Oak Ridge National Laboratory
|Oak Ridge National Laboratory|
|Location:||Oak Ridge, Tennessee|
|Campus:||ORNL occupies about 10,000 acres (40 km2) of the approximately 35,000 acres (140 km2) Oak Ridge Reservation|
Oak Ridge National Laboratory (ORNL) is a multiprogram science and technology national laboratory managed for the United States Department of Energy (DOE) by UT-Battelle. ORNL is the largest science and energy national laboratory in the Department of Energy system by acreage. ORNL is located in Oak Ridge, Tennessee, near Knoxville. ORNL's scientific programs focus on materials, neutron science, energy, high-performance computing, systems biology and national security.
The laboratory is home to several of the world’s top supercomputers including the world’s most powerful supercomputer ranked by the TOP500, Titan and is a leading neutron science and nuclear energy research facility that includes the Spallation Neutron Source and High Flux Isotope Reactor. ORNL hosts the Titan supercomputer; the Center for Nanophase Materials Sciences, the BioEnergy Science Center, and the Consortium for Advanced Simulation of Light-Water Reactors.
Oak Ridge National Laboratory is managed by UT-Battelle, a limited liability partnership between the University of Tennessee and the Battelle Memorial Institute, formed in 2000 for that purpose. The annual budget is US$1.65 billion; 80% of which is from the Department of Energy, the remainder is from various sources paying for use of the facilities. As of 2012 there are 4,400 staff working at ORNL, 1600 of which are directly conducting research, and an additional 3000 guest researchers annually.
There are five campuses on the Department of Energy's Oak Ridge reservation; the National Laboratory, the Y-12 National Security Complex, the East Tennessee Technology Park (formerly the Oak Ridge Gaseous Diffusion Plant), the Oak Ridge Institute for Science and Education, and the developing Oak Ridge Science and Technology Park, although the four other facilities are unrelated to the National Laboratory. The total area of the reservation 150 square kilometres (58 sq mi) of which the lab takes up 18 square kilometres (7 sq mi).
The town of Oak Ridge was established by the Army Corps of Engineers as part of the Clinton Engineer Works in 1942 on isolated farm land as part of the Manhattan Project. In 1943, construction of the "Clinton Laboratories" were completed, later renamed to the Oak Ridge National Laboratory. The site was chosen for the X-10 Graphite Reactor, used to show that plutonium can be extracted from enriched uranium. Enrico Fermi and his colleagues developed the world's second self-sustaining nuclear reactor after Fermi's previous experiment Chicago Pile-1, the X-10 was the first designed for continuous operation. After the end of World War II the demand for weapons-grade plutonium fell and the reactor and the laboratory's 1000 employees were no longer involved in nuclear weapons, instead it was used for scientific research. In 1946 the first medical isotopes were produced in the X-10 reactor, by 1950 almost 20,000 samples had been shipped to various hospitals. As the demand for military science had fallen dramatically the future of the lab was uncertain. Management of the lab was contracted by the US government to Monsanto, however, they withdrew in 1947. The University of Chicago assumed responsibility but withdrew shortly after, until in December 1947 Union Carbide and Carbon Co., which already operated two other facilities at Oak Ridge, took control of the laboratory and Alvin Weinberg was named Director of Research ORNL, and in 1955 Director of the Laboratory.
In 1950 the Oak Ridge School of Reactor Technology was established with two courses in reactor operation and safety; almost 1000 students graduated. Much of the research performed at ORNL in the 1950s was relating to nuclear reactors as a form of energy production both for propulsion and electricity; more reactors were built in the 1950s than the rest of the ORNL's history combined. Though experiment X-10 was the first light water reactor, it remains the most common type of nuclear reactor as of 2012. The US Military funded much of the reactor development leading to the nuclear-powered submarines and ships of the US Navy. The US Army contracted portable nuclear reactors in 1953 for heat and electricity generation in remote military bases. The reactors were designed at ORNL, produced by American Locomotive Company and used in Greenland, the Panama Canal Zone and Antarctica. The United States Air Force (USAF) also contributed funding to three reactors; the lab's first computers; and its first particle accelerators. ORNL designed and tested a nuclear-powered aircraft in 1954 as a proof-of-concept for a proposed USAF fleet of long range bombers, although it never flew. The provision of radionuclides by X-10 for medicine grew steadily in the 1950s with more isotopes available; ORNL was the only Western source of californium-252. ORNL scientists lowered the immune systems of mice and performed the world's first successful bone marrow transplant.
In the early 1960s there was a large push at ORNL to develop nuclear-powered desalination plants where deserts met the sea to provide water. The project called Water for Peace was backed by John F. Kennedy and Lyndon B. Johnson and presented at a 1964 United Nations conference but increases in the cost of construction and public confidence in nuclear power falling caused the plan to fail. The Health Physics Research Reactor built in 1962 was used for radiation exposure experiments leading to more accurate dosage limits, dosimeters and improved radiation shielding. In 1964 the Molten-Salt Reactor Experiment began with the construction of the reactor. It was operated from 1966 until 1969 (with six months down time to move from U-235 to U-233 fuel) and proved the viability of molten salt reactors while also producing fuel for other reactors as a byproduct of its own reaction. The High Flux Isotope Reactor built in 1965 with the highest neutron flux of any reactor at the time. It improved upon the work of the X-10 reactor producing more medical isotopes as well as allowing higher fidelity of materials research. Researchers in the Biology Division studied the effects of chemicals on mice including petrol fumes, pesticides and tobacco. In the late 1960s cuts in funding led to plans for another particle accelerator to be cancelled and the United States Atomic Energy Commission cut the breeder reactor program by two thirds leading to a downsizing in staff from 5000 to 3800.
In the 1970s the prospect of fusion power was strongly considered sparking research at ORNL. A tokamak called ORMAK, made operational in 1971, was the first tokamak to achieve a plasma temperature of 20 million Kelvin. After the success of the fusion experiments it was enlarged and renamed ORMAK II in 1973 however the experiments ultimately failed to lead to fusion power plants. The US Atomic Energy Commission required improved safety standards in the early 1970s for nuclear reactors so ORNL staff wrote almost 100 requirements covering many factors including fuel transport and earthquake resistance. In 1972 the AEC held a series of public hearings where emergency cooling requirements were highlighted and the safety requirements became more stringent. ORNL was involved in analysing the damage to the core of the Three Mile Island Nuclear Generating Station after the accident in 1979. Also in 1972 Peter Mazur, a biologist at ORNL, froze with liquid nitrogen, thawed and implanted mouse embryos in a surrogate mother. The mouse pups were born healthy. The technique is popular in the livestock industry as it allows the embryos of valuable cattle to be transported easily and a prize cow can have multiple eggs extracted and thus through in vitro fertilisation have many more offspring that would naturally be possible. In 1974 Alvin Weinberg, director of the lab for 19 years, was replaced by Herman Postma, a fusion scientist. In 1977 construction began for 6 metre (20 foot) superconducting electromagnets intended to control fusion reactions. The project was an international effort, three electromagnets were produced in the US, one in Japan, one in Switzerland and the final by remaining European states and experimentation continued into the 1980s.
The 1980s brought more changes to ORNL, a focus on efficiency became paramount. An accelerated climate simulation chamber was built that applied varying weather conditions to insulation to test its efficacy and durability faster than real time. Materials research into heat resistant ceramics for use in truck and high-tech car engines was performed, building upon the materials research that began in the nuclear reactors of the 1950s. In 1987 the High Temperature Materials Laboratory was established where ORNL and industry researchers cooperated on ceramic and alloy projects. The materials research budget at ORNL doubled after initial uncertainty regarding Reagan's economic policy of less government expenditure. In 1981 the Holifield Heavy Ion Research Facility, a 25 MV particle accelerator, was opened at ORNL. At the time, Holifield had the widest range of ion species and was twice as powerful as other accelerators attracting hundreds of guest researchers each year. The Department of Energy was concerned with the pollution surrounding ORNL and it began clean-up efforts. Burial trenches and leaking pipes had contaminated the groundwater beneath the lab and radiation tanks were sitting idle, full of waste. Estimates of the total cost of clean-up were into the hundreds of millions of US dollars. The five older reactors were subjected to safety reviews in 1987, ordered to be deactivated until the reviews were complete. By 1989 when the High Flux Isotope Reactor was restarted the US supply of certain medical isotopes was depleted. In 1989 the former executive officer of the American Association for the Advancement of Science, Alvin Trivelpiece, became director of ORNL, he remained in the role until 2000.
Areas of research 
ORNL conducts research and development activities that span a wide range of scientific disciplines. Many research areas have a significant overlap with each other; researchers often work in two or more of the fields listed here. The laboratory's major research areas are described briefly below.
- Chemical sciences – ORNL conducts both fundamental and applied research in a number of areas, including catalysis, surface science and interfacial chemistry; molecular transformations and fuel chemistry; heavy element chemistry and radioactive materials characterization; aqueous solution chemistry and geochemistry; mass spectrometry and laser spectroscopy; separations chemistry; materials chemistry including synthesis and characterization of polymers and other soft materials; chemical biosciences; and neutron science.
- Electron microscopy – ORNL's electron microscopy program investigates key issues in condensed matter, materials, chemical and nanosciences.
- Nuclear medicine – The laboratory's nuclear medicine research is focused on the development of improved reactor production and processing methods to provide medical radioisotopes, the development of new radionuclide generator systems, the design and evaluation of new radiopharmaceuticals for applications in nuclear medicine and oncology.
- Physics – Physics research at ORNL is focused primarily on studies of the fundamental properties of matter at the atomic, nuclear, and subnuclear levels and the development of experimental devices in support of these studies.
- Population – ORNL provides federal, state and international organizations with a gridded population database, called Landscan, for estimating ambient population. LandScan is a raster image, or grid, of population counts, which provides human population estimates every 30 x 30 arc seconds, which translates roughly to population estimates for 1 kilometer square windows or grid cells at the equator, with cell width decreasing at higher latitudes. Though many population datasets exist, LandScan is the best spatial population dataset, which also covers the globe. Updated annually (although data releases are generally one year behind the current year) offers continuous, updated values of population, based on the most recent information. Landscan data are accessible through GIS applications and a USAID public domain application called Population Explorer.
The laboratory has a long history of energy research; nuclear reactor experiments have been conducted since the end of World War II in 1945. Because of the availability of reactors and high performance computing resources an emphasis on improving the efficiency of nuclear reactors is present. The programs develop more efficient materials, more accurate simulations of aging reactor cores, sensors and controls as well as safety procedures for regulatory authorities.
The Energy Efficiency and Electricity Technologies Program (EEETP) aims to improve air quality in the US and reduce dependence on foreign oil supplies. There are three key areas of research; electricity, manufacturing and mobility. The electricity division focuses on reducing electricity consumption and finding alternative sources for production. Buildings which account for 39% of US electricity consumption as of 2012, are a key area of research as the program aims to create affordable, carbon-neutral homes by 2020. Research also takes place into higher efficiency solar panels, geothermal electricity and heating, lower cost wind generators and the economic and environmental feasibility of potential hydro power plants.
Fusion is another area with a history of research at ORNL, dating back to the 1970s. The Fusion Energy Division pursues short term goals to develop components such as high temperature superconductors, high-speed hydrogen pellet injectors and suitable materials for future fusion research. Much research into the behaviour and maintenance of a plasma takes place at the Fusion Energy Division to further the understanding of plasma physics, a crucial area for developing a fusion power plant. The US ITER office is at ORNL with partners at Princeton Plasma Physics Laboratory and Savannah River National Laboratory. The US contribution to the ITER project is 9.09% which is expected to be in excess of US$1.6 billion throughout the contract.
Oak Ridge National Laboratory's biological research covers genomics, computational biology, structural biology and bioinformatics. The BioEnergy Program aims to improve the efficiency of all stages of the biofuel process to improve the energy security of the United States. The program aims to make genetic improvements to the potential biomass used, formulate methods for refineries that can accept a diverse range of fuels and to improve the efficiency of energy delivery both to power plants and end users.
The Center for Molecular Biophysics conducts research into the behaviour of biological molecules in various conditions. The center hosts projects that examine cell walls for biofuel production, use neutron scattering to analyse protein folding and simulate the effect of catalysis on a conventional and quantum scale.
Neutron science 
There are three neutron sources at ORNL; the High Flux Isotope Reactor (HFIR), the Oak Ridge Electron Linear Accelerator (ORELA) and the Spallation Neutron Source. HFIR provides neutrons in a stable beam resulting from a constant nuclear reaction whereas ORELA and SNS produce pulses of neutrons as they are particle accelerators. HFIR went critical in 1965 and has been used for materials research and as a major sources of medical radioisotopes since. As of 2013, HFIR provides the world's highest constant neutron flux as a result of various upgrades. As part of a US non proliferation effort the HFIR is scheduled to switch from highly enriched uranium (>90%, weapons grade) to low-enriched (3–4%) in 2020; the last reactor in the US to do so. Berkelium used to produce the world's first sample of ununseptium was produced in the High Flux Isotope Reactor as part of an international effort. HFIR is likely to operate until approximately 2060 before the reactor vessel is considered unsafe for continued use.
The Spallation Neutron Source (SNS) is a particle accelerator that has the highest intensity neutron pulses of any man-made neutron source. SNS was made operational in 2006 and has since been upgraded to 1 megawatts with plans to continue up to 3 megawatts. High power neutron pulses permit clearer images of the targets meaning smaller samples can be analysed and accurate results require fewer pulses.
Oak Ridge National Laboratory conducts research into materials science in a range of areas. Between 2002 and 2008 ORNL partnered with Caterpillar Inc. (CAT) to form a new material for their diesel engines that can withstand large temperature fluctuations. The new steel, named CF8C Plus, is based on conventional CF8C stainless steel with added manganese and nitrogen; the result has better high–temperature properties and is easier to cast at a similar cost. In 2003 the partners received an R&D 100 award from R&D magazine and in 2009 received an award for "excellence in technology transfer" from the Federal Laboratory Consortium for the commercialisation of the steel.
There is a high-temperature materials lab at ORNL that permits researchers from universities, private companies and other government initiatives to use their facilities. The lab is available for free if the results are published; private research is permitted but requires payment. A separate lab, the Shared Equipment User Facility, is one of three DOE sponsored facilities with nano-scale microscopy and tomography facilities.
The Center for Nanophase Materials Sciences (CNMS) researches the behaviour and fabrication of nanomaterials. The center emphasises discovery of new materials and the understanding of underlying physical and chemical interactions that enable creation of nanomaterials. In 2012 CNMS produced a lithium-sulfide battery with a theoretical energy density three to five times greater than existing lithium ion batteries.
Oak Ridge National Laboratory provides resources to the US Department of Homeland Security and other defense programs. The Global Security and Nonproliferation (GS&N) program develops and implements policies, both US based and international, to prevent the proliferation of nuclear material. The program has developed safeguards for nuclear arsenals, guidelines for dismantling arsenals, plans of action should nuclear material fall into unauthorised hands, detection methods for stolen or missing nuclear material and trade of nuclear material between the US and Russia. The GS&N's work overlaps with that of the Homeland Security Programs Office, providing detection of nuclear material and nonproliferation guidelines. Other areas concerning the Department Homeland Security include nuclear and radiological forensics, chemical and biological agent detection using mass spectrometry and simulations of potential national hazards.
High performance computing 
Throughout the history of the Oak Ridge National Laboratory it has been the site of various supercomputers, home to the fastest on several occasions. In the 1953 ORNL partnered with the Argonne National Laboratory to build ORACLE (Oak Ridge Automatic Computer and Logical Engine), a computer to research nuclear physics, chemistry, biology and engineering. ORACLE had 2048 words (80 KiB) of memory and took approximately 590 microseconds to perform addition or multiplications of integers. In the 1960s ORNL was also equipped with an IBM 360/91 and an IBM 360/65. In 1995 ORNL bought an Intel Paragon based computer called the Intel Paragon XP/S 150 that performed at 154 gigaFLOPS and ranked third on the TOP500 list of supercomputers. In 2005 Jaguar was built, a Cray XT3 based system that performed at 25 teraFLOPS and received incremental upgrades up to the XT5 platform that performed at 2.3 petaFLOPS in 2009. It was recognised as the world's fastest from November 2009 until November 2010.
Since 1992 the National Center for Computational Sciences (NCCS) has overseen high performance computing at ORNL. It manages the Oak Ridge Leadership Computing Facility that contains the machines. In 2012 Jaguar was upgraded to the XK7 platform, a fundamental change as GPUs are used for the majority of processing, and renamed Titan. Titan performs at 17.59 petaFLOPS and holds the number 1 spot on the TOP500 list for November 2012. Other computers include a 77 node cluster to visualise data that the larger machines output in the Exploratory Visualization Environment for Research in Science and Technology (EVEREST), a visualisation room with a 10 by 3 metre (30 by 10 ft) wall that displays 35 megapixel projections. Smoky is a 80 node linux cluster used for application development. Research projects are refined and tested on Smoky before running on larger machines such as Titan.
In 1989 programmers at the Oak Ridge National Lab wrote the first version of Parallel Virtual Machine (PVM), software that enables distributed computing on machines of differing specifications. PVM is free software and has become the de facto standard for distributed computing. Jack Dongarra of ORNL and the University of Tennessee wrote the LINPACK software library and LINPACK benchmarks, used to calculate linear algebra and the standard method of measuring floating point performance of a supercomputer as used by the TOP500 organisation.
See also 
- American Museum of Science and Energy
- Center for Nanophase Materials Sciences
- K-25 Gaseous Diffusion Plant
- Karl Z. Morgan
- List of Advanced Scientific Computing Research Leadership Computing Challenge allocations
- National Transportation Research Center
- Sandia National Laboratory
- Spallation Neutron Source
- Thorium Energy Alliance
- Y-12 National Security Complex
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