评估月球短期飞行期间的辐射状况

I.V. Ivanov, V. I. Burmistrov, E. Matkevich
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Material and methods: The features of the dose load levels on astronauts at the stages of the Moon’s orbit and on the Moon’s surface are analyzed and generalized, calculation methods are used taking into account the orbit of the spacecraft around the Moon, the anti-radiation properties of the materials of the lander and spacesuit and the time spent in them during a short-term lunar mission. Results: The total radiation doses of astronauts for 14 days, calculated according to dosimetric measurements during the years of low solar activity (2009 and 2018‒2019), are 19.5‒23.2 mSv for astronauts staying in a spacecraft in lunar orbit, and from 22,7 to 24,0 mSv for astronauts on the Lunar surface, depending on the mass thickness of the protection at the maximum permissible 250 mSv for 1 month. 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引用次数: 0

摘要

背景:对影响宇航员在月球轨道和月球表面辐射剂量形成的因素特征的评估问题仍然没有进行充分的研究,这对于确保执行月球任务的宇航员的抗辐射安全非常重要。目的:分析在月球轨道上寻找航天器和在月球表面寻找着陆器阶段形成宇航员辐射剂量的影响因素。材料和方法分析和归纳了宇航员在月球轨道和月球表面各阶段的剂量负荷水平的特点,采用的计算方法考虑了航天器绕月轨道、着陆器和宇航服材料的抗辐射性能以及短期月球任务期间在其中度过的时间。结果:根据低太阳活动年(2009 年和 2018-2019 年)的剂量测定结果,宇航员 14 天的总辐射剂量为 19.5-23.2 毫希沃特(mSv),宇航员在月球轨道的航天器中停留 14 天的总辐射剂量为 19.5-23.2 毫希沃特(mSv),宇航员在月球表面停留 14 天的总辐射剂量为 22.7-24.0 毫希沃特(mSv),这取决于 1 个月内最大允许 250 毫希沃特(mSv)的防护质量厚度。如果将着陆器防辐射保护装置的质量厚度(铝当量)从 1.5 克/平方厘米增加到 3-5 克/平方厘米,月球宇航服的质量厚度(铝当量)从 0.2 克/平方厘米增加到 0.5-1 克/平方厘米,那么宇航员在月球表面停留 14 天期间的总辐射剂量将减少不超过 1.3 倍。结果表明,为了最大限度地减少宇航员在月球任务期间受到的辐射剂量,必须考虑到太阳活动的预测,以便在辐射量最小的 "窗口 "内优化航天器的发射时间。结论在预测短期月球飞行任务期间宇航员的辐射危害水平时,有必要评估在月球轨道 (取决于航天器的月球轨道)和月球表面的宇宙电离辐射照射水平,同时考虑到在登月舱 和宇航服中度过的时间以及太阳活动水平。在预测月球飞行任务的时间限制、宇航员的抗辐射保护以及他们遵守辐照规定限值时,必须考虑到对宇航员在月球轨道上和月球表面的辐射剂量形成特点的分析。
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Assessment of the Radiation Situation during Short-Term Flights to the Moon
Background: The issue of assessing the features of factors affecting the formation of radiation doses of astronauts while in orbit of the Moon and on its surface remains insufficiently studied, which is important for ensuring the anti-radiation safety of astronauts on lunar missions. Purpose: To analyze the factors influencing the formation of the radiation dose of astronauts at the stage of finding the spacecraft in orbit of the Moon and the lander on its surface. Material and methods: The features of the dose load levels on astronauts at the stages of the Moon’s orbit and on the Moon’s surface are analyzed and generalized, calculation methods are used taking into account the orbit of the spacecraft around the Moon, the anti-radiation properties of the materials of the lander and spacesuit and the time spent in them during a short-term lunar mission. Results: The total radiation doses of astronauts for 14 days, calculated according to dosimetric measurements during the years of low solar activity (2009 and 2018‒2019), are 19.5‒23.2 mSv for astronauts staying in a spacecraft in lunar orbit, and from 22,7 to 24,0 mSv for astronauts on the Lunar surface, depending on the mass thickness of the protection at the maximum permissible 250 mSv for 1 month. An increase in the mass thickness of the anti-radiation protection of the lander in the equivalent of aluminum from 1.5 to 3-5 g/cm2 and the lunar spacesuit in the equivalent of aluminum from 0.2 to 0.5‒1 g/cm2 will reduce the total radiation dose of astronauts no more than 1.3 times during a 14-day stay on the surface of the moon. The results indicate that in order to minimize the radiation doses that astronauts receive during a lunar mission, it is important to take into account the forecast of solar activity in order to optimize the launch time of the spacecraft in the «windows» with minimal levels of radiation exposure. Conclusion: When predicting radiation hazard levels for astronauts during a short-term lunar mission, it is necessary to assess the levels of exposure to cosmic ionizing radiation both in the orbit of the Moon, depending on the lunar trajectory of the spacecraft, and on the surface of the Moon, taking into account the time spent in the lunar module and in a spacesuit, as well as levels of solar activity. It is important to take into account the analyzed features of the formation of cosmonauts’ radiation doses while orbiting the Moon and on its surface when predicting the time limits of the lunar mission, anti-radiation protection of astronauts and their compliance with the regulatory limits of exposure.
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Medical Radiology and Radiation Safety
Medical Radiology and Radiation Safety Medicine-Radiology, Nuclear Medicine and Imaging
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