This article includes links to three interesting videos about the SAFARI 1 Research Reactor and the radioisotopes it produces for many uses around the world. See below. SAFARI-1 is a 20 Megawatt tank-in-pool type nuclear research reactor, owned and operated by the South African Nuclear Energy Corporation (Necsa) and it is located at Pelindaba, 30 km west of Pretoria. SAFARI-1 is an acronym for South Africa Fundamental Atomic Research Installation and is South Africa’s only nuclear research reactor. Since it’s commissioning on 18th March 1965, SAFARI-1 has achieved many outstanding successes and is currently engaged in a number of activities which are not only fascinating, but also of great benefit to mankind. SAFARI-1 provides products and services both locally and internationally to various industrial and institutional sectors, proving that nuclear technology does indeed offer many beneficial applications.
Link to video about the SAFARI 1 Research Reactor in South Africa:
https://www.youtube.com/watch?v=iGeXeC3DeOk
Main Supplier of Medical Isotopes in Africa Some of the most spectacular advances in medicine in recent years have been in the fields of imaging and scanning using selective medical isotopes. The development of these techniques enables doctors to make precise and accurate diagnoses without – in many cases the need for exploratory surgery. Isotopes are used in various chemical forms in a large number of dynamic and static diagnostic studies which include imaging of the heart, brain, thyroid, liver, lungs, kidneys and bone. Necsa is by far Africa’s largest producer of a range of medical isotopes that are used for diagnostic purposes and therapeutic treatment of cancer and many millions of people have received the benefits of medical isotopes
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originating from SAFARI-1. Patients are treated annually in South Africa and internationally with typical radioisotopes of which the targets material is irradiated within SAFARI-1 for the isotope production facility of NTP Radioisotope SOC Ltd.
Leading Producer of Molyndenum-99 Molybdenum-99 (99Mo) , the radioisotope used extensively as a raw material for technetium-99m (the most important diagnostic nuclear medicine isotope), originally had to be imported into South Africa on a weekly basis. Since 1993, with its unique ability to manage virtually the entire nuclear production cycle, Necsa has become the sole local and an important international supplier of 99Mo. The nuclear production cycle, which is initiated with the enriched uranium, includes a fuel fabrication plant for the manufacture of 99Mo target plates and the assembly of fuel for SAFARI-1, the SAFARI-1 nuclear research reactor itself, a modern hot cell complex for 99Mo extraction, and an isotope production centre (NTP Radioisotopes SOC Ltd) where the radioisotopes are manufactured and packaged. Since Necsa initiated local production of 99Mo in SAFARI-1, it has become one of the four largest producers of the isotopes in the world. Currently, Necsa via NTP has approval for the export of isotope products to a large number of countries worldwide. In the USA alone, several tens of thousands of diagnostic procedures using nuclear radioisotopes are performed daily. Because 99Mo is radioactive and loose half of its activity every 66 hours, regular supply within extremely tight delivery schedules are essential. Necsa has furthermore been able to assist in averting international nuclear medicine crises on various occasions, when supply limitations threatened to paralyse the industry. Necsa has been able to selectively place a large portion of the world demand for 99Mo into the market at extremely short notice. Link to video about production of isotopes at SAFARI 1:
https://www.youtube.com/watch?v=xt1VKrOFPgg
Irriadation of Silicon Silicon semiconductors (e.g. microchips) are used in electronic equipment which play an important role in our lives today. Small quantities of phosphorus are required in high-purity silicon crystal to provide the desired electrical properties. Traditionally, phosphorus is introduced into the crystal structure chemically, but because the distribution is not always homogeneous, high rejection rates and premature failure of electronic equipment can be experienced. Phosphorus can also be produced in a crystal through a nuclear reaction between neutrons and silicon atoms. Necsa has developed technology to irradiate silicon crystals at its SAFARI-1 nuclear research reactor. This method ensures homogeneous distribution of phosphorus and obviates the quality problems associated with the chemical method. The technique was refined in cooperation with some of Japan’s and Europe’s largest silicon manufacturers.
The Reactor Itself Although much of the utilasation of SAFARI-1 is focused on commercialisation, which includes the activities highlighted above, the provision of support services such as neutron radiography, neutron diffraction and neutron
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activation analysis providing strong industrial and academic links, all receive a high profile in the day-to-day operations of the reactor. The impeccably safe operational history of SAFARI-1 is undoubtedly due to the extensive infrastructure available at Pelindaba to support SAFARI-1 in terms of required services. In addition to the normal utilities (water, electricity, etc), a fuel production plant, modern hot-cell facilities, an isotope production centre and radioactive waste handling capabilities (including a disposal site) are available. A theoretical reactor physics group, conventional and radiological safety and licensing support, as well as extensive electronic and mechanical design and manufacturing capabilities, have enabled SAFARI-1 to be ranked as one of the top nuclear research reactors in the world. A comprehensive preventive maintenance programme and a strategy for the continuous upgrading of plant equipment will ensure that SAFARI-1 will continue to operate safely well into the future – maintaining a nuclear heritage of which we all, as South Africans, can be proud!
Radiation Science and Application Cluster The Necsa Group, through NTP and with the SAFARI-1 research reactor playing a key role, continued to be a reliable, leading supplier of radiochemicals to the global healthcare market. NTP remained a leading supplier in the world with the ability to produce 99Mo at industrial scale using a process entirely based on LEU (Low Enriched Uranium). The SAFARI-1 research reactor operational availability average more than 300 days per annum at an average reactor power of 20 MW, which makes it one of the highest utilised reactors in the world. This achievement is the result of a closely managed and effective maintenance programme, and the implementation of a reactor ageing management programme. A recent safety re-assessment conducted on the SAFARI-1 research reactor and its operational systems, in response to a NNR directive, confirmed the fundamental safety and integrity of the reactor and its operations. These safety reassessments have been carried out on all major research reactors worldwide subsequent to the events at the Fukushima Daiichi nuclear plant in Japan.
Link to important video interview with South Africa Nuclear Energy Corporation, CEO about the 50 year history of the SAFARI 1 Research Reactor. Very well done for public education. https://www.youtube.com/watch?v=yYdowjkup0o
The entire article is also available on the Internet at: http://www.necsa.co.za/Necsa/SAFARI-1
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