Gamma Irradiator Technology: Challenges and Future Prospects

A. K. Kohli
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引用次数: 2

Abstract

The gamma irradiator technology has served the radiation processing industry very well. It has continued to progress despite number of challenges it has faced. Number of improvements in safety features helped it to quell the earlier challenges. Later 60 Co shortages and accelerator based X-ray systems becoming more competitive, considerably halted growth of gamma irradiators. But higher running expenditure, non-availability of appropriate irradiation volumes and reliable power supply at places particularly in rural areas did not make them as an automatic choice. The recent challenge due to heightened security concerns because of presence of intense 60 Co radioactive sources in gamma irradiators is quite daunting. Possibility of theft, or attack on gamma irradiator itself or transport container and high decommissioning costs for return of sources to the supplier for safe disposal is making it difficult for gamma irradiator technology to compete. Due to some inherent advantages, X-ray based technology has made the road ahead tough for gamma irradiator technology. However, X-ray system's lower efficiency of conversion of energy to electromagnetic radiation, its higher maintenance costs and its huge dependence on availability of economic and reliable power supply will eventually decide the time at which it replaces the gamma irradiator technology fully in any part of the world.
伽马辐射技术:挑战和未来展望
伽马辐照技术已经很好地服务于辐射加工行业。尽管面临许多挑战,它仍在继续取得进展。安全功能的大量改进帮助它平息了早期的挑战。后来60 Co短缺和基于加速器的x射线系统变得更具竞争力,在很大程度上停止了伽玛辐照器的增长。但是,较高的运行费用,特别是在农村地区没有适当的辐照量和可靠的电力供应,并没有使它们成为一种自动选择。最近的挑战是由于伽马辐射器中存在强烈的60 Co放射源而引起的安全问题加剧,这是相当令人生畏的。由于伽马辐照器本身或运输容器可能遭到盗窃或攻击,以及将源送回供应商进行安全处置的高昂退役成本,伽马辐照器技术难以与之竞争。由于x射线技术的一些固有优势,使得伽马辐照技术的发展道路变得艰难。然而,x射线系统将能量转换为电磁辐射的效率较低、维护成本较高以及对经济可靠的电源供应的巨大依赖,最终将决定它在世界任何地方完全取代伽马辐照技术的时间。
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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