摘要
氦资源在航空航天、医疗和基础物理研究等诸多高科技领域有不可替代的应用,是赢得未来科技竞争的重要战略物质.长期以来,我国被认为是贫氦的国家,氦资源对外依赖度极高.氦气的稳定供应已经成为我国未来高新科技发展中的潜在风险因素之一,亟须寻找新的解决办法.以往的学术观点通常认为,氦气和天然气具有伴生关系,而这方面的科学依据值得深入讨论和研究.系统地认识与氦相关的物理和化学性质可以为我国独立自主寻找氦资源提供科学依据和指导思想,对我国尽快解决氦资源短缺和摆脱对外依赖有重要意义.氦资源的开发利用也将对我国其他科技领域的发展产生巨大的推动.
Helium resources have irreplaceable applications in many high-tech fields such as aerospace, medical treatment, and basic physics research. Thus, helium resources have become an important strategic material to win future scientific and technological competition. Currently, the main international helium exporters are the United States, Russia and Qatar. For a long time, China has been regarded as a helium-poor country, and the helium resources mainly rely on imports. Helium has become one of the potential risk factors in China’s future high-tech development, and it is urgent to find new solutions.Through the analysis of the physical and chemical properties of helium, it can be seen that helium can only exist as a gas state after being produced by nuclear fission inside the Earth. As the most inert gas, helium does not react with any other elements. Therefore, helium is not associated with other compound gases, such as natural gas(CH_(4)), CO_(2), H_(2)S, etc.Besides, helium has a molecular weight of 4 or 3, which is only heavier than hydrogen(molecular weight is 2). As the lightest gas, helium tends to get rid of the constraints of the Earth’s gravity. Thus, helium tends to accumulate in a domeshaped stratum structure with higher altitude and good sealing characters, rather than a region with a basin structure. In previous studies, people have always believed that helium and natural gas have an accompanying relationship. Therefore,many geological theories of searching for helium gas often focus on the basin area. Here in this work, we propose a new theory on the migration and accumulation of helium, which indicates that the Tibet Plateau is expected to find helium resources with exploitable value. In June 2021, our team members went to Tibet and collected the gas in the hot spring. In order to ensure the purity of the gas, we use the drainage method to collect the gas from the hot spring. This method can avoid pollution caused by gas components in the air. By using a high-resolution mass spectrometer, we analyzed the gas composition in the hot springs in Tibet. All the gas samples from hot springs are detected with high concentration of helium, which is a good verification of the new-proposed model. The air in Beijing and Tibet was used as a reference sample, and the mass spectrometry measurement was also carried out, but no signal of helium gas was found. The concentration of helium in the hot springs in Tibet is comparable to the concentration of helium in the Hetian River gas in the Tarim Basin. The higher concentration of helium in the Qinghai-Tibet Plateau is worthy of further exploration. This point of view breaks the previous habit of thinking that the search for helium must be in the basin area. The plateau area provides a new option for searching for helium gas. It is of great significance for China to solve the shortage of helium resources and external dependence, and will also give a huge boost to the development of other scientific and technological fields in China.
作者
黄元
黄泽平
张全震
王业亮
Yuan Huang;Zeping Huang;Quanzhen Zhang;Yeliang Wang(Advanced Research Institute of Multidisciplinary Science,Beijing Institute of Technology,Beijing 100081,China;School of Integrated Circuits and Electronics,Beijing Institute of Technology,Beijing 100081,China)
出处
《科学通报》
EI
CAS
CSCD
北大核心
2021年第33期4212-4217,共6页
Chinese Science Bulletin
基金
国家重点研发计划(2019YFA0308000,2018YFA0704201)
国家自然科学基金(62022089,11874405,61725107,92163206)
中国科学院B类战略性先导科技专项(XDB30000000)资助。