| Nuclear Engineering and Technology | |
| Validation of a New Design of Tellurium Dioxide-Irradiated Target | |
| Hafid Amayoud1 El Mahjoub Chakir2 Younes Ghamad3 Aziz Fllaoui3 Zinel Abidine Ayaz3 Brahim Zoubir3 Aissam El Morabiti4 | |
| [1] Maintenance and Technical Unit, Technical and Logistic Division, Centre National de l'Energie des Sciences et des Techniques Nucléaires, PO Box 1382 R.P.10001, Rabat, Morocco;Nuclear Physics Department, University Ibn Toufail, BP 242, Kenitra, Morocco;Radiopharmaceutical Production Unit, Life Sciences and Applications Department, Centre National de l'Energie des Sciences et des Techniques Nucléaires, PO Box 1382 R.P. 10001, Rabat, Morocco;Safety Audit Unit, Safety Security Pole, Centre National de l'Energie des Sciences et des Techniques Nucléaires, PO Box 1382 R.P. 10001, Rabat, Morocco; | |
| 关键词: Helium Mass Spectrometer; Iodine-131 Production; Leakage Rate Test; New Design Validation; Safety Analysis; Tellurium Dioxide-Irradiated Target; TRIGA Mark II Nuclear Research Reactor; | |
| DOI : 10.1016/j.net.2016.05.004 | |
| 来源: DOAJ | |
【 摘 要 】
Production of iodine-131 by neutron activation of tellurium in tellurium dioxide (TeO2) material requires a target that meets the safety requirements. In a radiopharmaceutical production unit, a new lid for a can was designed, which permits tight sealing of the target by using tungsten inert gas welding. The leakage rate of all prepared targets was assessed using a helium mass spectrometer. The accepted leakage rate is ≤ 10−4 mbr.L/s, according to the approved safety report related to iodine-131 production in the TRIGA Mark II research reactor (TRIGA: Training, Research, Isotopes, General Atomics). To confirm the resistance of the new design to the irradiation conditions in the TRIGA Mark II research reactor's central thimble, a study of heat effect on the sealed targets for 7 hours in an oven was conducted and the leakage rates were evaluated. The results show that the tightness of the targets is ensured up to 600°C with the appearance of deformations on lids beyond 450°C. The study of heat transfer through the target was conducted by adopting a one-dimensional approximation, under consideration of the three transfer modes—convection, conduction, and radiation. The quantities of heat generated by gamma and neutron heating were calculated by a validated computational model for the neutronic simulation of the TRIGA Mark II research reactor using the Monte Carlo N-Particle transport code. Using the heat transfer equations according to the three modes of heat transfer, the thermal study of I-131 production by irradiation of the target in the central thimble showed that the temperatures of materials do not exceed the corresponding melting points. To validate this new design, several targets have been irradiated in the central thimble according to a preplanned irradiation program, going from 4 hours of irradiation at a power level of 0.5 MW up to 35 hours (7 h/d for 5 days a week) at 1.5 MW. The results show that the irradiated targets are tight because no iodine-131 was released in the atmosphere of the reactor building and in the reactor cooling water of the primary circuit.
【 授权许可】
Unknown
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