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Spallation Neutron Source sees first target replacement
July 28, 2009Having outlasted all expectations of its service life, the original mercury target of the Spallation Neutron Source (SNS), the Department of Energy (DOE) Office of Science's record-setting neutron science facility at Oak Ridge National Laboratory, is being replaced for the first time.
SNS operators are taking advantage of a planned maintenance outage to replace the old target, which has been in service since the SNS's startup on April 28, 2006.
"We were anticipating this operation as far back as the summer of 2008, and the fact is that the target received nearly twice the cumulative beam as its projected lifetime limit. In the meantime, neutron scientists have been reveling in the beam intensities the SNS is already providing," said ORNL Director Thom Mason, who directed the SNS before becoming laboratory director.
The mercury target is the first of its kind. A proton beam generated by the SNS's linear accelerator strikes the target 60 times per second with a force comparable to bursts from a large-caliber machine gun, "spalling" neutrons from the circulating mercury inside.
Eventually, the wear and tear of those forces were expected over time to damage the stainless steel of the target and render it unusable. The target is modular: It can be changed out whenever necessary. Some researchers estimated the first change would become necessary a year ago.
One reason for the target's longer than expected life could be the decision to run the SNS at lower power--and step up the SNS's power more slowly--to give experiments that are already being conducted more stable beam time. Replacing the target during the maintenance outage avoids interruptions of experiments.
With a maximum design beam power of 1.4 megawatts, the SNS has been routinely operating at just under 500 kilowatts. Already the world's most powerful neutron source, every time power is stepped up, a new record is established.
"Even at these power levels, our scientific users have been ecstatic with the results they are getting from their experiments," said SNS Director Ian Anderson.
The SNS team has already operated the facility at close to megawatt levels. Recent tests verified that the linear accelerator and accumulator ring--two vital components that supply the proton beam pulses--are meeting and exceeding the 1.4 megawatt design criteria.
The replacement operation entails decoupling the target module and retracting it from the beam line area after draining the mercury--approximately 20 tons of it--from the vessel. Then the new module is put into place, returned to the target station and then refilled with the mercury. The entire process is performed with remote manipulators by operators working in a control room adjoining the target bay--a procedure that will be repeated each time the target is changed, which ultimately at full power could occur several times a year.
The old target will be studied to gauge how three years of proton bombardment have affected its materials.
The Spallation Neutron Source is supported by the Office of Basic Energy Sciences within the DOE Office of Science.
More information on the Spallation Neutron Source is available at http://neutrons.ornl.gov.
ORNL is managed by UT-Battelle for the Department of Energy.
Oak Ridge National Laboratory
The mercury target is the first of its kind. A proton beam generated by the SNS's linear accelerator strikes the target 60 times per second with a force comparable to bursts from a large-caliber machine gun, "spalling" neutrons from the circulating mercury inside.
Eventually, the wear and tear of those forces were expected over time to damage the stainless steel of the target and render it unusable. The target is modular: It can be changed out whenever necessary. Some researchers estimated the first change would become necessary a year ago.
One reason for the target's longer than expected life could be the decision to run the SNS at lower power--and step up the SNS's power more slowly--to give experiments that are already being conducted more stable beam time. Replacing the target during the maintenance outage avoids interruptions of experiments.
With a maximum design beam power of 1.4 megawatts, the SNS has been routinely operating at just under 500 kilowatts. Already the world's most powerful neutron source, every time power is stepped up, a new record is established.
"Even at these power levels, our scientific users have been ecstatic with the results they are getting from their experiments," said SNS Director Ian Anderson.
The SNS team has already operated the facility at close to megawatt levels. Recent tests verified that the linear accelerator and accumulator ring--two vital components that supply the proton beam pulses--are meeting and exceeding the 1.4 megawatt design criteria.
The replacement operation entails decoupling the target module and retracting it from the beam line area after draining the mercury--approximately 20 tons of it--from the vessel. Then the new module is put into place, returned to the target station and then refilled with the mercury. The entire process is performed with remote manipulators by operators working in a control room adjoining the target bay--a procedure that will be repeated each time the target is changed, which ultimately at full power could occur several times a year.
The old target will be studied to gauge how three years of proton bombardment have affected its materials.
The Spallation Neutron Source is supported by the Office of Basic Energy Sciences within the DOE Office of Science.
More information on the Spallation Neutron Source is available at http://neutrons.ornl.gov.
ORNL is managed by UT-Battelle for the Department of Energy.
Oak Ridge National Laboratory
Neutron Source Current Events and Neutron Source News RSSSpallation Neutron Source first of its kind to reach megawatt power
The Department of Energy's Spallation Neutron Source (SNS), already the world's most powerful facility for pulsed neutron scattering science, is now the first pulsed spallation neutron source to break the one-megawatt barrier.
Origins of Pompeii-style artifacts examined at ISIS
Roman artefacts which are nearly two thousand years old with similarities to ancient remains found at Pompeii in Italy have been examined at the Science and Technology Facilities Council's ISIS neutron source (21-22 February).
Structure of enzyme against chemical warfare agents determined
The enzyme DFPase from the squid Loligo vulgaris, is able to rapidly and efficiently detoxify chemical warfare agents such as Sarin, which was used in the Tokyo subway attacks in 1995.
Nuclear fusion-fission hybrid could contribute to carbon-free energy future
Physicists at The University of Texas at Austin have designed a new system that, when fully developed, would use fusion to eliminate most of the transuranic waste produced by nuclear power plants.
Spallation Neutron Source gets initial go-ahead on second target
The U.S. Department of Energy has given its initial approval to begin plans for a second target station for the Spallation Neutron Source, expanding what is already the world's most powerful pulsed neutron scattering facility located at DOE's Oak Ridge National Laboratory.
New detector will aid dark matter search
Several research projects are underway to try to detect particles that may make up the mysterious "dark matter" believed to dominate the universe's mass.
New Instrument Puts New Spin on Superconductors
Researchers at the U.S. Department of Energy's Ames Laboratory are part of collaborative team that's used a brand new instrument at the DOE's Spallation Neutron Source to probe iron-arsenic compounds, the "hottest" new find in the race to explain and develop superconducting materials.
Spallation Neutron Source sends first neutrons to 'Big Bang' beam line
New analytical tools coming on line at the Spallation Neutron Source, the Department of Energy's state-of-the-art neutron science facility at Oak Ridge National Laboratory, include a beam line dedicated to nuclear physics studies.
Superconductivity can induce magnetism
When an electrical current passes through a wire it emanates heat - a principle that's found in toasters and incandescent light bulbs.
U.S. Air Force Technology Helps Scientists Understand Plant Root Function
The McClellan Nuclear Radiation Center (MNRC) in Sacramento, CA was developed by the U.S. Air Force to detect corrosion and defects in aircraft structure using an imaging technique called neutron radiography. This technique is currently helping soil scientists understand the function of plant roots and their uptake of water and nutrients.
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