 |
|
Sandia aids cleanup of Iraqi nuclear facilities, rad waste
October 21, 2008ALBUQUERQUE, N.M. - Sandia scientists are helping train Iraqi scientists and technicians to clean up radioactively contaminated sites and safely dispose of the radioactive wastes as part of the Iraqi Nuclear Facility Dismantlement and Disposal Program.
The Sandia work is a technical transfer of skills and knowledge that the Labs use day to day, says Sandia principal investigator John Cochran. As an example of this, Sandia has transferred its Rad Worker II training materials to the government of Iraq.
The Iraqi Nuclear Facility Dismantlement and Disposal Program (the Iraqi NDs Program) was initiated by the U.S. Department of State to assist Iraq in eliminating the threats from poorly controlled radioactive materials, Cochran says. The current activities build on two years of cooperative efforts coordinated by the International Atomic Energy Agency in Vienna with support by donor countries. The State Department is coordinating the U.S. government assistance from Sandia, Department Of Energy, Texas Tech University, the Environmental Protection Agency, the Nuclear Regulatory Commission, and others.
The program focuses on the Al Tuwaitha nuclear complex near Baghdad, which contains major facilities left from Saddam Hussein's dictatorship. The nuclear complex covers more than a square kilometer and includes the remains of two research reactors, a fuel fabrication facility, plutonium separation facilities, and other infrastructure. The Osiraq research reactor at Al Tuwaitha was bombed by Israel in 1981 and the IRT-5000 research reactor was bombed and disabled during Operation Desert Storm in 1991.
In 2003, following Operation Iraqi Freedom, looters removed contaminated scrap metal and dozens of 50-gallon barrels that contained yellowcake uranium. The looters poured yellowcake on the ground and in the waterways surrounding Al Tuwaitha and on the village outskirts. Today, the site contains uncharacterized radioactive wastes, waste uranium compounds related to yellowcake, sealed radioactive sources, and activated metals. There are also other sites in the country that have some degree of contamination and will require decommissioning and remediation to ensure radiological safety, Cochran says.
The fresh nuclear fuel, spent nuclear fuel, and enriched uranium have been removed from the country, along with approximately 1,000 radioactive sealed sources.
The sites that previously housed Iraq's nuclear facilities remain in a radioactively contaminated and hazardous condition. Since Iraq has generated radioactive waste for more than 50 years, and because the country has never had a licensed radioactive waste disposal facility, there are relatively large quantities of radioactive waste and material in guarded storage. Cochran says Iraq has no national strategy or system for radioactive waste management.
Sandia provides consultation, training tours, and hands-on demonstrations to Iraqi professionals from the Iraqi regulatory authority, the owner of the Al Tuwaitha complex (the Ministry of Science and Technology), and the Ministry of Environment. The cleanup of a bombed and looted nuclear complex is unique, with no direct analogues in the U.S., Cochran says.
Sandia is a National Nuclear Security Administration laboratory. Sandia helps ensure the safety, security and reliability of the U.S. nuclear weapons stockpile.
The Iraqi NDs work is focused on characterization, cleanup, dismantling nuclear facilities, waste management, and waste disposal.
As part of the project, Sandia researchers took Iraqi scientists on tours through two operating radioactive waste disposal facilities with climatic and geohydrologic conditions similar to those in Iraq. The first site visited was the Nevada Test Site (NTS) and the second was a radioactive waste disposal facility operated by EnergySolutions Inc. located near Clive, Utah.
At NTS, the Iraqis learned about disposal of radioactive wastes in trenches and in 36-meter-deep augered shafts known as greater confinement disposal (GCD) boreholes. Cochran had led a 10-year study of the ability of the GCD boreholes to isolate long-lived transuranic wastes. The security at NTS required significant coordination and support from DOE's Nevada Field Office.
Sandia has also provided training in the fundamentals of project management, radiological waste management, and the laws governing safe disposal of radioactive waste in America.
"On-the-ground progress is the focus of the training," Cochran says. "Iraq has budgeted $10 million to the project, and on July 1 the Ministry of Science and Technology began cleaning up the Active Metallurgy Testing Laboratory at Al Tuwaitha." Another purpose of the work is to help make radioactive waste management work real and interesting to the scientists who were isolated from their counterparts for more than a decade by United Nations sanctions. Cochran says professional relationships have been forged between Iraqis and national and international waste management experts.
"This is a modest international program that has an important effect," says David Kenagy, the U.S. State Department official who is the sponsor of the work. "The project is going very well."
Sandia is a multiprogram laboratory operated by Sandia Corporation, a Lockheed Martin company, for the U.S. Department of Energy's National Nuclear Security Administration. With main facilities in Albuquerque, N.M., and Livermore, Calif., Sandia has major R&D responsibilities in national security, energy and environmental technologies, and economic competitiveness.
Sandia National Laboratories
The program focuses on the Al Tuwaitha nuclear complex near Baghdad, which contains major facilities left from Saddam Hussein's dictatorship. The nuclear complex covers more than a square kilometer and includes the remains of two research reactors, a fuel fabrication facility, plutonium separation facilities, and other infrastructure. The Osiraq research reactor at Al Tuwaitha was bombed by Israel in 1981 and the IRT-5000 research reactor was bombed and disabled during Operation Desert Storm in 1991.
In 2003, following Operation Iraqi Freedom, looters removed contaminated scrap metal and dozens of 50-gallon barrels that contained yellowcake uranium. The looters poured yellowcake on the ground and in the waterways surrounding Al Tuwaitha and on the village outskirts. Today, the site contains uncharacterized radioactive wastes, waste uranium compounds related to yellowcake, sealed radioactive sources, and activated metals. There are also other sites in the country that have some degree of contamination and will require decommissioning and remediation to ensure radiological safety, Cochran says.
The fresh nuclear fuel, spent nuclear fuel, and enriched uranium have been removed from the country, along with approximately 1,000 radioactive sealed sources.
The sites that previously housed Iraq's nuclear facilities remain in a radioactively contaminated and hazardous condition. Since Iraq has generated radioactive waste for more than 50 years, and because the country has never had a licensed radioactive waste disposal facility, there are relatively large quantities of radioactive waste and material in guarded storage. Cochran says Iraq has no national strategy or system for radioactive waste management.
Sandia provides consultation, training tours, and hands-on demonstrations to Iraqi professionals from the Iraqi regulatory authority, the owner of the Al Tuwaitha complex (the Ministry of Science and Technology), and the Ministry of Environment. The cleanup of a bombed and looted nuclear complex is unique, with no direct analogues in the U.S., Cochran says.
Sandia is a National Nuclear Security Administration laboratory. Sandia helps ensure the safety, security and reliability of the U.S. nuclear weapons stockpile.
The Iraqi NDs work is focused on characterization, cleanup, dismantling nuclear facilities, waste management, and waste disposal.
As part of the project, Sandia researchers took Iraqi scientists on tours through two operating radioactive waste disposal facilities with climatic and geohydrologic conditions similar to those in Iraq. The first site visited was the Nevada Test Site (NTS) and the second was a radioactive waste disposal facility operated by EnergySolutions Inc. located near Clive, Utah.
At NTS, the Iraqis learned about disposal of radioactive wastes in trenches and in 36-meter-deep augered shafts known as greater confinement disposal (GCD) boreholes. Cochran had led a 10-year study of the ability of the GCD boreholes to isolate long-lived transuranic wastes. The security at NTS required significant coordination and support from DOE's Nevada Field Office.
Sandia has also provided training in the fundamentals of project management, radiological waste management, and the laws governing safe disposal of radioactive waste in America.
"On-the-ground progress is the focus of the training," Cochran says. "Iraq has budgeted $10 million to the project, and on July 1 the Ministry of Science and Technology began cleaning up the Active Metallurgy Testing Laboratory at Al Tuwaitha." Another purpose of the work is to help make radioactive waste management work real and interesting to the scientists who were isolated from their counterparts for more than a decade by United Nations sanctions. Cochran says professional relationships have been forged between Iraqis and national and international waste management experts.
"This is a modest international program that has an important effect," says David Kenagy, the U.S. State Department official who is the sponsor of the work. "The project is going very well."
Sandia is a multiprogram laboratory operated by Sandia Corporation, a Lockheed Martin company, for the U.S. Department of Energy's National Nuclear Security Administration. With main facilities in Albuquerque, N.M., and Livermore, Calif., Sandia has major R&D responsibilities in national security, energy and environmental technologies, and economic competitiveness.
Sandia National Laboratories
Radioactive Waste Current Events and Radioactive Waste News RSSReport examines hidden costs of energy production and use
A new report from the National Research Council examines and, when possible, estimates "hidden" costs of energy production and use -- such as the damage air pollution imposes on human health -- that are not reflected in market prices of coal, oil, other energy sources, or the electricity and gasoline produced from them.
New experiment could reveal make-up of the universe
The detectors will become part of the Advanced Gamma Tracking Array (AGATA) experiment, currently based in Italy, which aims to create a 'fingerprint' of the inside of the atomic nucleus to understand the structure of all matter in the Universe, including human beings and the stars.
Erosion of the Yucca Mountain crest
The Yucca Mountain crest in Nevada, USA has been proposed as a permanent site for high level radioactive waste.
New insights on fusion power
Research carried out at MIT's Alcator C-Mod fusion reactor may have brought the promise of fusion as a future power source a bit closer to reality, though scientists caution that a practical fusion powerplant is still decades away.
Secrets from within planets pave way for cleaner energy
Research that has provided a deeper understanding into the centre of planets could also provide the way forward in the world's quest for cleaner energy.
Radiation for health
For decades, we have been told that exposure to radiation is dangerous. In high doses it is certainly lethal and chronic exposure is linked to the development of cancer.
For the paper trail of life on Mars or other planets, find cellulose
Looking for evidence of life on Mars or other planets? Finding cellulose microfibers would be the next best thing to a close encounter, according to new research from the University of North Carolina at Chapel Hill.
What, oh, what are those actinides doing?
Researchers at Pacific Northwest National Laboratory are uniting theory, computation and experiment to discover exactly how heavy elements, such as uranium and technetium, interact in their environment.
UW-Madison stellerator a step forward in plasma research
A project by University of Wisconsin-Madison researchers has come one step closer to making fusion energy possible.
Radiation degrades nuclear waste-containing materials faster than expected
Minerals intended to entrap nuclear waste for hundreds of thousands of years may be susceptible to structural breakdown within 1,400 years, a team from the University of Cambridge and the Pacific Northwest National Laboratory reported today.
More Radioactive Waste Current Events and Radioactive Waste News Articles
 |
Radioactive Waste Management by James Saling (Author) Topics covered include: an overview of sources of radioactive waste; an introductionto radioactive decay and radiation shielding calculations; management and disposal of spent nuclear fuel and high-level waste; low-level waste; transuranic waste; Uranium mill tailings; mixed waste; transportation of radioactive waste; decontamination and decommissioing of nuclear facilities; and environmental restoration. Technical and regulatory aspects of waste management are presented. Discussion questions at the end of each chapter provide an opportunity to explore the many facets of waste management issues. An extensive reference list at the end of each chapter retains the references from the first edition of the book and incorporates references used in preparing this revised text, giving the... |
 |
Nuclear Waste Stalemate: Political and Scientific Controversies by Robert Vandenbosch (Author), Susanne E Vandenbosch (Author) |
 |
Safety and Health Aspects of Hazardous, Toxic, and Radioactive Waste Remediation Technologies: Engineering Manual on CD-ROM by U.S. Army Corps of Engineers by WVNAVY Manual contains the following Chapters: 1 - Landfill Covers and Liners, 2 - Extraction/ Monitoring Wells (Vertical/ Horizontal Wells) and Soil Flushing, 3 - Excavation, Removal, and Off-Site Disposal, 4 - Solidification/ Stabilization (Ex Situ/ In Situ), 5 - Slurry Walls, 6 - Soil Washing/ Solvent Extraction, 7 - Soil Valor Extraction (In Situ), Bioventing, Biodegradation, Thermally Enhanced Soil Vapor Extraction, Electrical Resistivity Heating, 8 - Free-Product Recovery, 9 - Dual-Phase Extraction (Bioslurping), 10 - Air Sparging/ Oxygen Enhancement with Air Sparging, 11 Landfarming, 12 Composting, 13 Bioreactors, 14 - Biofiltration (Vapor), 15 Precipitation, 16 - Ultraviolet Oxidation, 17 - Passive Treatment Walls, 18 - Chemical Reduction/ Oxidation, 19 - Liquid-Phase Carbon... |
 |
Green Careers: Restoring the Land - Hazardous Waste Management Directed By: Michael Dieffenbach Also With: Michael Dieffenbach (Producer), Michael Dieffenbach (Writer) In this program, we'll visit a Naval Air Station where a team from the Environmental Protection Agency manages a massive program to remove a half-century of hazardous waste, and will profile such jobs as hazardous-waste technician, chemist, toxicologist, and EPA project manager.Jobs profiled in this program include:Project Manager, Technical Manager, Safety Officer, Chemists and ScientistsPart of the Green Careers series that cover eight new and growing industries giving young people a behind-the-scenes look at what it's like to work in a variety of jobs in each sector. In on-the-job profiles, we meet entrepreneurs, scientists, field biologists, engineers, managers and interns.Also included is information on the educational requirements for entering various fields. By becoming stewards of... |
 |
Drums of Radioactive Waste Collections Giclee Poster Print by Dynamic Graphics, 18x24 by Art.com Art.com is the world's largest retailer of art prints, posters, photographs, and framed artwork. With our huge selection of over 400,000 prints, you'll easily find the perfect piece for your home, office, or classroom. Our art is printed on quality paper. When you order framed artwork, the piece is built by our team of in-house professionals. Visit our Amazon store today at www.amazon.com/artdotcom to find Special Offers and search for products based on 'Artist Name' and 'Subject Categories' such as Movie, Music, Vintage, TV, Children, Travel, Kitchen, Museum Art, Animals, Floral, Motivational, and Sports. Art.com is dedicated to providing you with high quality products and service by offering you 100% satisfaction guaranteed. We ship internationally to over 80 countries. Decorate your... |
 |
RADIATION RADIOACTIVE WASTE PROHIBITED DOWN DRAIN (W-GRAPHIC) 14 x 10 Adhesive D by Accuform Signs ADHESIVE DURA VINYL (XV) Dual-layered Adhesive Dura Vinyl delivers exceptional flexibility and performance. Durability, even in the toughest indoor and outdoor conditions.Material Features: High-gloss over-laminate film is bonded to printed image. Sub-surface legend protected from water, chemicals and abrasion. Flexible, 6-mil thick vinyl. Permanent acrylic adhesive backing. Service temperature range: -20°F to 140°F. Durability: 5-7 years outdoors. Square corners without holes; scored backing for quick peel-off and application. |
 |
BAG RADIOACTIVE 24X36IN CS250 - Radioactive Waste Bags, Polyethylene, 3 mil, Associated Bag by VWR Designed to safely dispose of radioactive waste. Translucent yellow polyethylene is preprinted with repeating message that meets Federal Regulation 10-20.203. Bottom-sealed bags are perforated on a roll for easy tear-off. (Associated Bag 36-5-107Y) Dimensions: 61W x 91.4L cm (24 x 36") |
 |
Radioactive waste Nora (Primary Contributor) |
|
Waste Isolation Pilot Plant (WIPP): Forever Yours Also With: Citizens for Alternatives to Radioactive Dumping (Primary Contributor) | |
 |
Doomwatch Starring: George Sanders, Judy Geeson, Simon Oates, Jean Trend, Ian Bannen Directed By: Peter Sasdy |
| © 2009 BrightSurf.com |