level in Manufacturing to gain insights on AI adoption in the manufacturing industry, such as:
1. How quickly AI is being implemented in manufacturing.
2. Which barriers stand in the way of AI adoption.
3. How data quality and governance form the backbone of AI.
4. Organizational processes and structures that may inhibit effective AI adoption.
6. Ideas and approaches to help build your organization's AI strategy.
HCL Notes and Domino License Cost Reduction in the World of DLAUpanagenda
Webinar Recording: https://www.panagenda.com/webinars/hcl-notes-and-domino-license-cost-reduction-in-the-world-of-dlau/
The introduction of DLAU and the CCB & CCX licensing model caused quite a stir in the HCL community. As a Notes and Domino customer, you may have faced challenges with unexpected user counts and license costs. You probably have questions on how this new licensing approach works and how to benefit from it. Most importantly, you likely have budget constraints and want to save money where possible. Don’t worry, we can help with all of this!
We’ll show you how to fix common misconfigurations that cause higher-than-expected user counts, and how to identify accounts which you can deactivate to save money. There are also frequent patterns that can cause unnecessary cost, like using a person document instead of a mail-in for shared mailboxes. We’ll provide examples and solutions for those as well. And naturally we’ll explain the new licensing model.
Join HCL Ambassador Marc Thomas in this webinar with a special guest appearance from Franz Walder. It will give you the tools and know-how to stay on top of what is going on with Domino licensing. You will be able lower your cost through an optimized configuration and keep it low going forward.
These topics will be covered
- Reducing license cost by finding and fixing misconfigurations and superfluous accounts
- How do CCB and CCX licenses really work?
- Understanding the DLAU tool and how to best utilize it
- Tips for common problem areas, like team mailboxes, functional/test users, etc
- Practical examples and best practices to implement right away
Skybuffer SAM4U tool for SAP license adoptionTatiana Kojar
Manage and optimize your license adoption and consumption with SAM4U, an SAP free customer software asset management tool.
SAM4U, an SAP complimentary software asset management tool for customers, delivers a detailed and well-structured overview of license inventory and usage with a user-friendly interface. We offer a hosted, cost-effective, and performance-optimized SAM4U setup in the Skybuffer Cloud environment. You retain ownership of the system and data, while we manage the ABAP 7.58 infrastructure, ensuring fixed Total Cost of Ownership (TCO) and exceptional services through the SAP Fiori interface.
Threats to mobile devices are more prevalent and increasing in scope and complexity. Users of mobile devices desire to take full advantage of the features
available on those devices, but many of the features provide convenience and capability but sacrifice security. This best practices guide outlines steps the users can take to better protect personal devices and information.
Webinar: Designing a schema for a Data WarehouseFederico Razzoli
Are you new to data warehouses (DWH)? Do you need to check whether your data warehouse follows the best practices for a good design? In both cases, this webinar is for you.
A data warehouse is a central relational database that contains all measurements about a business or an organisation. This data comes from a variety of heterogeneous data sources, which includes databases of any type that back the applications used by the company, data files exported by some applications, or APIs provided by internal or external services.
But designing a data warehouse correctly is a hard task, which requires gathering information about the business processes that need to be analysed in the first place. These processes must be translated into so-called star schemas, which means, denormalised databases where each table represents a dimension or facts.
We will discuss these topics:
- How to gather information about a business;
- Understanding dictionaries and how to identify business entities;
- Dimensions and facts;
- Setting a table granularity;
- Types of facts;
- Types of dimensions;
- Snowflakes and how to avoid them;
- Expanding existing dimensions and facts.
UiPath Test Automation using UiPath Test Suite series, part 6DianaGray10
Welcome to UiPath Test Automation using UiPath Test Suite series part 6. In this session, we will cover Test Automation with generative AI and Open AI.
UiPath Test Automation with generative AI and Open AI webinar offers an in-depth exploration of leveraging cutting-edge technologies for test automation within the UiPath platform. Attendees will delve into the integration of generative AI, a test automation solution, with Open AI advanced natural language processing capabilities.
Throughout the session, participants will discover how this synergy empowers testers to automate repetitive tasks, enhance testing accuracy, and expedite the software testing life cycle. Topics covered include the seamless integration process, practical use cases, and the benefits of harnessing AI-driven automation for UiPath testing initiatives. By attending this webinar, testers, and automation professionals can gain valuable insights into harnessing the power of AI to optimize their test automation workflows within the UiPath ecosystem, ultimately driving efficiency and quality in software development processes.
What will you get from this session?
1. Insights into integrating generative AI.
2. Understanding how this integration enhances test automation within the UiPath platform
3. Practical demonstrations
4. Exploration of real-world use cases illustrating the benefits of AI-driven test automation for UiPath
Topics covered:
What is generative AI
Test Automation with generative AI and Open AI.
UiPath integration with generative AI
Speaker:
Deepak Rai, Automation Practice Lead, Boundaryless Group and UiPath MVP
Project Management Semester Long Project - Acuityjpupo2018
Acuity is an innovative learning app designed to transform the way you engage with knowledge. Powered by AI technology, Acuity takes complex topics and distills them into concise, interactive summaries that are easy to read & understand. Whether you're exploring the depths of quantum mechanics or seeking insight into historical events, Acuity provides the key information you need without the burden of lengthy texts.
Energy Efficient Video Encoding for Cloud and Edge Computing Instances
Utah
1. Utah
Salt Lake City Mill
11 e.(2) Disposal Site
Green River Site
South Clive Disposal
Cell
(Atlas) Moab Mill
(Rio Algom) Lisbon Valley Site
Monticello Mill Site and
Vicinity Properties
(Plateau)
Shootaring Canyon Site
(EFN) White Mesa Site
Mexican Hat Site
Long-Term Stewardship Site Highlights
11 e.(2) Disposal Site (page 3)
Site Size- 14.6 hectares (36.2 acres)
Current Landlord- Envirocare of Utah
Expected Future Landlord- U.S. Department of
Energy
(Atlas) Moab Mill (page 5)
Major Activities- disposal cell monitoring;
groundwater monitoring; access restrictions; erosion
control
Site Size- 162 hectares (400 acres)
Start/End Years- yet to be determined
Estimated Average Annual Cost FY 2005-2006$16,500
(EFN) White Mesa Site (page 9)
Site Size- 202 hectares (500 acres)
Current Landlord -International Uranium Corporation
Expected Future Landlord- U.S. Department of
Energy, Grand Junction Office
Green River Site (page 13)
Major Activities- disposal cell monitoring;
groundwater monitoring; access restrictions;
inspections; maintenance
Site Size- 10 hectares (25 acres)
Start/End Years - engineered unit - 1989/in
perpetuity, groundwater- 2009-2018
Estimated Average Annual Cost FY 2000-2006$88,300
Mexican Hat Site (page 17)
Major Activities - groundwater monitoring; disposal cell
monitoring
Site Size- 48 hectare (119 acre)
Start/End Years - disposal cell1997 - in perpetuity;
groundwater 1999-2004
Estimated Average Annual Cost FY 2000-2006$139,000
Monticello Mill Site and Vicinity Properties (page 23)
Major Activities- disposal cell monitoring; institutional
control enforcement; supplemental standards area
monitoring; groundwater monitoring
Site Size- 2,300 hectares (5, 700 acres)
Start/End Years- 2001/in perpetuity
Estimated Average Annual Cost FY 2000-2006$286,000
(Plateau) Shootaring Canyon Site (page 33)
Total Site Area· unknown
Current Landlord- U.S. Energy Corporation through its
subsidiary, Plateau Resources Limited
Expected Future Landlord· U.S. Department of
Energy, Grand Junction Office
(Rio Algom) Lisbon Valley Site (page 37)
Site Size- 130 hectares (330 acres)
Current Landlord- Rio Algom through its subsidiary,
Rio Algom Mining Corporation
Expected Landlord- U.S. Department of Energy,
Grand Junction Office
Salt Lake City Mill (page 41)
Major Activities- groundwater monitoring; land use
restrictions; record keeping
Site Size Area- 52 hectares (128 acres)
Start-End Years -1989-2004
Estimated Average Annual Cost FY 2000-2006$25,000
South Clive Disposal Cell (page 45)
Major Activities- disposal cell monitoring
Site Size- 40 hectares (99 acres)
Start/End Years -1997/in perpetuity
Estimated Average Annual Cost FY 2000-2006$32,342
2.
3. Table of Contents
Table of Contents
11e.(2) Disposal Site ..................................................................... 3
(Atlas) Moab Mill ....................................................................... 5
(EFN) White Mesa Site ................................................................... 9
Green River Site ........................................................................ 13
Mexican Hat Site ....................................................................... 17
Monticello Mill Site and Vicinity Properties ................................................. 23
(Plateau) Shootaring Canyon Site .......................................................... 33
(Rio Algom) Lisbon Valley Site ........................................................... 37
Salt Lake City Mill ..................................................................... 41
South Clive Disposal Cell ................................................................ 45
Utah
1
5. lle.(2) Disposal Site
lle.(2) DISPOSAL SITE 1
1.0
SITE SUMMARY
1.1
Site Description and Mission
Envirocare of Utah, which is a commercial low-level
SITE HIGHLIGHTS
waste disposal site, contains within its boundaries a
disposal cell for byproduct material defined under the
Total Site Area- 14.6 hectares (36.2 acres)
Atomic Energy Act, as amended. This disposal cell,
Estimated Volume of Residual Contaminantsknown as the "11e.(2) Disposal Site," is located
900,000 cubic meters (1 million cubic yards)
approximately 137 kilometers (85 miles) west of Salt
Current Landlord- Envirocare of Utah
Expected Future Landlord- U.S. Department of
Lake City and 4 kilometers (2.5 miles) south of U.S.
Energy
Interstate 80 in Tooele County, Utah. The disposal cell
is currently 14.6 hectares (36.2 acres), but could
ultimately be 37.1 hectares (91.7 acres) and hold up to
4.2 million cubic meters (5.5 million cubic yards) of waste.
Envirocare of Utah owns a license to receive, store, and
dispose of 11e.(2) byproduct material onsite. 11e.(2)
byproduct material is defined by law under Section 11e.(2)
of the Atomic Energy Act, as amended by Title II of the
Uranium Mill Tailings Radiation Control Act of 1978, as:
tailings or waste produced by the extraction or
concentration of uranium or thorium from any ore
processed primarily for its source material (i.e., uranium or
thorium) content. A portion of the material disposed at the
lle.(2) Disposal Site originated from the removal of waste
from sites remediated under the Formerly Utilized Sites
Remedial Action Program (FUSRAP).
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To date, approximately 900,000 cubic meters (one million
cubic yards) of material have been disposed in the cell. The
active portion of the cell occupies 10 hectares (24.9 acres)
and a cap has been placed over 4.6 hectares (11.3 acres).
The disposal cell lies in a flat ancient lake bed along the
eastern edge of the Great Salt Lake Desert, which extends
approximately 80 kilometers (50 miles) from the
Nevada/Utah border. The surrounding area is sparsely
'------::
11e.(2)
Disposal She
EnvirocareofU!ah
lle.(2) Disposal Site
1
This report is developed in response to a Congressional request in the Fiscal Year (FY) 2000 National
Defense Authorization Act (NDAA). As requested by the Act, this report addresses current and anticipated longterm stewardship activities at each site or portion of a site by the end of calendar year 2006 ("Conference Report on
S.l059, National Defense Authorization Act for Fiscal Year 2000," Congressional Record, August 5, 1999).
Based on current planning, the lle.(2) Disposal Site is not expected to require long-term stewardship until after
2006, and for this reason the site is not the primary focus of this report. This brief summary of the site cleanup
activities is provided for background information and potential future long-term stewardship activities. (See Section
3.2 of Volume I).
Utah
3
6. National Defense Authorization Act (NDAA) Long-Term Stewardship Report
populated, with the nearest residences at least 48 kilometers (30 miles) from the site. Roads in the area are used
for recreation and for access to military firing ranges south of the site. Vegetation in the area is sparse, and the
semi-arid low shrub land is used primarily for grazing.
For additional information about the lle.(2) Disposal Site, please contact:
Envirocare of Utah, Inc.
Suite 116
46 W. Broadway
Salt Lake City, UT 84101-2019
Phone: 801-532-1330
Utah
4
7. (Atlas) Moab Mill
(ATLAS) MOAB MILL
1.0
SITE SUMMARY
1.1
Site Description and Mission
The (Atlas) Moab Mill is the location of a former
uranium milling site that operated from 1956 until1988.
The site is located on 162 hectares (400 acres) of land
on the northwest shore of the Colorado River in Grand
County, Utah, approximately 5 kilometers (3 miles)
from the city of Moab. Adjacent to the mill on the
north and west are U.S. Highway 191 and Utah
Highway 279, respectively. Arches National Park is
north of the site across U.S. Highway 191. The Rio
Grande Railroad traverses a small section of the
property, just west of Highway 279. Milling operations
at the site created uranium mill tailings and other
process-related wastes, which occupy approximately 53
hectares (130 acres) of the site and are located about
230 meters (750 feet) from the Colorado River.
LONG-TERM STEWARDSHIP HIGHLIGHTS
Major Long-Term Stewardship Activities -yet to be
determined
Total Site Area- 162 hectares (400 acres)
Estimated Volume of Residual Contaminants-
groundwater unknown; surface water unknown; soil
unknown
Long-Term Stewardship Start-End Years- yet to be
determined*
Average Annual Long-Term Stewardship Cost FY
2005-2006- $16,500
Landlord- U.S. Department of Energy, Grand
Junction Office
*The long-term stewardship start and end years will depend
on the remedial action selected and completion date. Longterm stewardship activities are not expected to begin until
after 2006.
The current mission of the (Atlas) Moab Mill site has
been modified by the National Defense Authorization
Act (NDAA) for Fiscal Year (FY) 2001. The U.S.
Department of Energy (DOE) will be responsible for conducting long-term stewardship activities at the site, if
any are necessary.
In the NDAA forFY 2001, the (Atlas) Moab Mill site'sremediation schedule and plans were changed. To satisfy
the site's remediation procedures in the NDAA for FY 2001, DOE must prepare a remediation plan for the site,
in accordance with Title I of the Uranium Mill Tailings Radiation Control Act of 1978 (UMTRCA), that includes
considering the relocation of the mill tailings and contaminated media to an offsite disposal cell (most likely a
disposal cell constructed specifically to contain the remediated materials from the (Atlas) Moab Mill site) and
restoration of the groundwater. As part of the development of this remediation plan, DOE must cooperate with
the National Academy of Sciences and thoughtfully consider its recommendations on various remedial
alternatives. Also, DOE will develop, in consultation with the Trustee, NRC, and the State of Utah, an efficient
and legal means for transferring all responsibilities and title of the (Atlas) Moab Mill site, and all the materials
therein, from the Trustee to DOE. This remediation plan must be completed no later than one year after the date
of the enactment of the NDAA for FY 2001; and DOE must begin remedial action at the site as soon as
practicable after the completion of the plan.
The license for the materials at the (Atlas) Moab Mill site, issued by NRC, will terminate one year after the date
ofthe enactment of the NDAA for FY 2001, unless DOE determines that the license can be terminated earlier.
Until the license is terminated, the Trustee, subject to the availability of funds appropriated specifically for the
site's remediation or the funds made available by the Trustee from the site's trust, may carry out (1) interim
measures to reduce or eliminate the localized high ammonia concentrations in the Colorado River; (2) activities
to dewater the mill tailings at the site; and (3) other activities related to the site, subject to the authority of the
NRC and in consultation with DOE.
The historical mission of the uranium milling site was to process uranium for sale to the U.S. Government and
Utah
5
8. National Defense Authorization Act (NDAA) Long-Term Stewardship Report
other industries. More than half of the uranium
produced at the site was used to support the
U.S. Government national defense program.
The Uranium Reduction Company (URC) built
the (Atlas) Moab Mill and began operations in
October 1956. Atlas Corporation purchased the
site from URC in 1962 and operated the mill
until 1984. The majority of the ore processed
at the (Atlas) Moab Mill was transported to the
mill from the Big Indian Uranium District,
approximately 48 kilometers (30 miles) to the
southeast. The ore was ground to a sufficiently
fine consistency to allow efficient chemical
reactions to occur, and was then processed,
using either the acid-leach or alkaline-leach
process. After milling, the combined waste
slurry from both processes was pumped into the
tailings impoundment.
1.2
(MosfMoap~ill,
···.-,~
e!Moab
To G~~
5J~~~~~- co Jf
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(-240miles)
.
.
'1-.
(Rio AJgom) Lispon Valley Site
•.
Site Cleanup and Accomplishments
20
10
0
Contamination at the (Atlas) Moab Mill
Miles
resulted from the previous uranium milling
operations conducted by URC and Atlas
(Atlas) Moab Mill
Corporation. Approximately 10,500,000 tons
of uranium mill tailings are currently located on
the site. In addition to the tailings, soil and
building debris are contaminated with uranium, radium, and thorium.
In 1988, the Atlas Corporation began decommissioning the site and constructing an interim cover for the tailings
disposal area. The former mill was decommissioned and the wastes were consolidated under an interim cover
that was completed in 1995. In 1998, the Atlas Corporation declared bankruptcy. As a result ofthe bankruptcy
proceedings, the Moab Uranium Mill Site Transfer Agreement was established, which provided for the transfer
of the site's NRC license to a trustee that was to be responsible for completing the site's remediation. In January
2000, PricewaterhouseCoopers was selected as the trustee and agreed to oversee and ensure that remediation of
the (Atlas) Moab Mill was completed in accordance with the conditions of the NRC license and the site's transfer
agreement. However, as stated above, the Trustee will relinquish all responsibility to DOE within one year of
enactment of the NDAA for FY 2001.
Groundwater at the site is contaminated with radioactive materials, including radium and uranium, and nitrogen
compounds from the uranium ore processing. The Colorado River is contaminated with localized, high
concentrations of ammonia. The initial monitoring program of water resources at and around the site began in
1976, after approximately 20 years of mill operation. The monitoring program was designed to collect surface
water samples from the Colorado River and groundwater samples from the alluvial aquifer situated beneath the
tailings impoundment. NRC has indicated that remediating contaminated groundwater will require a substantially
longer period of time than will be involved in the surface reclamation of the mill tailings.
Utah
6
9. (Atlas) Moab Mill
2.0
SITE-WIDE LONG-TERM STEWARDSHIP
2.1
Long-Term Stewardship Activities
The DOE Grand Junction Office will be responsible for performing long-term stewardship activities at the (Atlas)
Moab Mill site, if any are required. The types of long-term stewardship activities that may be needed at the site
will not be known until the site's remediation plan is prepared and the remedial action is completed. DOE
provides a 24-hour phone line for reporting site concerns.
Site records will be kept in permanent storage at the DOE Grand Junction Office in Colorado. The types of
records that will be maintained include site characterization data, remedial action design information, the
radiological assessment, long-term monitoring plans, annual inspection reports, and current and historic
monitoring data.
2.2
Specific Long-Term Stewardship Activities
STAKEHOWER INVOLVEMENT
Groundwater
The groundwater is expected to require annual
monitoring. The specific monitoring requirements will
be prescribed in the site's long-term surveillance plan
that will be developed after remediation is completed,
and if long-term stewardship activities are required.
Surface Water/Sediments
DOE will assume the lead role in stakeholder
involvement during remedial action as a result of the
NDAA for FY 2001. Once remediation is complete,
the annual inspection reports for the (Atlas) Moab Mill
will be distributed to the local libraries and to any
stakeholders requesting them. The reports, once
published, will be available on the DOE Grand
Junction Office website at www.doegjpo.com.
The surface water may require periodic monitoring if it is not completely cleaned up during the site's remedial
action. The specific monitoring requirements will be prescribed in the site's long-term surveillance plan that will
be developed after remediation is completed, and if long-term stewardship activities are required.
2.3
Regulatory Regime
The long-term stewardship activities, if required, at the (Atlas) Moab Mill will be governed by several
requirements in the following regulations: Title I ofUMTRCA; the Atomic Energy Act; EPA standards, including
Title 40 of the Code of Federal Regulations, Part 192 Subparts B and C; and the National Environmental Policy
Act, as amended.
2.4
Assumptions and Uncertainties
The site's remediation strategy has not yet been selected. DOE assumes that the tailings will be removed to an
offsite disposal cell. The costs for conducting long-term stewardship activities at an offsite disposal cell will be
similar to other UMTRCA Title II, offsite disposal cells.
The (Atlas) Moab Mill site will undergo groundwater restoration activities for a currently undetermined length
of time; after which, the site is expected to be eligible for unrestricted use.
3.0
ESTIMATED LONG-TERM STEWARDSHIP COSTS
The cost estimates, identified in the table below, are based on the actual costs of long-term stewardship activities
at other similar sites under DOE's management. Actual costs will vary depending upon the groundwater
Utah
7
10. National Defense Authorization Act (NDAA) Long-Term Stewardship Report
sampling frequency, number of analyses sampled, and the number of sampling points (e.g., wells). Contingency
costs, such as cap replacement, have not been incorporated in the cost estimates.
Site Long-Term Stewardship Costs (Constant Year 2000 Dollars)
Year(s)
Amount
Year(s)
Amount
Year(s)
Amount
FY2000
$0
FY2008
$16,500
FY 2036-2040
$81,800
FY 2001
$0
FY 2009
$16,500
FY 2041-2045
$81,800
FY 2002
$0
FY2010
$16,500
FY 2046-2050
$81,800
FY 2003
$0
FY 2011-2015
$78,500
FY 2051-2055
$81,800
FY 2004
$0
FY 2016-2020
$76,400
FY 2056-2060
$81,800
FY 2005
$16,500
FY 2021-2025
$76,600
FY 2061-2065
$81,800
FY 2006
$16,500
FY 2026-2030
$81,000
FY 2066-2070
$81,800
FY 2007
$16,500
FY 2031-2035
$81,800
4.0
FUTURE
USES
Assuming that the contaminated materials are relocated to an offsite disposal cell, title to the (Atlas) Moab Mill
site will likely be transferred or sold after remediation activities at the site are completed. The future use of the
site will depend on the remedial action that is selected in the site's remediation plan, but DOE anticipates that
the site will ultimately be remediated to unrestricted use.
The associated, anticipated disposal cell will be a permanent mill tailings repository under DOE ownership with
the necessary use restrictions.
For more information about the (Atlas) Moab Mill site, please contact:
Art Kleinrath, Long-Term Surveillance and Maintenance Program Manager
U.S. Department of Energy, Grand Junction Office
2597 B3/4 Road, Grand Junction, CO 81503
Phone: 970-248-6037
or visit the Internet website at http://www.doegjpo.com
Utah
8
11. (EFN) White Mesa Site
(EFN) WHITE MESA SITE 1
1.0
SITE SUMMARY
1.1
Site Description and Mission
The (EFN) White Mesa Site is the location of a
currently operating uranium milling site. The site is
located in San Juan County, Utah, approximately eight
kilometers (five miles) south of Blanding. The (EFN)
White Mesa site is currently owned and operated by the
International Uranium Corporation (formerly owned
and operated by Energy Fuels Nuclear, Inc). The site
covers approximately 202 hectares (500 acres).
LONG-TERM STEWARDSHIP HIGHLIGHTS
Total Site Area- 202 hectares (500 acres)
Current Landlord- International Uranium Corporation
Expected Future Landlord- U.S. Department of
Energy, Grand Junction Office
Reason Not Subject to NDAA Requirements - This site
is an UMTRCA Title II site that will not be transferred
to DOE until 2025
Once the site is transferred to DOE in 2025, the only
site mission will be the long-term surveillance and
maintenance of the disposal cell. The exact number of acres that will be transferred to DOE has not yet been
determined.
The current and historic mission of the site is to extract uranium oxide concentrate (commonly called yellowcake)
from uranium ores found in the region. The (EFN) White Mesa Site uranium milling site was constructed in the
late 1970s by Energy Fuels Nuclear, Inc. to process uranium ores from the Colorado Plateau. After two- and-ahalf years of operation, the mill was shut down. In May 1997, International Uranium Corporation, the current
owner and site operator, purchased the mill assets. The mill operated intermittently throughout the 1980s and
1990s and is currently in operation. From its inception through April 1999, the mill processed a total of 3.8
million tons of uranium ore.
1.2
Site Cleanup and Accomplishments
The International Uranium Corporation will be responsible for conducting all remediation activities at the (EFN)
White Mesa site. All contamination at the site will be remediated and disposed of in two onsite disposal cells.
Materials and debris associated with the decommissioning of the mill facility will be placed in one of the lined
disposal cells. Contaminated soils, crystals, and the synthetic liner from an existing evaporation pond will be
consolidated in the other cell, along with offsite soils contaminated by wind-blown mill tailings. When
remediation activities are completed, the site will have two disposal cells containing approximately two million
cubic meters (2.6 million cubic yards) of uranium mill tailings. The precise size of the disposal cells will not be
known until remediation is completed. Once the cells reach capacity, they will be capped with a one-meter
(three-foot) layer of soil, followed by a layer of compacted clay and eight-to-20 centimeters (three-to-eight
inches) of rock riprap for erosion control. The cells will be designed to limit the infiltration of precipitation,
1
This report is developed in response to a Congressional request in the Fiscal Year (FY) 2000 National
Defense Authorization Act (NDAA). As requested by the Act, this report addresses current and anticipated longterm stewardship activities at each site or portion of a site by the end of calendar year 2006 ("Conference Report on
S.l059, National Defense Authorization Act for Fiscal Year 2000," Congressional Record, August 5, 1999).
Based on current planning, the (EFN) White Mesa Site is not expected to be transferred to the U.S. Department of
Energy (DOE) for long-term stewardship until 2025, and for this reason the site is not the primary focus of this
report. This brief summary of the site cleanup activities is provided for background information and potential future
long-term stewardship activities. (See Section 3.2 of Volume I).
Utah
9
12. National Defense Authorization Act (NDAA) Long-Term Stewardship Report
prevent erosion, and control radon gas releases.
No groundwater contamination has been detected by the site's existing groundwater detection monitoring
program. Because contamination has not been detected, the U.S. Nuclear Regulatory Commission (NRC)
Reclamation Plan for the (EFN) White Mesa Site does not require any corrective measures for groundwater.
J
Wayne County
ToSol!LokeCoy,UT
(•180mUes)
/
.
(Plateau) Shootaring Canyon Site
""
)(
'
-~~~~7~--~~-----~
.
/(-....
,~
)../
/
.---------------~--~}
0
15
30
Miles
(EFN) White Mesa Site
2.0
EXPECTED FUTURE USES AND SITE RESPONSIBILITY
Once the (EFN) White Mesa Site is transferred to DOE in 2025, the DOE Grand Junction Office will be
responsible for long-term stewardship activities. The two disposal cells at the site will be similar to other
uranium mill tailings disposal cells and will have similar long-term stewardship activities.
Anticipated site-wide long-term stewardship activities include restricting access by fencing and posting warning
signs along the site boundary. DOE will repair the fence and replace the signs, as necessary. DOE will staff a
24-hour phone line for reporting site concerns. Drilling and other intrusive activities will be prevented within
site boundaries through institutional controls. DOE expects to conduct annual surface inspections to ensure the
integrity of the disposal cell covers and other engineered features. Groundwater is likely to be monitored
annually as a "best management" practice.
Site records will be placed in permanent storage at the DOE Grand Junction Office in Colorado. The types of
records maintained include site characterization data, remedial action design information, the site completion
report, long-term monitoring plans, annual inspection reports, and current and historic monitoring data.
Utah
10
13. (EFN) White Mesa Site
For additional information about the (EFN) White Mesa Site, please contact:
Art Kleinrath, Long-Term Surveillance and
Maintenance Program Manager
U.S. Department of Energy, Grand Junction Office
2597 B3/4 Road
Grand Junction, CO 81503
Phone:970-248-6037
or visit the Internet website at http://www.doegjpo.com
Utah
Bill Von Till, Project Manager
Uranium Recovery and Low-Level Waste
Branch
U.S. Nuclear Regulatory Commission
Mail Stop 7J8
Washington, DC 20555-001
Phone: 301-415-6351
or visit the Internet website at http://www.nrc.gov
11
15. Green River Site
GREEN RIVER SITE
1.0
SITE SUMMARY
1.1
Site Description and Mission
The Green River Site is the location of a former
uranium milling site that operated between 1958 and
1961. The site covers approximately 10 hectares (25
acres) and is located in Grand County in the east-central
portion of Utah. The site is 1.6 kilometers (one mile)
southeast of the City of Green River and 113 kilometers
(70 miles) west of the Utah-Colorado border. The U.S.
Army's White Sands Missile Range, Utah Launch
Complex, uses most of the vacant land south and east of
the site. Agriculture is the predominant land use in this
sparsely populated area.
LONG-TERM STEWARDSHIP HIGHLIGHTS
Major Long-Term Stewardship Activities- disposal
cell monitoring; groundwater monitoring; access
restrictions; inspections; maintenance
Total Site Area- 10 hectares (25 acres)
Estimated Volume of Residual Contaminants-
engineered unit 292,200 cubic meters (382,000 cubic
yards); groundwater 685,200 cubic meters (181 million
gallons)
Long-Term Stewardship Start-End Years- engineered
unit- 1998-in perpetuity; groundwater- 2009-2018
Average Annual Long-Term Stewardship Cost FY
The milling operations used to process the uranium ore
2000-2006- $88,300
created approximately 292,200 cubic meters (382,000
Landlord- U.S. Department of Energy, Grand
cubic yards) of process-related waste and uranium mill
Junction Office
tailings. The tailings were originally deposited onsite
in a two-meter (seven-foot) thick pile covering four
hectares (nine acres). The U.S. Department of Energy
(DOE) encapsulated the tailings in an engineered disposal cell in 1989.
The current mission of the Green River Site is monitoring and maintaining the onsite disposal cell. The site is
subject to Title I of the Uranium Mill Tailings Radiation Control Act of 1978 (UMTRCA). As such, DOE is
responsible for remediation and long-term stewardship activities of the site. DOE began long-term stewardship
activities for the engineered unit in 1998.
The historic mission of the Green River site was to provide uranium for the U.S. Government's national defense
program. Union Carbide built the uranium processing mill in 1958 and operated it until1961. Later, the mill
buildings were used for assembly of missile components for the Utah Launch Complex. The State of Utah
acquired ownership of the mill and tailings site in 1988.
1.2
Site Cleanup and Accomplishments
Remediation of the site involved consolidating and stabilizing the residual radioactive material in a disposal cell
at the former processing site and remediating 17 vicinity properties. The State of Utah and the U.S. Nuclear
Regulatory Commission (NRC) concurred in DOE's decision to consolidate the tailings onsite in an engineered
disposal cell.
Radioactive materials from the original pile, the demolished or decontaminated mill buildings, and contaminated
vicinity properties were consolidated into a U.S. Environmental Protection Agency (EPA)-compliant disposal
cell. The cell was excavated to bedrock and lined with two meters (six feet) of low-permeability soil. The cell
measures 137 meters (449 feet) by 162 meters (532 feet) at the base and rises 13 meters (43 feet) above the
surrounding land. Most of the contaminated materials are below grade. Approximately 292,200 cubic meters
(382,000 cubic yards) of contaminated materials, including uranium, radium, and thorium, were placed in the
2.5-hectare (six-acre) cell (equivalent to 501,000 dry tons of contaminated material with an estimated activity
Utah
13
16. National Defense Authorization Act (NDAA) Long-Tenn Stewardship Report
of 30 curies of radium-226). A clay-rich soil layer placed over the contaminated materials extends to the edge
of the cell below grade and serves as a low permeability radon barrier. Above grade, the radon barrier is covered
by a layer of rock placed on granular bedding material. The cell design promotes rapid precipitation runoff to
minimize leachate. Surface remedial action was completed in September 1989.
@
Groundwater Monitoring Well
~ GroundwaterContaminanon
0
0.1
To Grand Junction, CO
(·B5miles)
..
Green River Site
Approximately 685,200 cubic meters (181 million gallons) of groundwater in the vicinity of the Green River Site
are contaminated with materials generated during uranium ores processing. Uranium processing-related
contaminants have been identified in the alluvium and in the upper Cedar Mountain Formation beneath the site.
An upward hydraulic gradient prevents these contaminants from migrating into lower strata. Groundwater in
these aquifers is not suitable for agricultural or domestic use because of naturally occurring contamination and
low water yields. The groundwater is not a current or potential source of drinking water, as defined in Title 40
of the Code of Federal Regulations, Part 192. Therefore, no active groundwater remediation is planned. DOE
is currently monitoring groundwater to provide additional characterization and to develop a groundwater
compliance strategy for regulatory approval.
2.0
SITE· WIDE LONG-TERM STEWARDSHIP
2.1
Long-Term Stewardship Activities
The DOE Grand Junction Office manages the site
according to a long-term surveillance plan prepared
specifically for the Green River Site. Under provisions
of the plan, the Grand Junction Office conducts annual
Utah
STAKEHOLDER INVOLVEMENT
Community interaction has been minimal since the
surface remedial action was completed. Copies of the
annual inspection report for Green River Site and other
sites are distributed to the local library and to any
stakeholders requesting them. The annual inspection
reports are also published on the DOE Grand Junction
Office website at www.doegjpo.com ..
14
17. Green River Site
inspections of the site to evaluate the condition of surface features. DOE also performs site maintenance, such
as fence repair and sign replacements, as necessary. A locked security fence surrounds the perimeter of the cell
to control access.
The disposal site is owned by the Federal Government, which controls land use within the site boundaries. DOE
performs long-term stewardship activities, as required under the NRC general license (10 CPR 40.27), to
maintain protectiveness of the remedy and to ensure compliance with the applicable regulations. A chain- link
fence with locked gates restricts access to the disposal cell, and warning signs are posted every 152 meters (500
feet) along the site boundary. DOE staffs a 24-hour phone line for reporting site concerns. Drilling and other
intrusive activities are prevented within site boundaries through the use of institutional controls.
DOE maintains and updates specific records and reports required to document the long-term stewardship
activities at the Green River Site. DOE submits an annual report to NRC that documents the results of the longterm surveillance plan, as required by NRC regulations in Title 10 of the Code of Federal Regulations Part 27,
Appendix A, Criterion 12. Site records are kept in permanent storage at the DOE Grand Junction Office in
Colorado and are available for review by the public. The types of records maintained include site
characterization data, remedial action design information, the site completion report, long-term monitoring plans,
annual inspection reports, and current and historic monitoring data. Real property records are maintained at the
DOE Albuquerque Operations Office in New Mexico.
2.2
Specific Long-Term Stewardship Activities
Engineered units
Long-term stewardship activities for the disposal cell include conducting annual inspections to assess the
integrity of the cell cover and other engineered features, and ensuring effectiveness of institutional controls. No
significant repairs are anticipated for the disposal cell. The Green River Site disposal cell is designed and
constructed to last for 200 to 1,000 years. However, DOE's responsibility for the safety and integrity of the
Green River Site will continue in perpetuity. Under the provisions of the long-term stewardship plan, DOE will
monitor groundwater on a quarterly basis through at least 2001 to demonstrate the effectiveness of the cell in
isolating the encapsulated wastes from the groundwater. After 2001, the groundwater monitoring strategy will
be reevaluated. It is expected to continue beyond 2001, but at a reduced frequency.
Groundwater
No groundwater remediation occurred at the Green River Site because of the already high levels of naturally
occurring constituents in the groundwater. DOE is currently developing a groundwater compliance strategy for
regulatory approval. The monitoring frequency and duration will be determined by the compliance strategy.
Current planning assumes that DOE will monitor the groundwater once every five years until2018.
2.3
Regulatory Regime
In 1998, the Green River Site came under a general license issued by NRC for custody and long-term care of
residual radioactive disposal sites (contained in Title 10 of the Code ofFederal Regulations, Section 40.27). The
purpose of the general license is to ensure that such sites will be cared for in a manner that protects human health
and safety and the environment. The general license went into effect when NRC agreed that the site conformed
to cleanup standards and formally accepted the site's long-term surveillance plan.
Long-term stewardship activities at the Green River Site are governed by several requirements in the following
regulations: UMTRCA; the Atomic Energy Act of 1954, as amended; EPA Groundwater Protection Standards,
Utah
15
18. National Defense Authorization Act (NOAA) Long-Term Stewardship Report
including Subparts A, B, and C of Title 40 of the Code of Federal Regulations Part 192; and the National
Environmental Policy Act of 1969, as amended.
2.4
Assumptions and Uncertainties
Because long-term stewardship activities have been conducted since 1998, the long-term stewardship activities
at the site are well known and are not expected to change dramatically.
DOE expects that the disposal cap will not need to be replaced for a minimum of 200 years. Groundwater and
disposal cell monitoring will occur in perpetuity.
3.0
ESTIMATED LONG-TERM STEWARDSHIP COSTS
Long-term stewardship costs for the Green River Site are based on historical costs incurred while conducting
actual surveillance and maintenance activities. Costs for fiscal years (FY) 2001 through 2006 include prorated
costs associated with decommissioning unnecessary monitoring wells at similar sites. Contingency costs, such
as cap replacement, have not been incorporated in the cost estimates.
Site Long-Term Stewardship Costs (Constant Year 2000 Dollars)
Year(s)
Amount
Year(s)
Amount
Year(s)
Amount
FY 2000
$41,000
FY 2008
$29,000
FY 2036-2040
$142,400
FY 2001
$105,200
FY 2009
$29,000
FY 2041-2045
$142,200
FY2002
$111,400
FY 2010
$29,000
FY 2046-2050
$142,400
FY 2003
$99,400
FY 2011-2015
$129,700
FY 2051-2055
$142,200
FY 2004
$112,200
FY 2016-2020
$129,600
FY 2056-2060
$142,400
FY 2005
$73,900
FY 2021-2025
$132,800
FY 2061-2065
$142,200
FY 2006
$75,100
FY 2026-2030
$141,000
FY 2066-2070
$142,400
FY 2007
$29,200
FY 2031-2035
$142,200
4.0
FUTURE USES
The future use of the site will be restricted to long-term monitoring and maintenance of the disposal cell in
perpetuity.
For more information about the Green River Site, please contact:
Art K1einrath, Long-Term Surveillance and Maintenance Program Manager
U.S. Department of Energy, Grand Junction Office
2597 B3/4 Road, Grand Junction, CO 81503
Phone: 970-248-6037
or visit the Internet website at http://www.doegjpo.com
Utah
16
19. Mexican Hat Site
MEXICAN HAT SITE
1.0
SITE SUMMARY
1.1
Site Description and Mission
The Mexican Hat Site is the location of a former
uranium processing mill that operated from 1957 until
1965, and a sulfuric acid plant that operated from 1957
to 1970. The site also contains a disposal cell for the
uranium mill tailings and other process-related wastes
from the former mill at the site and from the Monument
Valley Site in Arizona). The Mexican Hat Site is
located on Navajo Nation land in San Juan County,
Utah, east of U.S. Highway 163. The 48-hectare (119acre) site lies between the towns of Halchita and
Mexican Hat, approximately 13 kilometers (18 miles)
southwest of Bluff, Utah, and 16 kilometers (10 miles)
north of the Arizona border.
LONG-TERM STEWARDSHIP HIGHLIGHTS
Major Long-Term Stewardship Activities groundwater monitoring; disposal cell monitoring
Total Site Area- 48 hectares (119 acres)
Estimated Volume of Residual Contaminants- disposal
cell2.66 million cubic meters (3.48 million cubic
yards); groundwater 416,400 cubic meters (544,600
cubic yards)
Long-Term Stewardship Start-End Years- disposal
cell1997-in perpetuity; groundwater 1999-2004
Average Annual Long-Term Stewardship Cost FY
2000-2006-$139,000
Landlord- U.S. Department of Energy, Grand
Junction Office; Navajo Nation
Contamination of the site resulted from previous
uranium milling and acid production operations. The
milling operations created process-related wastes and tailings. Before remedial action was completed, the site
consisted of two tailings piles totaling 29 hectares (72 acres). One covered 10 hectares (25 acres) and the other
covered 19 hectares (47 acres). The site also contained seven mill buildings and associated debris, a concrete
pad, contaminated soil, and wind-blown material. An estimated 2.2 million cubic meters (2.8 million cubic
yards) of contaminated material were contained in these two tailings piles and on an additional! 01 hectares (250
acres) of adjacent land. The contaminated material at this site and contaminated material from the Monument
Valley Site was stabilized in a 29-hectare (72-acre) disposal cell at the Mexican Hat Site. The U.S. Department
of Energy (DOE) closed the cell and completed surface remediation of the site in January 1995.
The current mission of the Mexican Hat Site is to perform long-term stewardship activities, including disposal
cell monitoring and the groundwater monitoring at the former mill site. The site is subject to Title I of the
Uranium Mill Tailings Radiation Control Act of 1978 (UMTRCA). As such, DOE is responsible for any
remediation and long-term stewardship activities. DOE began conducting long-term stewardship activities at the
site in 1997.
The historic mission of the Mexican Hat Site was to process uranium for sale to the U.S. Government. The mill
at the site was constructed and operated from 1957 to 1963 by Texas-Zinc Minerals Corporation. The Atlas
Corporation purchased the mill in 1963 and operated it until it was closed in 1965. When the Atlas lease expired
in 1970, control of the site reverted to the Navajo Nation. Much of the ore processed at the Mexican Hat Site
came from the White Canyon area of Utah and contained a considerable amount of copper sulfide and other
sulfide minerals. During its operation, the uranium mill processed 2.2 million tons of ore and produced 5,700
tons of uranium concentrate.
At the time of the remedial action, the concrete pad for the mill building and several associated buildings and
structures (e.g., scale house, office building, and tanks) were left in place. One or two of the smaller buildings
appeared to be used for storage, and the Navajo Tribal Utility Authority operated a small electrical substation
and sewage system (three lagoons) at the site. Access to the site was not restricted; however, the Navajo
Environmental Protection Administration has discouraged any activity at the site since 1978.
Utah
17
20. National Defense Authorization Act (NDAA) Long-Term Stcwardshi)l Report
~ Groundwater Contamination
0.25
0.5
Miles
To Salt Lake City, UT
(-275 miles)
El<tent of Contamination
Unknown
Monument Valley Site
(-12 miles)
~
Mexican Hat Site
The Mexican Hat Site is also the repository for residual radioactive material from the Monument Valley Site and
eleven vicinity properties. The Monument Valley Site's residual radioactive material was transported to the
Mexican Hat Site and was placed on top of the residual radioactive material in the disposal cell.
1.2
Site Cleanup and Accomplishments
The source of contamination at the Mexican Hat Site was the residual tailings that remained after the milling
process extracted the uranium. DOE completed surface remedial actions in 1995 under the provisions of the
Uranium Mill Tailings Radiation Control Act of 1978 (UMTRCA), in accordance with a remedial action plan
approved by the U.S. Nuclear Regulatory Agency (NRC). Remedial action involved consolidation of
approximately 2 million cubic meters (2.66 million cubic yards) of residual radioactive material in place at the
bottom of what is now the Mexican Hat disposal cell, followed by placement of approximately 703,200 cubic
meters (925,200 cubic yards) of residual radioactive material from the Monument Valley Site, for a total of
approximately 2.66 million cubic meters (3.48 million cubic yards) of residual radioactive material. Eleven
vicinity properties were also remediated concurrent with site remediation activities.
The final disposal cell covers approximately 29 hectares (72 acres). The disposal cell includes a radon cover and
rock surface layer to control erosion. In accordance with U.S. Environmental Protection Agency (EPA)
standards, the disposal cell was designed to remain effective for 200 to 1,000 years.
Groundwater contamination at the Mexican Hat Site was caused by the discharge of waste water and tailings
from uranium milling. Seepage of construction water resulting from consolidation during material compaction
may have contributed to the contamination. Approximately 416,400 cubic meters (544,600 cubic yards) of
Utah
18
21. Mexican Hat Site
groundwater are contaminated with nitrate, molybdenum, selenium, uranium, net gross alpha, arsenic, chromium,
and radium. Contamination is present in the residual process water within the upper part of the Halgaito
Formation. The former uranium mill was the largest source of contamination. The sulfuric acid plant probably
contributed little additional contamination when compared to the uranium mill. The approved groundwater
compliance strategy for the Mexican Hat Site is to perform no remediation and to continue monitoring the seeps
below the disposal cell. Site data indicate that groundwater in the uppermost aquifer (the lower unit of the
Halgaito Formation) beneath the site is not suitable for use because of the presence of hydrogen sulfide and
hydrocarbons. Contamination introduced from uranium processing is present in the perched, ephemeral
groundwater system at a higher stratigraphic level in the Halgaito Formation. Based upon data from intermittent
seeps downgradient of the disposal cell, it appears that flow rates may be decreasing, and may cease over time.
Monitoring of contaminant concentrations in the seeps will continue as long as water is present.
2.0
SITE-WIDE LONG-TERM STEWARDSHIP
2.1
Long-Term Stewardship Activities
The DOE Grand Junction Office is responsible for performing long-term stewardship activities at the Mexican
Hat Site, including maintaining access restrictions and enforcing institutional controls. DOE will also conduct
annual inspections of the site to evaluate the condition of surface features, perform site maintenance, as
necessary, and monitor the groundwater in the seeps. The seeps will be monitored below the disposal cell for
flow rate and contaminant levels to demonstrate the effectiveness of the cell in isolating the encapsulated wastes
from the local groundwater system until 2004. No drilling or other intrusive activities are allowed within the
property.
The site records for the Mexican Hat Site are kept in permanent storage at DOE's Grand Junction Office
Colorado. The types of records kept include the characterization data, remedial action design, completion report,
long-term monitoring plan, annual inspection reports, and monitoring data.
2.2
Specific Long-Term Stewardship Activities
Engineered Units
The disposal cell contains 4,400,000 dry tons of
STAKEHOLDER INVOLVEMENT
contaminated material, with a total activity of 1,800
curies of radium-226. The disposal cell measures 394
Frequent meeting with representatives of the Navajo
meters by 591 meters (1,200 feet by 1,800 feet) at the
Nation have been held during remediation and since.
Tribal members frequently participate in sampling
base and occupies an area of 29 hectares (72 acres) on
events and annual inspections. Copies of the annual
the 49-hectare (119-acre) site. It abuts a rock outcrop
inspection report for this site are distributed to the
on the south and rises 16 meters (50 feet) above the
local library and any stakeholders that request copies.
surrounding land on the other sides. A posted wire
The report is also published on the GJO website at
fence surrounds the cell. A low-permeability radon
www.doegjpo.com.
barrier, consisting of clayey soil, covers the
contaminated materials to prevent precipitation from
percolating into the underlying tailings and to reduce
radon emissions. The radon barrier is covered by granular bedding material and a layer of rock (riprap) on the
top, the side slopes, and the aprons. The cell design promotes rapid runoff of precipitation to minimize leachate.
Runoff water flows down the slide slopes into the surrounding rock apron. The site location and design were
selected to minimize the potential for erosion from onsite runoff or storm water flow. All surrounding remediated
areas were regraded and reseeded with native species. Existing gullies in the vicinity of the cell were turned into
trenches by excavating the gullies down to the underlying bedrock. Riprap-protected diversion ditches were
Utah
19
22. National Defense Authorization Act (NDAA) Long-Term StewardshiJl Report
installed to channel runoff water away from the cell. The rock cover on the top and side slopes of the disposal
cell also prevents erosion. The stock fence prevents unauthorized access to the property. The disposal cell is
designed to last for 200 to 1,000 years. However, DOE's responsibility for the safety and integrity of the
Mexican Hat Site will last indefinitely. DOE has a permanent agreement with the Navajo Nation for access to
the site.
Groundwater
Monitoring of springs and seeps will be conducted from 1999 to 2004.
2.3
Regulatory Regime
In 1997, the Mexican Hat Site came under a general license issued by NRC for custody and long-term care of
residual radioactive disposal sites (contained at Title 10 of the Code ofFederal Regulations, Section 40.27). The
purpose of the general license is to ensure that such sites will be cared for in a manner that protects human health
and safety and the environment. The general license went into effect when NRC concurred that the site
conformed to cleanup standards and formally accepted the site-specific long-term surveillance plan.
Long-term stewardship activities of the Mexican Hat Site are governed by several requirements in the following
regulations: UMTRCA; the Atomic Energy Act of 1954, as amended; EPA Groundwater Protection Standards,
including Subparts A, B, and C of Title 40 of the Code ofFederal Regulations Part 192; a cooperative agreement
between DOE and the State of Utah; a cooperative agreement between DOE and the Navajo Nation; and the
National Environmental Policy Act of 1969, as amended.
2.4
Assumptions
and Uncertainties
DOE assumes that groundwater compliance monitoring will be required in perpetuity. DOE assumes that the
site is institutionally and physically stable. Because DOE is already conducting long-term stewardship activities
at the site, activities are well known and are not expected to change dramatically. Caps are expected to last for
a minimum of 200 years.
3.0
ESTIMATED LONG-TERM STEWARDSHIP COSTS
Site Long-Term Stewardship Costs (Constant Year 2000 Dollars)
Year(s)
Amount
Year(s)
Amount
Year(s)
Amount
FY 2000
$118,300
FY 2008
$47,700
FY 2036-2040
$222,800
FY 2001
$155,700
FY2009
$47,300
FY 2041-2045
$229,400
FY 2002
$164,500
FY 2010
$47,400
FY 2046-2050
$222,900
FY 2003
$147,400
FY 2011-2015
$209,100
FY 2051-2055
$229,400
FY 2004
$165,500
FY 2016-2020
$214,100
FY 2056-2060
$222,800
FY 2005
$111,100
FY 2021-2025
$220,700
FY 2061-2065
$229,400
FY 2006
$112,900
FY 2026-2030
$220,400
FY 2066-2070
$222,900
FY 2007
$47,700
FY 2031-2035
$222,800
23. Mexican Hat Site
The following table shows the estimated long-term stewardship costs for the Mexican Hat Site. Fiscal Years
(FY) 2000 through 2006 include costs for well decommissioning. Cost estimates reflect the current site
agreements and monitoring frequencies. Because DOE is already conducting long-term stewardship activities
at the site, cost estimates are based on the actual cost of those activities.
4.0
FUTURE USES
The Mexican Hat Site and the adjacent property is owned by the Navajo Nation, which controls land use within
site boundaries. However, the long-term surveillance of the disposal cell is the responsibility of DOE through
a Custodial Access Agreement between the Navajo Nation and the Federal Government. Provisions of the
Custodial Access Agreement grant DOE permanent access to the disposal cell and include restrictions, as
necessary, to protect public health and safety, and the environment. Under the provisions of this agreement,
public access to the disposal cell is restricted indefinitely.
For more information about the Mexican Hat Site, please contact:
Art Kleinrath, Long-Term Surveillance and Maintenance Program Manager
U.S. Department of Energy, Grand Junction Office
2597 B3/4 Road, Grand Junction, CO 81503
Phone: 970-248-6037
or visit the Internet website at http://www.doegjpo.com
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21
25. Monticello Mill Site and Vicinity Properties
MONTICELLO MILL SITE AND VICINITY PROPERTIES
1.0
SITE SUMMARY
1.1
Site Description and Mission
The Monticello Mill Site is the location of the former
Monticello uranium and vanadium ore-processing mill,
which operated from 1942 to 1960. The Monticello
Mill Site and Vicinity Properties occupy approximately
2,300-hectares (5, 700-acres) ofland near and within the
City of Monticello in San Juan County, Utah. The
Monticello Mill Site is located on a 44.5-hectare (110acre) tract of land on the southeast edge of Monticello,
along Montezuma Creek. Processing of the ores
generated mill tailings (a sandlike radioactive waste
product), which were stored in four tailings piles
occupying almost 50 percent of the mill site.
Contamination at the mill site consisted of uranium and
vanadium mill tailings; radium, thorium, and uranium
in soils; groundwater; and construction debris. Due to
wind and water erosion, the mill tailings spread to 34
peripheral properties near and downstream from the
mill site. In addition, the mill tailings were used for
construction purposes throughout the City of
Monticello and, therefore, contaminated 424 vicinity
properties.
LONG-TERM STEWARDSHIP HIGHLIGHTS
Major Long-Term Stewardship Activities - disposal
cell monitoring; institutional control enforcement;
supplemental standards area monitoring; groundwater
monitoring
Total Site Area- 2,300 hectares (5,700 acres)
*Estimated Volume of Residual Contaminants -soil
unknown; groundwater 379,000 cubic meters (495,000
cubic yards); engineered units 2 million cubic meters
(2.6 million cubic yards)
Portions in Long-Term Stewardship as of 2006 - 3
Average Annual Long-Term Stewardship Cost FY
2000-2006 - $286,000
Landlord- U.S. Department of Energy, Grand
Junction Office
*The estimated volume indicates only the known amounts of
residual contaminants. For certain portions discussed for this site,
exact volume is not known at this point. For specific discussions,
please see Section 3.0.
The Monticello Mill Site and Vicinity Properties were placed on the U.S. Environmental Protection Agency's
(EPA) National Priorities List (listed as the Monticello Mill Tailings Site and Monticello Vicinity Properties
Site). The National Priorities List is EPA's list of top-priority sites for cleanup under the Comprehensive
Environmental Response, Compensation, and Liability Act (CERCLA).
The U.S. Department of Energy (DOE) began remediation activities at the mill site in 1983 and anticipates
completion of these activities by 2000. DOE completed remediation activities at the 34 peripheral properties and
the 424 vicinity properties in 1998. However, some of the properties were remediated to supplemental EPA
standards and will not be released for unrestricted use. Currently, two million cubic meters (2.6 million cubic
yards) of mill tailings and other contaminated material from the mill site, peripheral properties, and vicinity
properties have been relocated to a 148-hectare (365-acre) DOE-owned site and stabilized in a 38-hectare (95acre) disposal cell.
The current mission of the Monticello Mill Site and Vicinity Properties is to perform long-term stewardship
activities, including monitoring and maintaining the disposal cell, monitoring supplemental standards areas,
enforcing institutional controls, and, possibly, remediating the groundwater. DOE's Grand Junction Office
conducts and funds these activities. The historic mission of the Monticello mill site was to provide uranium and
vanadium ores for the Federal Government. The original Monticello mill was built in 1941 to provide an
additional supply of vanadium during World War II. The plant was later modified to mill uranium ore.
Vanadium and uranium were milled intermittently until January 1, 1960, when the mill was permanently closed.
Part of the land was transferred for a period of time to the Bureau of Land Management, but, otherwise, the site
remained under the control of the U.S. Atomic Energy Commission, a predecessor agency to DOE.
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26. National Defense Authorization Act (NDAA) Long-Term Stewardship Report
To Salt Lake City, UT
(·250 miles)
- - Supplemental Standards
Area Boundary
E;S§3
0
Groundwater Contamination
2
Miles
Monticello Mill Site and Vicinity Properties
1.2
Site Cleanup and Accomplishments
When the mill was closed, approximately 1.7 million cubic meters (2.3 million cubic yards) of low-level
radioactive mill tailings, contaminated soil, and other miscellaneous debris remained onsite. Remediation
consisted of excavating mill tailings and other contaminated materials, and hauling them south of the mill site
to a permanent disposal cell on DOE-owned property. The mill site was mostly backfilled, using clean material
from the site, and revegetated. Mill site soils have been remediated to regulatory cleanup levels, and part of the
mill site and peripheral properties containing surface contamination have been proposed for deletion from the
National Priorities List. However, the remediation will not be complete until the groundwater meets the
negotiated cleanup levels. Surface areas were remediated to standards established in Title 40 of the Code of
Federal Regulations, Part 192, and DOE Order 5400.5.
In addition to the mill site, 34 peripheral properties and 424 vicinity properties were contaminated with residual
uranium mill tailings, which typically contain toxic heavy metals, and radioactive thorium and radium.
Remediation activities consisted of excavating the mill tailings and other contaminated materials from the
peripheral and vicinity properties and relocating the materials to the permanent disposal cell on DOE-owned land.
Surface areas were remediated to meet the radium-226 standards established in Title 40 of the Code ofFederal
Regulations, Part 192, and DOE Order 5400.5. Some areas within the peripheral and vicinity properties were
remediated to supplemental standards, as defined in Title 40 of the Code of Federal Regulations Part 192.22,
because remediation would be unjustifiably expensive or would result in environmental damage, and the
contamination poses no present or future risk. Long-term stewardship activities will be performed in these areas
to ensure continued protection of human health and the environment.
Utah
24
27. Monticello Mill Site and Vicinity Properties
Surface water and groundwater were also contaminated by the Monticello mill site and are being addressed as
a separate issue. A remedial strategy for this area has not been determined and is not expected until2005. The
interim remedial strategy consists of institutional controls, millsite dewatering and treatment, monitoring, and
installation and evaluation of a permeable reactive treatment wall. Activities associated with this interim action
began in May 1999 and will continue for four to five years after mill site restoration is completed. At the end
of that time, sufficient information is expected to have been collected on the ground and surface water conditions
at the site to select a final remedy.
2.0
SITE-WIDE LONG-TERM STEWARDSHIP
2.1
Site-Wide Long-Term Stewardship Activities
DOE is required to conduct long-term surveillance and maintenance activities at the disposal site and in the
supplemental standards areas. In addition, long-term stewardship activities may also be necessary for
groundwater areas. DOE will assume these responsibilities at the site following remediation. DOE will conduct
annual inspections of the site to evaluate the condition of surface features; perform site maintenance, as
necessary; and ensure that institutional controls remain effective. In addition to long-term surveillance and
maintenance of the permanent repository (i.e., the disposal cell and adjacent area), DOE will be responsible for
post-remediation CERCLA inspection of the repository, supplemental standards areas, and any National Priorities
List deletion activities conducted after 2001 (e.g., groundwater remediation). The site-specific long-term
surveillance plan, which is not yet complete (except for the supplemental standards areas), will fully define longterm stewardship duration, activities, and final land use restrictions.
DOE, EPA, and the State of Utah are determining the
final land-use restrictions that will be incorporated into
STAKEHOLDER INVOLVEMENT
the Monticello long-term surveillance plan for the
disposal site, supplemental standards areas, and affected
Community interaction has been and will continue to
groundwater areas. With the possible exception of
be extensive. The Monticello Site Specific Advisory
Board was established to give Monticello residents a
groundwater remediation, all surface remedial activities
forum for participating in DOE decisions about
at the mill site, vicinity properties, and peripheral
Monticello environmental restoration activities. A
For the mill site and
properties are complete.
full-time DOE employee, residing in Monticello, will
downgradient peripheral properties, groundwater use
meet with City of Monticello personnel frequently and
restrictions will be necessary until the water quality
will be on call24 hours a day.
Deed restnctwns,
reaches acceptable levels.
Memoranda of Understanding, restrictive easements,
and other legal instruments are used to prevent exposure to contaminated groundwater or to soil areas to which
supplemental EPA standards have been applied.
DOE maintains and updates the specific records and reports required to document long-term stewardship
activities at the Monticello disposal site, supplemental standards areas, and affected groundwater areas. DOE
submits an annual report that documents the results of the long-term stewardship activities. Site records are kept
in permanent storage at the DOE Grand Junction Office in Colorado, and real property records are retained at
the DOE Albuquerque Operations Office in New Mexico. The types of records maintained include site
characterization data, remedial action design information, the site completion report, long-term monitoring plans,
annual inspection reports, and current and historic monitoring data. Additionally, DOE will prepare CERCLA
five-year reviews for submittal to EPA and the Utah Department of Environmental Quality.
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25
28. National Defense Authorization Act (NDAA) Long-Term Stewardship Report
2.2
Assumptions and Uncertainties
Surface remediation of the former mill site was completed in 2000, with the exception of re-establishing statutory
wetlands. Surface areas that meet the radium-226 standards will be released for unrestricted use to the City of
Monticello. Remediation of the groundwater has not been completed. DOE assumes that groundwater
compliance will be achieved through natural flushing and that active remediation will not be required. DOE
anticipates conducting long-term groundwater monitoring activities indefinitely, or until cleanup levels are
achieved. Affected groundwater areas are associated with a restrictive easement applied to the supplemental
standards area in the Montezuma Creek corridor. In addition, DOE assumes that groundwater monitoring for the
disposal cell will continue indefinitely or until the engineered unit demonstrates infiltration control. The disposal
cell cover is not expected to be replaced for a minimum of 200 years.
2.3
Estimated Site-Wide Long-Term Stewardship Costs
Long-term stewardship costs for the Monticello disposal site, supplemental standards areas, and anticipated costs
for Monticello surface and groundwater, identified in the table below, are based on historic costs incurred while
conducting actual surveillance and maintenance activities at similar sites. Contingency costs, such as disposal
cap replacement, have not been incorporated in the cost estimate. Cost estimates reflect the current site
agreements and monitoring frequencies. For purposes of this report, long-term stewardship costs are shown until
fiscal year (FY) 2070; however, it is anticipated that long-term stewardship activities will be required in
perpetuity.
Site Long-Term Stewardship Costs (Constant Year 2000 Dollars)
Year(s)
Year(s)
Amount
Amount
Year(s)
Amount
FY 2000
$0
FY 2008
$510,000
FY 2036-2040
$2,600,000
FY 2001
$0
FY 2009
$510,000
FY 2041-2045
$2,600,000
FY 2002
$230,000
FY 2010
$510,000
FY 2046-2050
$2,600,000
FY 2003
$230,000
FY 2011-2015
$2,600,000
FY 2051-2055
$2,600,000
FY 2004
$230,000
FY 2016-2020
$2,600,000
FY 2056-2060
$2,600,000
FY 2005
$230,000
FY 2021-2025
$2,600,000
FY 2061-2065
$2,600,000
FY 2006
$510,000
FY 2026-2030
$2,600,000
FY 2066-2070
$2,600,000
FY 2007
$510,000
FY 2031-2035
$2,600,000
3.0
PORTION OVERVIEW
The Monticello Mill Site and Vicinity Properties consists of three portions that will require long-term
stewardship activities as of 2006. For purposes of this report, a "portion" is defined as a geographically
contiguous and distinct area (which may involve residually contaminated facilities, engineered units, soil,
groundwater, and/or surface water/sediment) for which cleanup, disposal, or stabilization will have been
completed and long-term stewardship activities will be required as of 2006.
The site consists of three portions: (1) the Disposal Site, (2) the Supplemental Standards Areas, and (3) the
Groundwater Areas. Each portion is listed in the table below, with accompanying discussion of cleanup and
long-term stewardship activities in Sections 3.1 through 3.3.
Utah
26
29. Monticello Mill Site and Vicinity Properties
Long-Term Stewardship Information
Portion
Long-Term Stewardship
Start Year
Long-Term Stewardship
End Year
Disposal Site
2001
In perpetuity
Supplemental Standards Areas
2001
In perpetuity
Groundwater Areas
2006
In perpetuity
3.1
Disposal Site Portion
DOE constructed a 38-hectare (95-acre) disposal cell
(i.e, repository) on 148-hectares (365-acres) of DOEowned land east of U.S. Highway 191 and
approximately two kilometers (one mile) south of the
former mill site. Two million cubic meters (2.6 million
cubic yards) of mill tailings and other contaminated
material from the mill site and peripheral and vicinity
An
properties are isolated in the disposal cell.
evaporation pond, located just east of the repository, is
retained to collect drainage from the tailings for an
expected five to 20 years. Also at the repository site is
a temporary storage area for tailings removed after cell
closure from public utilities, rights-of-way, and other
supplemental standards areas. DOE maintains the
storage facility to manage contaminated material until it
another approved facility for permanent disposal.
DISPOSAL SITE PORTION HIGHLIGHTS
Major Long-Term Stewardship Activities- disposal
cell and evaporation pond monitoring
Portion Size- 147.7 hectares (365 acres)
Estimated Volume of Residual Contaminants- disposal
cell2 million cubic meters (2.6 million cubic yards)
Long-Term Stewardship Start-End Years- 2001-in
perpetuity
Average Annual Long-Term Stewardship Costs FY
2000-2006- $230,000 (includes Supplemental Areas
Portion)
can be transported to the Cheney Disposal Cell or
The disposal cell incorporates leak detection and leachate collection systems and an associated evaporation pond.
A wire fence with a locked gate surrounds the Monticello disposal site to prevent unauthorized access. Warning
signs are posted on the site perimeter. In addition, DOE staffs a 24-hour phone line for reporting any site
concerns. No drilling or other intrusive activities are allowed on the property unless authorized by DOE.
The disposal cell is compliant with the Resource Conservation and Recovery Act (RCRA). However, DOE does
not have a RCRA permit for the disposal cell. Several requirements in the following regulations govern longterm stewardship activities of the Monticello disposal site: CERCLA Title 40 of the Code of Federal
Regulations, Part 300; the Atomic Energy Act of 1954, as amended; EPA groundwater protection standards,
including Subparts Band C of Title 40 ofthe Code of Federal Regulations, Part 192; a cooperative agreement
between DOE and the State of Utah; and the National Environmental Policy Act of 1969, as amended.
3.1.1
Engineered Units
The disposal cell cover is a multilayered earthen (clean topsoil, vegetation, and rock) and geomembrane (plastic)
design, which meets EPA standards for longevity, radon control, and groundwater protection. In accordance with
EPA standards, the cover is designed to remain effective for 200 to 1,000 years. Placement of contaminated
material in the repository was completed in 1999. Following emplacement of the cover components and
revegetation, the repository cell will be the responsibility of DOE's Grand Junction Office for long-term
surveillance and maintenance in perpetuity.
Utah
27
30. National Defense Authorization Act (NDAA) Long-Term Stewm·dship Report
The evaporation pond collects leachate (water with leached contaminants) from the mill tailings. Contaminated
solids will remain after the water evaporates, and the remaining sludge will likely go to the Cheney Disposal Cell.
A wildlife fence was installed around the pond to protect the liner from damage by deer and other wildlife. No
discharge from the pond to the environment is expected to occur, as this is a triple-lined pond with leak-detection
capability.
Engineered Units Long-Term Stewardship Activities
The disposal cell will require long-term surveillance and maintenance to ensure continued protection of human
health and the environment. Long-term stewardship activities for the disposal cell will include annual surface
inspections, maintenance of institutional controls, and minor maintenance of as-built features, as needed. Annual
inspections will be conducted to detect progressive change caused by slow-acting natural processes and to
identify potential problems before extensive maintenance, repairs, or corrective actions are needed. DOE does
not plan to conduct significant maintenance of the disposal cell. However, DOE will perform minor maintenance
(e.g., fix fence) or repair, as needed, or determined from site inspections. It is estimated that it will take two or
three years for the vegetation to become established. To protect the vegetation, a wildlife fence around the area
will restrict grazing by deer and cattle for a minimum of five years. Groundwater monitoring is not required at
the disposal site because the cell has an automated state-of-the-art leak detection system and a leachate collection
system installed in the bottom double liner. However, DOE will address any potential contamination of
groundwater beneath the disposal cell if threshold leakage rates are exceeded.
Long-term stewardship activities for the evaporation pond will include monitoring, fence repair, and sign
replacements, as needed. Initially, the evaporation pond will require frequent visits, perhaps monthly. After a
few years, the monitoring frequency will decrease substantially. The evaporation pond will be maintained until
it is no longer needed, at which time it will be removed. In 2009, DOE anticipates decontaminating and
decommissioning the pond.
3.1.2
Estimated Long-Term Stewardship Costs for Disposal Site
The long-term stewardship costs, identified in the table below, include both the Disposal Site Portion and the
Supplemental Standards Areas Portion. Approximately 50 percent of the costs are for monitoring activities at
the disposal site, and approximately 50 percent are for monitoring and maintenance of the supplemental standards
areas. The long-term stewardship costs are based on historic costs incurred while conducting actual surveillance
and maintenance activities at similar sites. Contingency costs, such as disposal cap replacement, have not been
incorporated in the cost estimate. For purposes of this report, long-term stewardship costs are shown until FY
2070; however, it is anticipated that long-term stewardship activities will be required in perpetuity.
Long-Term Stewardship Costs (Constant Year 2000 Dollars)
F¥2000F¥2010
$2,070,000
3.2
F¥2011F¥2020
$2,400,000
FY 2021FY2030
$2,400,000
F¥2031F¥2040
$2,400,000
FY2041FY2050
$2,400,000
FY2051F¥2060
$2,400,000
FY2061FY2070
$2,400,000
Estimated
Total
$16,470,000
Supplemental Standards Areas Portion
The Supplemental Standards Areas Portion consists of peripheral and vicinity properties which were cleaned to
EPA supplemental standards, as defined in Title 40 of the Code ofFederal Regulations Part 192.22. Peripheral
and vicinity properties are considered one portion because the properties share similar uranium and vanadium
mill tailings contamination, remediation standards, and long-term stewardship activities.
Utah
28
31. Monticello Mill Site and Vicinity Properties
Thirty-four peripheral properties and 424 vicmity
SUPPLEMENTAL STANDARDS AREAS
properties were remediated. However, some areas were
PORTION HIGHLIGHTS
remediated to EPA supplemental standards, as defined
in Title 40 of the Code of Federal Regulations Part
Major Long-Term Stewardship Activities - institutional
192.22, rather than to EPA numerical standards.
controls
Portion Size - 911 hectares (2,250 acres)
Supplemental standards may be applied when the
Estimated Volume of Residual Contaminants- soil
activities required to cleanup the property would be
unknown
cost-prohibitive relative to the health benefits or would
Long-Term Stewardship Start-End Years- 2001-in
cause excessive environmental damage, and the
perpetuity
material to be left poses no present or future health
Average Annual Long-Term Stewardship Costs FY
risks. Supplemental standards were applied to four
2000-2006-$230,000 (includes Disposal Site Portion)
peripheral properties adjacent to Montezuma Creek and
three DOE-owned properties south of Montezuma
Creek. Of the vicinity properties, supplemental standards, as defined in Title 40 of the Code of Federal
Regulations Part 192.22, were applied to one private property, portions ofthe city street and utility easements,
and state highway rights-of-way within the City of Monticello. Appropriate institutional controls (i.e.,
restrictions on land access and usage) and long-term monitoring have been implemented for these properties.
Permanent surveillance features on the government-owned Supplemental Standards Areas include the use of
fences and signs. On privately-owned Supplemental Standards Areas, there are no permanent surveillance
features.
In September 1999, the site-specific long-term surveillance plan for the Supplemental Standards Areas was
approved. Long-term stewardship activities of the supplemental standards areas are governed by several
requirements in the following regulations: CERCLA Title 40 of the Code of Federal Regulations, Part 300; the
Atomic Energy Act of 1954, as amended; EPA groundwater protection standards, including Subparts B and C of
Title 40 of the Code ofFederal Regulations, Part 192; a cooperative agreement between DOE and the State of
Utah; and the National Environmental Policy Act of 1969, as amended.
3.2.1
Soil
Thirty-four peripheral properties with wind-blown and waterborne contamination comprise approximately 240
hectares (600 acres) of land adjacent to the mill site. The remedy involved excavating approximately 230,000
cubic meters (300, 000 cubic yards) of soil containing tailings and byproduct materials from mill processing areas
and moving the soil to the repository. After the tailings and contaminated soils were remediated to EPA
standards, the disturbed areas were graded and revegetated. Remedial activities were completed in 1998, and
the properties were released for unrestricted use, except for those areas where the supplemental standards, as
defined in Title 40 of the Code ofFederal Regulations Part 192.22, applied. The supplemental standards on these
properties will reduce damage to riparian habitat and wetlands and to stands of pinon juniper and scrub oak on
the sloping hillsides south of the millsite.
Throughout the operating period, mill tailings from the Monticello mill were used in the City of Monticello for
construction purposes. Mill tailings were used in foundations, masonry, sidewalks, patios, and fill material.
Vicinity properties were also contaminated by wind-blown tailings from the mill site. The main contaminants
of concern are radium-226 and the associated radon gas. Remedial action consisted of removing radioactively
contaminated material from the 424 residential and commercial properties identified and replacing it with clean
material. Removed materials were temporarily relocated to the former mill site and were then transported along
with mill site tailings to the permanent disposal cell south of the mill site. Remediation of the last property was
completed in December 1998. In September 1999, EPA approved the cleanup and, as of February 28,2000, the
Monticello Vicinity Properties site has been deleted from the National Priorities List. The properties have been
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29
32. National Defense Authorization Act (NDAA) Long-Term Stewardship Report
released for unrestricted use, except for those where supplemental standards were applied, as defined in Title 40
of the Code ofFederal Regulations Part 192.22.
Soil Long-Term Stewardship Activities
DOE is responsible for long-term surveillance and maintenance of areas where the supplemental limits have been
applied. DOE will perform CERCLA five-year reviews for the Supplemental Standards Areas because these
areas cannot be released for unrestricted use. Where mill tailings have been left in place, a DOE authorized
technician will scan any excavations prior to disposal of soils. No residential development will be allowed in
these areas. The total affected area is approximately 900 hectares (2,250 acres). Operating plans and procedures
for these properties have been approved by EPA and the Utah Department of Environmental Quality. The
properties include the following:
The city streets and utilities area, where contamination might exist, consists of the rights-of-way owned
by the City of Monticello. The total affected area is 659 hectares (1,628 acres). Long-term stewardship
activities will consist of periodic inspections and radiological support for excavation activities. DOE
will dispose of any contaminated material found during excavation. The long-term stewardship activities
are defined in a Memorandum of Understanding between DOE and the City of Monticello.
The Highways 191 and 666 rights-of-way area, where contamination might exist, consists of rights-ofway owned by the Utah Department of Transportation. The total affected area is 24 hectares (58 acres).
Long-term stewardship activities will consist of periodic inspections, reporting, and radiological support
for excavation activities. The Utah Department of Transportation may return contaminated material to
an excavation site; otherwise, DOE will dispose of the contaminated material. The long-term
stewardship activities are defined in a Memorandum of Understanding between DOE and the Utah
Department of Transportation Quality.
The Pinyon/Juniper Property is partly government-owned and partly privately-owned. The government
area consists of 17 hectares (42 acres), where radium-226 concentrations in soil exceed EPA standards.
Supplemental standards were approved because remediation would cause environmental harm, and the
contamination does not pose a current or future risk to public health or the environment. These areas
were located on five DOE-owned parcels totaling 110 hectares (271 acres). The parcels have been
transferred to the City of Monticello. They are addressed by deed restrictions and a Memorandum of
Understanding that restricts future land use to public recreation, prohibits extended occupation
(camping), prohibits installation of wells in regions with contaminated groundwater, and prohibits
removal of material from areas where minor radium-226 contamination was left in place. Long-term
stewardship activities will consist of periodic inspections and reporting. In addition, signs and fencing
will be maintained around the properties. The privately-owned Pinyon/Juniper Property area consists
of a one-hectare (two-acre) parcel, where contaminated soil was left in place to avoid damage to a mature
forest. Long-term stewardship activities will consist of periodic inspections and reporting, radiological
support for excavation activities, and periodic assessment of institutional controls. DOE will dispose
of the contaminated material removed during excavation. The long-term stewardship activities are
defined in a deed restriction between DOE and the owner.
3.2.2
Estimated Long-Term Stewardship Costs for Supplemental Standards Areas
Refer to Section 3.1.2 for the long-term stewardship costs for the Supplemental Standards Areas Portion.
Utah
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33. Monticello Mill Site and Vicinity Properties
3.3
Groundwater Areas Portion
The Groundwater Areas Portion consists of ground and
surface water contaminated by the former millsite. The
ground and surface water are considered one portion
because similar uranium and vanadium mill tailings
contamination is present, and similar remediation
strategies will be employed.
GROUNDWATER AREAS
PORTION HIGHLIGHTS
Major Long-Term Stewardship Activities- institutional
controls
Portion Size- 133.5 hectares (330 acres)
Estimated Volume of Residual Contaminants -
groundwater 379,000 cubic meters (495,000 cubic
The mill site and adjoining areas within the Montezuma
yards)
Creek valley are underlain by two groundwater-bearing
Long-Term Stewardship Start-End Years- 2006-in
units (aquifers). The upper unit is called the alluvial
perpetuity
aquifer; the surface of the alluvial aquifer (water table)
Average Annual Long-Term Stewardship Costs FY
is generally encountered between one and three meters
2006 - $280,000
(two and ten feet) below the ground surface. Mill
tailings have contaminated this alluvial aquifer, which
discharges to Montezuma Creek in several areas east of the mill site. The sandstone aquifer beneath the alluvial
aquifer is not contaminated. This lower aquifer is separated from the upper alluvial aquifer at and directly east
of the mill site by layers of sandstone and shale that restrict the downward movement of water.
Several requirements in the following regulations govern the long-term stewardship activities of the Groundwater
Areas Portion: CERCLA Title 40 of the Code ofFederal Regulations, Part 300; the Atomic Energy Act of 1954,
as amended; EPA groundwater protection standards, including Subparts B and C of Title 40 of the Code of
Federal Regulations, Part 192; a cooperative agreement between DOE and the State of Utah; and the National
Environmental Policy Act of 1969, as amended.
3.3.1
Groundwater
Former milling operations at the Monticello site caused groundwater, surface water, and stream-deposited
contaminants in Montezuma Creek Canyon. Specifically, the identified contaminants of concern in the ground
and surface water include arsenic, manganese, molybdenum, selenium, uranium, vanadium, radium-226, lead210, and gross alpha. Approximately 379,000 cubic meters (495,000 cubic yards) of groundwater are
contaminated with materials from processing ores to recover vanadium and uranium. The groundwater plume
is approximately 130 hectares (330 acres) within the alluvial aquifer, which extends beyond the mill site. DOE
will remediate the contaminated sediments and surface water in Montezuma Creek Canyon to acceptable riskbased standards negotiated with the EPA and the State of Utah.
DOE is also responsible for remediation of contaminated groundwater downgradient of and beneath the site.
However, ground and surface water conditions at the mill site changed because of tailings excavation activities.
These changing conditions made it impractical to proceed with selecting a final cleanup remedy for groundwater
and surface water. Instead, an interim remedial strategy was selected that consisted of institutional controls, mill
site dewatering and treatment, monitoring, and installation and evaluation of a permeable reactive treatment wall.
Activities associated with this interim action began in May 1999. Groundwater is monitored through the use of
wells, and surface water is monitored by taking "grab" samples in Montezuma Creek. Monitoring will be
conducted until the negotiated remediation levels are met. These interim activities will continue for four to five
years after mill site restoration is completed. At the end of that time, sufficient information is expected to have
been collected on the ground and surface water conditions at the site to select a final remedy. The final remedy
is currently planned for the year 2005.
Utah
31
34. National Defense Authorization Act (NDAA) Long-Term Stewm·dship Report
Groundwater Long-Term Stewardship Activities
DOE is responsible for ensuring that institutional controls effectively restrict the use of contaminated
groundwater while groundwater remediation is in progress. Granting access to water rights will be prohibited,
and a moratorium will be placed on drilling new water wells in the contaminated alluvial aquifer. These controls
will be administered through the Utah State Engineer's Office. On May 1999, the State of Utah issued a
Groundwater Management Policy which states that new applications to appropriate water for domestic use from
the contaminated alluvial groundwater will not be approved. The policy does not affect existing water rights,
nor does it affect applications to drill wells into the deeper, uncontaminated lower aquifer. In addition,
groundwater use restrictions have been added to the deeds for some affected properties. Long-term stewardship
activities will also consist of monitoring and periodic inspections and reporting.
3.3.2
Estimated Long-Term Stewardship Costs for Groundwater Areas
The long-term stewardship costs, identified in the table below, are based on anticipated groundwater monitoring
as conducted at similar sites. The cost estimates reflect the current site agreements and monitoring frequencies.
Contingency costs, such as groundwater monitoring well replacements, have not been incorporated in the cost
estimates. For purposes of this report, long-term stewardship costs are shown until FY 2070; however, it is
anticipated that long-term stewardship activities will be required in perpetuity.
Long-Term Stewardship Costs (Constant Year 2000 Dollars)
FY2000FY2010
$1,400,000
4.0
FY2011 •
FY2020
FY2021FY2030
$2,800,000
$2,800,000
FY2031FY2040
$2,800,000
FY2041FY2050
$2,800,000
FY2051FY2060
$2,800,000
FY2061·
FY2070
$2,800,000
Estimated
Total
$18,200,000
FUTURE USES
DOE, EPA, and the State of Utah have determined final land use restrictions for areas where supplemental
standards, as defined in Title 40 of the Code of Federal Regulations Part 192.22, have been applied. No
residential development will be allowed in the supplemental standards areas. The Monticello mill site, plus
portions of the peripheral properties, will be deeded to the City of Monticello for recreational use. DOE will
retain ownership of the Monticello disposal site in perpetuity. Anticipated future use of the ground and surface
water will be agricultural.
For more information about the Monticello Mill Site and Vicinity Properties, please contact:
Art Kleinrath, Long-Term Surveillance and Maintenance Program Manager
U.S. Department of Energy, Grand Junction Office
2597 B3/4 Road, Grand Junction, CO 81503
Phone: 970-248-6037
or visit the Internet website at http://www.doegjpo.com
Utah
32
35. (Plateau) Shootaring Canyon Site
(PLATEAU) SHOOTARING CANYON SITE 1
1.0
SITE SUMMARY
1.1
Site Description and Mission
The (Plateau) Shootaring Canyon site (also known as
LONG-TERM STEWARDSHIP HIGHLIGHTS
Shootaring Canyon) is the location of a former uranium
milling site that operated for two months in 1982. The
Total Site Area· unknown
site is located in Shootaring Canyon on the Colorado
Current Landlord- U.S. Energy Corporation through
Plateau near the town of Ticaboo, Utah, about 18
its subsidiary, Plateau Resources Limited
kilometers (11 miles) north of Lake Powell. The U.S.
Expected Future Landlord- U.S. Department of
Energy Corporation privately owns the site through its
Energy, Grand Junction Office
subsidiary Plateau Resources Limited. Currently, the
Reason Not Subject to NDAA Requirements - This site
(Plateau) Shootaring Canyon Site mill is on standby
is an UMTRCA Title II site that will not be transferred
status (not in operation). As a result of past operations,
to the Department of Energy until after 20 15
the site contains a small amount of uranium mill
tailings, a sand-like waste product containing
radioactive materials and other contaminants, and radium, thorium, and uranium in soils.
The (Plateau) Shootaring Canyon Site is subject to Title II of the Uranium Mill Tailings Radiation Control Act
of 1978 (UMTRCA). UMTRCA Title II sites are privately owned and operated sites that were licensed when
UMTRCA was passed, or thereafter. The majority of the mining and milling conducted at these sites was for
private sale, but a portion was sold to the U.S. Government. Under UMTRCA Title II, DOE is responsible for
long-term stewardship activities, but the site owner, U.S. Energy Corporation, is responsible for remediation.
The (Plateau) Shootaring Canyon Site is awaiting approval of its remediation strategy. U.S. Energy Corporation,
through its subsidiary Plateau Resources Limited, has requested that the U.S. Nuclear Regulatory Commission
(NRC) amend its uranium mill operation license. The license amendment would approve the site's reclamation
plan and allow U.S. Energy Corporation to begin remediation of the (Plateau) Shootaring Canyon Site. Once
the site's license amendment is approved, its mission will be to remediate the site.
The historic mission of the (Plateau) Shootaring Canyon Site was to provide uranium for commercial markets.
Between 1981 and 1982, Plateau Resources Limited built the site's mill-- the last uranium mill built in the
United States. The mill only operated for two months to make sure the system worked before it closed when the
price of uranium dropped suddenly in 1982. Since 1982, the mill has been maintained in a standby condition.
The U.S. Energy Corporation purchased the mill when it acquired Plateau Resources Limited and a nearby mine
in 1993, and slowly refurbished and updated the equipment in anticipation of higher uranium prices in the future.
The mill, however, never resumed operations.
1
This report is developed in response to a Congressional request in the Fiscal Year (FY) 2000 National
Defense Authorization Act (NDAA). As requested by the Act, this report addresses current and anticipated longterm stewardship activities at each site or portion of a site by the end of calendar year 2006 ("Conference Report on
S.1059, National Defense Authorization Act for Fiscal Year 2000," Congressional Record, August 5, 1999).
Based on current planning, the (Plateau) Shootaring Canyon Site is not expected to be transferred to the U.S.
Department of Energy (DOE) for long-term stewardship until2015, and for this reason the site is not the primary
focus of this report. This brief summary of the site cleanup activities is provided for background information and
potential future long-term stewardship activities. (See Section 3.2 of Volume 1).
Utah
33
36. National Defense Authorization Act (NDAA) Long-Term Stewardship Report
"
Wayne County
To Salt Lake Ciy, UT
(-180 miles)
Garfield County
· (Plateau) Shootaring Canyon Site
•
0
15
30
Miles
Plateau Shootaring Canyon Site
1.2
Site Cleanup and Accomplishments
The proposed decommissioning and reclamation activities include removing mill structures and regrading
disturbed areas to blend with the surroundings; constructing a disposal cell and then disposing of process-related
wastes, contaminated soils and concrete in the cell; covering and stabilizing the tailings impoundment area;
replacing stockpiled topsoil in selected areas for plant growth; and revegetating disturbed areas. The volume of
contaminated materials that will be contained in the disposal cell and the size of the disposal cell will not be
known until remediation is completed.
An environmental and effluent monitoring program is currently in place to monitor effluent releases and
determine if applicable regulatory limits are exceeded. Radiological effluents from site operations have been
below the regulatory limits and are expected to remain so after site remediation is completed. Because the
(Plateau) Shootaring Canyon mill barely operated, there is likely to be no groundwater contamination. No
groundwater remediation is expected to be necessary. Any facility built after 1978 is required to have a Resource
Conservation Recovery Act (RCRA)-style, double-lined, tailings impoundment.
The U.S. Energy Corporation is expected to remediate the site. At some future date, the site will be transferred
to the DOE Grand Junction Office for custody and long-term care. To transfer the (Plateau) Shootaring Canyon
Site to DOE, the U.S. Energy Corporation must conduct NRC-approved reclamation of any and all onsite
radioactive waste, and make a one-time payment to the U.S. Treasury fully funding monitoring and ongoing
maintenance activities under Title II of UMTRCA.
Utah
34
37. (Plateau) Shootaring Canyon Site
2.0
POTENTIAL LONG-TERM STEWARDSHIP ACTIVITIES
The DOE Grand Junction Office will be responsible for long-term monitoring and maintenance activities at the
(Plateau) Shootaring Canyon Site. DOE estimates that its future long-term stewardship activities at the site will
cost approximately $24,000 per year. The disposal cell will be similar to other uranium mill tailings disposal
cells and will require similar long-term stewardship activities.
Anticipated site-wide long-term stewardship activities include restricting access by fencing and posting warning
signs along the site boundary. DOE will repair the fence and replace signs, as necessary. DOE will staff a 24hour phone line for reporting any site concerns. Drilling and other intrusive activities within site boundaries will
be prevented through institutional controls.
Site records will be kept in permanent storage at the DOE Grand Junction Office in Colorado. The types of
records maintained include site characterization data, remedial action design information, the site completion
report, long-term monitoring plans, annual inspection reports, and current and historic monitoring data.
3.0
EXPECTED FUTURE USES AND SITE RESPONSIBILITY
The U.S. Energy Corporation is currently responsible for all activities at the (Plateau) Shootaring Canyon Site.
After remediation is complete, the site is expected to be transferred to DOE in 2015 to perform long-term
stewardship activities.
For additional information about the (Plateau) Shootaring Canyon Site, please contact:
Art Kleinrath, Long-Term Surveillance and
Maintenance Program Manager
U.S. Department of Energy, Grand Junction Office
2597 B3/4 Road
Grand Junction, CO 81503
Phone:970-248-6037
or visit the Internet website at http://www.doegjpo.com
Utah
Richard W. Weller, Project Manager
Uranium Recovery and Low-Level Waste Branch
U.S. Nuclear Regulatory Commission
Washington, DC 20555-001
Phone: 301-415-7287
or visit the Internet website at http://www.nrc.gov
35
39. (Rio Algom) Lisbon Valley Site
(RIO ALGOM) LISBON VALLEY SITE 1
1.0
SITE SUMMARY
1.1
Site Description and Mission
The (Rio Algom) Lisbon Valley Site (also known as the
LONG-TERM STEWARDSHIP HIGHLIGHTS
Lisbon Valley Uranium Mill) is located in rural
southeast Utah, south of the city of Moab. The
Total Site Area- 130 hectares (330 acres)
uranium milling site was operated by Rio Algom's
Current Landlord- Rio Algom through its subsidiary,
wholly-owned subsidiary, Rio Algom Mining
Rio Algom Mining Corporation
Corporation, from 1972 through 1988. Currently, Rio
Expected Long-Term Stewardship Start Year- 2010
Algom owns the site. The site is approximately 130
Expected Future Landlord· U.S. Department of
hectares (330 acres), and contains two evaporation
Energy, Grand Junction Office
Reason Not Subject to NDAA Requirements -This site
ponds and an 823-meter (2,700-foot) deep mine. The
is an UMTRCA Title II site that will not be transferred
site is contaminated with byproduct material that
to the U.S. Department of Energy until2010
resulted from processing uranium ores. The byproduct
material consists primarily of mill tailings and
radioactive soil and rock that remained after the
uranium ore was processed. The mill has been dismantled, and there is one active disposal cell at the site, which
is expected to be permanently closed and capped by December 31, 2000. A new disposal cell has yet to be
constructed to hold the contaminated materials remediated from the two evaporation ponds.
The (Rio Algom) Lisbon Valley Site is subject to Title II of the Uranium Mill Tailings Radiation Control Act
of 1978 (UMTRCA). UMTRCA Title II sites are privately owned and operated sites that were licensed when
the Act was passed. The majority of the uranium produced at these sites was for private sale, but a portion was
sold to the U.S. Government. Under UMTRCA Title II, DOE is responsible for long-term stewardship activities,
but the site's owner, Rio Algom, is responsible for remediation.
The current mission of the (Rio Algom) Lisbon Valley Site is to complete decommissioning activities and
remediation of contaminated areas. The (Rio Algom) Lisbon Valley Site is expected to be transferred to DOE
in 2010. The number of acres that will be transferred has not been determined. Once the site is transferred to
DOE, the only site mission will be long-term monitoring and maintenance of the two disposal cells. The historic
mission of the site was to process uranium ore. The Rio Algom Mining Company began operations at the Lisbon
Valley uranium milling site in 1972 and closed the mill in 1988 when the price of uranium dropped.
1.2
Site Cleanup and Accomplishments
The site contains approximately four million tons (3 .6 million metric tons) of uranium mill tailings. All identified
contaminated materials will be disposed in two engineered disposal cells (one for the evaporation ponds and the
1
This report is developed in response to a Congressional request in the Fiscal Year (FY) 2000 National
Defense Authorization Act (NDAA). As requested by the Act, this report addresses current and anticipated longterm stewardship activities at each site or portion of a site by the end of calendar year 2006 ("Conference Report on
S.l059, National Defense Authorization Act for Fiscal Year 2000," Congressional Record, August 5, 1999).
Based on current planning, the (Rio Algom) Lisbon Valley Site is not expected to be transferred to the U.S.
Department of Energy (DOE) for long-term stewardship until2010, and for this reason the site is not the primary
focus of this report. This brief summary of the site cleanup activities is provided for background information and
potential future long-term stewardship activities. (See Section 3.2 of Volume 1).
Utah
37