MONTE CARLO N PARTICLE EXTENDED (MCNPX) RADIATION SHIELD MODELLING ON BORON NEUTRON CAPTURE THERAPY FACILITY USING D-D NEUTRON GENERATOR 2.4 MeV

Indonesian Journal of Physics and Nuclear Applications Pub Date : 2019-06-30 DOI:10.24246/IJPNA.V4I2.58-65

Y. Sardjono

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引用次数: 2

Abstract

Based Studies were carried out to analyze the internal dose of radiation for workers at Boron Neutron Capture Therapy (BNCT) facility base on Cyclotron 30 MeV with BSA and a room that was actually designed before. This internal dose analyzation included interaction between neutrons and air. The air contained N2 (72%), O2 (20%), Ar (0.93%), CO2, Neon, Kripton, Xenon, Helium and Methane. That internal dose to the worker should be below the dose limit for radiation workers which is an amount of 20 mSv/years. From the particles that are present in the air, only Nitrogen and Argon can change into radioactive element. Nitrogen-14 activated to Carbon-14, Nitrogen-15 activated to Nitrogen-16, and Argon-40 activated to Argon-41. Calculation using tally facility in Monte Carlo N Particle version Extended (MCNPX) program for calculated Neutron flux in the air 3.16x107 Neutron/cm2s. The room design in the cancer facility has a measurement of 200 cm in length, 200 cm in width, and 166.40 cm in height. Neutron flux can be used to calculate the reaction rate which is 80.1x10-2 reaction/cm3s for carbon-14 and 8.75x10-5 reaction/cm3s. The internal dose exposed to the radiation worker is 9.08E-9 µSv.

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使用D-D中子发生器2.4 MeV的硼中子捕获治疗装置的蒙特卡洛N粒子扩展(MCNPX)辐射屏蔽模型

在原设计的硼中子捕获治疗(BNCT)设施中，采用30 MeV的回旋加速器和BSA，对工作人员的内辐射剂量进行了分析研究。这种内剂量分析包括中子和空气之间的相互作用。空气中含有N2(72%)、O2(20%)、Ar(0.93%)、CO2、氖、氪、氙、氦和甲烷。对工作人员的内部剂量应该低于辐射工作人员的剂量限制，即20毫西弗/年。从存在于空气中的微粒中，只有氮和氩能变成放射性元素。氮14活化为碳14，氮15活化为氮16，氩40活化为氩41。利用蒙特卡罗N粒子扩展版(MCNPX)程序中的计数设施计算空气中的中子通量3.16 × 107 Neutron/cm2s。癌症设施的房间设计为长200厘米，宽200厘米，高166.40厘米。中子通量可以计算出碳-14的反应速率为80.1x10-2反应/cm3, 8.75x10-5反应/cm3。辐射工作人员的内部剂量为9.08E-9µSv。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Indonesian Journal of Physics and Nuclear Applications

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