Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
8251878 | Radiation Physics and Chemistry | 2018 | 23 Pages |
Abstract
Characterization of a 90 kCi (3330 TBq), semi-industrial, cobalt-60Â gamma irradiator was performed by commissioning dosimetry and in-situ dose mapping experiments with Ceric-cerous and Fricke dosimetry systems. Commissioning dosimetry was carried out to determine dose distribution pattern of absorbed dose in the irradiation cell and products. To determine maximum and minimum absorbed dose, overdose ratio and dwell time of the tote boxes, homogeneous dummy product (rice husk) with a bulk density of 0.13Â g/cm3 were used in the box positions of irradiation chamber. The regions of minimum absorbed dose of the tote boxes were observed in the lower zones of middle plane and maximum absorbed doses were found in the middle position of front plane. Moreover, as a part of dose mapping, dose rates in the wall positions and some selective strategic positions were also measured to carry out multiple irradiation program simultaneously, especially for low dose research irradiation program. In most of the cases, Monte Carlo simulation data, using Monte Carlo N-Particle eXtended code version MCNPX 2.7., were found to be in congruence with experimental values obtained from Ceric-cerous and Fricke dosimetry; however, in close proximity positions from the source, the dose rate variation between chemical dosimetry and MCNP was higher than distant positions.
Related Topics
Physical Sciences and Engineering
Physics and Astronomy
Radiation
Authors
Md Firoz Mortuza, Luigi Lepore, Kalpana Khedkar, Saravanan Thangam, Arifatun Nahar, Hossen Mohammad Jamil, Laxminarayan Bandi, Md Khorshed Alam,