氦气资源调查理论与技术研究现状及建议

李玉宏; 张国伟; 周俊林; 李济远; 吕鹏瑞

doi:10.19751/j.cnki.61-1149/p.2022.04.001

氦气资源调查理论与技术研究现状及建议

1. 中国地质调查局西安地质调查中心, 陕西西安 710054;
2. 西北大学地质学系, 陕西西安 710069;
3. 中国矿业大学(北京)地球科学与测绘工程学院, 北京 100083

基金项目:

国家重点研发计划“富氦天然气成藏机制及氦资源分布预测技术-复杂地质介质中氦气运聚及富氦气藏封盖机制研究”(2021YFA0719003)、国家自然科学基金项目“壳源氦气有效氦源岩研究”(41572131)、中国地质调查局项目“全国氦气资源潜力评价与战略选区调查”(DD20221665)联合资助。

详细信息

作者简介:
李玉宏(1968-)，男，博士，正高级工程师，主要从事油气及非常规能源地质调查工作。E-mail:L1763@tom.com。

通讯作者:
张国伟(1939-)，男，中国科学院院士，主要研究方向为构造地质学、大陆构造与大陆动力学、前寒武纪地质学。E-mail:gwzhang@nwu.edu.cn。

中图分类号: P618.13
计量
- 文章访问数: 112
- HTML全文浏览量: 6
- PDF下载量: 96
出版历程
- 收稿日期: 2022-07-17
- 修回日期: 2022-09-04
- 网络出版日期: 2023-01-09

Research Status and Suggestions on Helium Resource Investigation Theory and Technology

1. Xi'an Center of China Geological Survey, Xi'an 710054, Shaanxi, China;
2. Department of Geology, Northwest University, Xi'an 710069, Shaanxi, China;
3. College of Geoscience and Surveying Engineering, China University of Mining & Technology(Beijing), Beijing 100083, China

摘要

摘要: 氦气是关系国家安全和高新技术产业发展的重要关键性稀有气体资源，在国防和高新技术领域不可或缺，是中国进一步走向“深空、深海、深地、深蓝”领域重要的基础原材料。当前，氦气资源已成为中国的“卡脖子”资源之一，开展氦气资源调查理论与技术研究，指导和支撑中国氦气资源勘查，已成为中国资源调查领域最为紧迫的任务之一。目前工业利用的氦资源主要是壳源氦气，其“弱源成藏”与“异源同储”机制的特殊性，导致与常规油气成藏具有重大差别。笔者根据氦气资源调查理论与技术研究现状，结合氦气成藏的特殊性，提出了亟需攻关的理论、技术问题和相关研究思路建议，供业内工作者参考、借鉴。
- 氦气资源 /
- 成藏理论 /
- 勘探技术 /
- 研究建议
Abstract: Helium is an important strategic rare gas resource for national security and the development of high and new technology industries. It is essential for national defense and high technology, which is an indispensable raw material for China's further development in the fields of “deep space, deep sea, deep earth and deep blue”. At present, helium has become a “bottlenecks” resource in China. Theoretical and technical research on helium resource survey has become one of the most urgent tasks in the field of resource investigation in China to guide and support the investigation of helium resources in China. Industrial extraction of helium resources is currently primarily of crustal origin. Industrial extraction of helium resources is currently primarily of crustal origin. The special characteristics of the “weak source reservoir” and “multiple source co-storage” mechanisms lead to significant differences from conventional hydrocarbon reservoirs. This article presents the theoretical and technical issues that need to be tackled and the relevant research proposals based on the current status of theoretical and technical research on helium resource investigation and the special characteristics of helium reservoir formation.
- helium resources /
- accumulation theory /
- exploration technique /
- proposa

HTML全文

参考文献(103)

陈践发, 刘凯旋, 董勍伟, 等.天然气中氦资源研究现状及我国氦资源前景[J]. 天然气地球科学, 2021, 32(10):1436-1449.

CHEN Jianfa, LIU Kaixuan, DONG Qingwei, et al. Research Status of Helium Resources in Natural Gas and Prospects of Helium Resources in China[J]. Natural Gas Geoscience, 2021, 32(10): 1436-1449.

戴金星, 宋岩, 戴春森, 等. 中国东部无机成因气及其气藏形成条件[M]. 北京: 科学出版社, 1995.

DAI Jinxing, SONG Yan, DAI Chunsen, et al. Inorganic gas and its reservoir forming conditions in eastern China [M]. Beijing: Science Press, 1995.

冯子辉, 霍秋立, 王雪. 松辽盆地北部氦气成藏特征研究[J].天然气工业,2001, 21(5): 27-30+10-9.

FENG Zihui, HUO Qiuli, WANG Xue.A study of helium reservolr formation characteristic in the north part of Songliao Basin[J]. Natural Gas Industry, 2001,21(05):27-30+10-9.

付晓飞, 宋岩.松辽盆地无机成因气及气源模式[J].石油学报, 2005, 26(4):23-28.

FU Xiaofei, SONG Yan. Inorganic gas and its resource in Songliao Basin[J]. Acta Petrolei Sinica,2005,26(04):23-28.

郭念发, 尤孝忠, 徐俊. 苏北盆地溪桥含氦天然气田地质特征及含氦天然气勘探前景[J]. 石油勘探与开发, 1999, 26(5): 24-26.

GUO Nianfa, YOU Xiaozhong, XU Jun. Geological Characteristics and Exploration Prospect of Helium-Bearing Natural Gas Field in Xiqiao, Subei Basin[J]. Petroleum Exploration and Development, 1999, 26(5): 24-26.

韩伟, 李玉宏, 卢进才, 等. 陕西渭河盆地富氦天然气异常的影响因素[J]. 地质通报, 2014, 33(11):1836-1841.

HAN Wei, LI Yuhong, LU Jincai, et al. The factors responsible for the unusual content of helium-rich natural gasin the Weihe Basin, Shaanxi Province[J]. Geological Bulletin of China,2014,33(11):1836-1841.

韩伟, 刘文进, 李玉宏, 等.柴达木盆地北缘稀有气体同位素特征及氦气富集主控因素[J].天然气地球科学,2020,31(03):385-392.

HAN Wei, LIUWenjin, LI Yuhong, et al. Characteristics of Rare Gas Isotopes and Main Controlling Factors of Radon Enrichment in the Northern Margin of Qaidam Basin[J]. Natural Gas Geoscience, 2020, 31(03): 385-392.

韩元红, 罗厚勇, 薛宇泽, 等.渭河盆地地热水伴生天然气成因及氦气富集机理[J].天然气地球科学，2022,33(2)：277-287.

HAN Yuanhong,LUO Houyong,XUE Yuze,et al.Genesis and Helium Enrichment Mechanism of Geothermal Water-associated Gas in Weihe Basin[J].Natural Gas Geoscience,2022,33(2): 277-287.

何发岐, 王付斌, 王杰, 等.鄂尔多斯盆地东胜气田氦气分布规律及特大型富氦气田的发现[J]. 石油实验地质,2022, 44(1):1-10.

HE Faqi, WANG Fubin, WANG Jie, et al. Helium Distribution of Dongsheng Gas Field in Ordos Basin and Discovery of a Super Large Helium-rich Gas Field[J]. Petroleum Geology & Experiment, 2022, 44(01): 1-10.

贾凌霄, 马冰, 王欢, 等.全球氦气勘探开发进展与利用现状[J/OL].中国地质,2022:1-16 [2022-05-27].http://kns.cnki.net/kcms/detail/11.1167.P.20220316.1137.008.html.

JIA Lingxiao, MA Bing, WANG Huan，et al. Global helium exploration and development progress and utilization status[J]. Geology in China, 2022: 1-16[2022-05-27].http://kns.cnki.net/kcms/detail/11.1167.P.20220316.1137.008.html.

孔令昌. 自然界中的氦同位素[M]. 北京: 专利文献出版社, 1997.

KONG Lingchang. Helium Isotopes in Nature[M].Beijing: Patent Literature Publishing House, 1997.

李济远, 李玉宏, 胡少华, 等.“山西式”氦气成藏模式及其意义[J]. 西安科技大学学报, 2022, 42(3): 529-536.

LI Jiyuan，LI Yuhong，HU Shaohua，et al.“Shanxi-type”helium accumulation model and its essentiality[J].Journal of Xi'an University of Science and Technology，2022，42(3):529-536.

李玉宏, 卢进才, 李金超, 等.渭河盆地天然气成因特征及其意义[J]. 西安石油大学学报(自然科学版), 2011,26(5):11-16.

LI Yuhong, LU Jincai, LI Jinchao, et al. Genetic Characteristics of the Natural Gas in Weihe Basin and its Significance[J]. Journal of Xi'an Shiyou University(Natural Science Edition),2011,26(5):11-16.

李玉宏, 王行运, 韩伟. 渭河盆地氦气资源远景调查进展与成果[J]. 中国地质调查, 2015, 2(6):1-6.

LI Yuhong,WANG Xingyun,HAN Wei.Progress and Achievements of Helium Gas Resources Survey in Weihe Basin[J].Geological Survey of China,2015, 2(6):1-6.

李玉宏, 王行运, 韩伟. 陕西渭河盆地氦气资源赋存状态及其意义[J].地质通报, 2016,35(Z1):372-378.

LI Yuhong, WANG Xingyun, HAN Wei. Mode of Occurrence of Helium in Weihe Basin,Shaanxi Province and its Significance[J].Geological Bulletin of China,2016,35(Z1):372-378.

李玉宏, 张文, 王利, 等. 亨利定律与壳源氦气弱源成藏——以渭河盆地为例[J]. 天然气地球科学, 2017a, 28(04): 495-501.

LI Yuhong, ZHANG Wen, WANG Li, et al. Henry's Law and Accumulation of Cruise-derived Helium: A Case Form Weihe Basin, China[J]. Natural Gas Geoscience, 2017a, 28(04): 495-501.

李玉宏, 张文, 王利, 等. 壳源氦气成藏问题及成藏模式[J].西安科技大学学报, 2017b, 37(04): 565-572.

LI Yuhong, ZHANG Wen, WANG Li, et al. Several Issues in the Accumulation of Crust-Derived Helium and the Accumulation Model[J]. Journal of Xi'an University of Science and Technology, 2017b, 37(04): 565-572.

李玉宏, 周俊林, 张文, 等. 渭河盆地氦气成藏条件及资源前景[M].北京:地质出版社, 2018.

LI Yuhong, ZHOU Junlin, ZHANG Wen, et al. Helium Accumulation Conditions and Resource Prospects in the Weihe Basin [M]. Beijing: Geological Publishing House, 2018.

李玉宏, 周俊林, 张文, 等. 渭河盆地氦气成藏条件及资源前景(修订版)[M].北京:地质出版社, 2022c.

LI Yuhong, ZHOU Junlin, ZHANG Wen, et al. Helium Accumulation Conditions and Resource Prospects in the Weihe Basin(Revised) [M].Beijing: Geological Publishing House,2022c.

李玉宏, 李济远, 周俊林, 等.氦气资源评价相关问题认识与进展[J]. 地球科学与环境学报, 2022a, 44(3): 363-373.

LI Yuhong, LI Jiyuan, ZHOU Junlin, et al. Research progress and new views on evaluation of helium resources[J]. Journal of Earth Sciences and Environment, 2022a, 44(2): 1-11.

李玉宏, 李济远, 周俊林,等. 国内外氦气资源勘探开发现状及其对中国的启示 [J]. 西北地质, 2022b, 55(3): 233-240.

LI Yuhong, LI Jiyuan, ZHOU Junlin, et al. Exploration and Development Status of World Helium Resources and Its Implications for China [J]. Northwestern Geology, 2022b, 55(3): 233-240.

刘超, 孙蓓蕾, 曾凡桂, 等. 鄂尔多斯盆地东缘石西区块含氦天然气的发现及成因初探[J].煤炭学报, 2021,46(4):1280-1287.

LIU Chao, SUN Beilei, ZENG Fangui, et al. Discovery and origin of helium-rich gas on the Shixi area,eastern margin of the Ordos Basin[J]. Journal of China Coal Society, 2021,46(4): 1280-1287.

卢进才, 魏仙样, 李玉宏, 等. 汾渭盆地富氦天然气成因及成藏条件初探[J].西北地质,2005，38(3):82-86.

LU Jincai,WEI Xianyang,LI Yuhong,et al. Preliminary study about genesis and pool formation conditions of rich-helium type natural gas[J].Northwestern Geology,2005,38(3):82-86.

蒙炳坤, 周世新, 李靖, 等. 上扬子地区不同类型岩石生氦潜力评价及泥页岩氦气开采条件理论计算[J].矿物岩石,2021,41(4):102-113.

MENG Bingkun,ZHOU Shixin,LI Jing,et al. Helium Potential Evaluation of Different Types of Rocks in the Upper Yangtze Region and Theoretical Calculation of Helium Recovery Conditions for Shale in Upper Yangtze Region[J].Journal of Mineralogy and Petrology, 2021,41(4):102-113.

彭威龙, 刘全有, 张英, 等. 中国首个特大致密砂岩型(烃类)富氦气田——鄂尔多斯盆地东胜气田特征[J].中国科学:地球科学,2022, 52(6): 1078-1085.

PENG Weilong, LIU Quanyou, ZHANG Ying, et al. The first extra-large helium-rich gas field identified in a tight sandstone of the Dongsheng Gas Field, Ordos Basin, China[J]. Science China Earth Sciences, 2022,52(6): 1078-1085.

秦胜飞, 李济远, 梁传国, 等. 中国中西部富氦气藏氦气富集机理—古老地层水脱氦富集[J]. 天然气地球科学, 2022,33(08):1203-1217.

QIN Shengfei, LI Jiyuan, LIANG Chuanguo, et al. Helium enrichment mechanism of helium rich gas reservoirs in central and western China-degassing and accumulation from old formation water[J]. Natural Gas Geoscience, 2022,33(08):1203-1217.

陶明信, 徐永昌, 韩文功, 等. 中国东部幔源流体的活动特征与成藏效应[J].大地构造与成矿学, 2001, 25(3):265-270.

TAO Mingxin, XU Yongchang, HAN Wengong, et al. Active Characteristics and Accumulative Effects of Mantle-derived Fluids in Eastern China[J]. Geotectonic et Metallogenia, 2001, 25(3): 265-270.

陶小晚, 李建忠, 赵力彬, 等. 我国氦气资源现状及首个特大型富氦储量的发现:和田河气田[J]. 地球科学, 2019,44(3):1024-1041.

TAO Xiaowan, LI Jianzhong, ZHAO Libin. Helium Resources and Discovery of First Super Giant Helium Reserve in China: Hetianhe Gas Field[J]. Earth Science, 2019,44: 1024-1041.

王先彬. 稀有气体同位素地球化学和宇宙化学[M]. 北京: 科学出版社, 1989.

WANG Xianbin. Noble Gas Isotope Geochemistry and Cosmochemistry [M].Beijing:Science Press,1989.

王先彬, 陈践发, 徐胜, 等. 地震区温泉气体的地球化学特征[J].中国科学B辑, 1992,37(2):242.

WANG Xianbin,CHEN Jianfa,XU Sheng,et al.Geochemical characteristics of gases from hot springs in seismic region[J].Science in China Serise B,1992,37(2):242.

王先彬, 徐胜, 陈践发, 等. 腾冲火山区温泉气体组分和氦同位素组成特征[J].科学通报, 1993, 38(9):814-817.

WANG Xianbin,XU Sheng,CHEN Jianfa,et al.Gas Composition and Nitrogen Isoatlas Composition of Hot Springs in Tengchong Volcanic Area[J].Chinese Science Bulletin, 1993,38(9):814-817.

徐永昌, 沈平, 陶明信, 等. 中国含油气盆地天然气中氦同位素分布[J].科学通报, 1994,39(16): 1505-1508.

XU Yongchang,SHEN Ping,TAO Mingxin,et al.Distribution of Helium Isotopes in Natural Gas from Petroliferous Basins in China[J].Chinese Science Bulletin,1994, 39(16):1505-1508.

徐永昌. 天然气中的幔源稀有气体[J]. 地学前缘, 1996, 3(3-4):64-72.

XU Yongchang.The mantle noble gas of natural gases[J]. Earth Science Frontier,1996, 3(3-4):63-71.

徐永昌, 沈平, 刘文汇, 等. 东部油气区天然气中幔源挥发份的地球化学——Ⅱ.幔源挥发份中的氦、氩及碳化合物[J]. 中国科学(D辑:地球科学), 1996b,(02):187-192.

XU Yongchang,SHEN Ping,LIU Wenhui,et al.Geochemistry of Mantle-derived Volatiles from Natural Gas in Eastern Oil and Gas Region ⅱ.Helium,Argon and Carbon Compounds in Mantle-derived Volatiles[J].Science in China(Series D),1996b,(02):187-192.

徐永昌, 沈平, 刘文汇, 等. 天然气中稀有气体地球化学[M]. 北京: 科学出版社, 1998.

XU Yongchang, SHEN Ping, LIU Wenhui, et al. Noble Gas Geochemistry in Natural Gas[M]. Beijing: Science Press, 1998.

徐永昌, 刘文汇, 沈平, 等. 天然气地球化学的重要分支——稀有气体地球化学[J]. 天然气地球科学, 2003,(03):157-166.

XU Yongchang,LIU Wenhui,SHEN Ping,et al.An Important Branch of Gas Geochemistry Noble Gas Geochemistry[J].Natural Gas Geoscience,2003,(03):157-166.

杨振宁, 李永红, 刘文进, 等. 柴达木盆地北缘全吉山地区氦气形成地质条件及资源远景分析[J]. 中国煤炭地质, 2018,30(6):64-70.

YANG Zhenning,LI Yonghong,LIU Wenjin, et al. Geological Conditions of Helium Formation and Resource Prospect Analysis in Quanjishan Area,Northern Qaidam Basin [J].Coal Geology of China,2018,30(06):64-70.

张东亮, 郑德顺, 彭建堂,等. 矿物流体包裹体中稀有气体的保存能力初探[J]. 矿床地质, 2011, 30(05):933-940.

ZHANG Dongliang, ZHENG Deshun, PENG Jiantang, et al. A preliminary study of the retention of noble gases in fluid inclusions of different minerals[J]. Mineral Deposits,2011, 30(05): 934-940.

张乔, 周俊林, 李玉宏, 等. 渭河盆地南缘花岗岩中生氦元素(U、Th)赋存状态及制约因素研究——以华山复式岩体为例 [J]. 西北地质, 2022, 55(3): 241-256.

ZHANG Qiao, ZHOU Junlin, LI Yuhong, et al. The Occurrence State and Restraint Factors of Helium-produced Elements(U, Th) in the Granites from the Southern Margin of Weihe Basin: Evidences from Huashan Complex [J]. Northwestern Geology, 2022, 55(3): 241-256.

张文, 李玉宏, 王利, 等. 渭河盆地氦气成藏条件分析及资源量预测[J]. 天然气地球科学, 2018, 29(02):236-244.

ZHANG Wen, LI Yuhong, WANG Li, et al. The Analysis of Helium Accumulation Conditions and Prediction of Helium Resource in Weihe Basin[J]. Natural Gas Geoscienc, 2018, 29(02): 236-244.

张文. 关中和柴北缘地区战略性氦气资源成藏机理研究[D]. 北京：中国矿业大学(北京), 2019.

ZHANG Wen. Accumulation mechanism of helium,a strategic resource,in Guanzhong and North Qaidam Basin[D].Beijing: China University of Mining and Technology(Beijing),2019.

张晓宝, 周飞, 曹占元, 等. 柴达木盆地东坪氦工业气田发现及氦气来源和勘探前景[J]. 天然气地球科学, 2020,31(11):1585-1592.

ZHANG Xiaobao,ZHOU Fei,CAO Zhanyuan, et al.Finding of the Dongping Economic Helium Gas Field in the Qaidam Basin,Helium Source and Exploration Prospect[J].Natural Gas Geoscience,2020,31(11):1585-1592.

张雪, 刘建朝, 李荣西, 等. 中国富氦天然气资源研究现状与进展[J].地质通报,2018,37(Z1): 476-486.

ZHANG Xue,LIU Jinzhao,LI Rongxi,et al.President Situation and Progress in the Study of Helium Gas Resources in China[J].Geological Bulletin of China,2018,37(Z1):476-486.

张云鹏, 李玉宏, 卢进才, 等. 柴达木盆地北缘富氦天然气的发现——兼议成藏地质条件[J].地质通报, 2016,35(Z1):364-371.

ZHANG Yunpeng,LI Yuhong,,LU Jincai,et al. The Discovery and Origin of Helium-rich Gas on the Northern Margin of the Qaidam Basin[J].Geological Bulletin of China,2016,35(Z1): 364-371.

邹才能，陶士振，侯莲花，等.非常规油气地质学[M].北京：地质出版社，2014.

Ballentine C J, Burnard P G. Production, Release and Transport of Noble Gases in the Continental Crust[J]. Reviews in Mineralogy & Geochemistry, 2002a, 47(1): 481-538.

Ballentine C J, SherwoodLollar B. Regional groundwater focusing of nitrogen and noble gases into the Hugoton-Panhandle giant gas field, USA[J]. Geochimica et Cosmochimica Acta, 2002b, 66(14): 2483-2497.

Brown A A. Formation of High Helium Gases: A Guide for Explorationists[C]. AAPG Conference, 2010: 11-14.

Brown A. Origin of helium and nitrogen in the Panhandle-Hugoton field of Texas, Oklahoma, and Kansas, United States[J]. AAPG Bulletin, 2019,103(2):369-403.

Danabalan D, Gluyas J G, Macpherson G G, et al. New High-Grade Helium Discoveries in Tanzania[C]. Yokohama, Japan: Goldschmidt Conference, 2016.

Danabalan D. Helium: Exploration Methodology for a Strategic Resource[D]. Durham University, 2017.

Danabalan D, Gluyas J G, Macpherson C G, et al. The Principles of Helium Exploration[J]. Petroleum Geoscience, 2022, 28(2): 1-13.

Farley K A. Helium diffusion from apatite: General behavior as illustrated by Durango fluorapatite[J]. Journal of Geophysical Research Solid Earth, 2000, 105(B2): 2903-2914.

Halford D T, Karolyte· R, Barry P H, et al. High helium reservoirs in the Four Corners area of the Colorado Plateau, USA[J]. Chemical Geology, 2022, 596: 120790. Hand E. Massive helium fields found in rift zone of Tanzania[J]. Science, 2016,(6295): 109-110.

Karolyte· R, Warr O, van Heerden E, et al. The role of porosity in H2/He production ratios in fracture fluids from the Witwatersrand Basin, South Africa[J]. Chemical Geology, 2022, 595: 120788. Liu Q, Wu X, Jia H, et al. Geochemical Characteristics of Helium in Natural Gas from the Daniudi Gas Field, Ordos Basin, Central China[J]. Frontiers in Earth Science, 2022,10:823308.

Mtili K M, Byrne D J, Tyne R L, et al. The origin of high helium concentrations in the gas fields of southwestern Tanzania[J]. Chemical Geology, 2021,585:120542.

Sivtsev A I, Aleksandrov A R, Petrov D M. Means to Solve the Problems of the Development of Helium Resources in Eastern Siberia[J]. IOP Conference Series. Earth and Environmental Science, 2020, 459(04): 42097.

Tyne R L, Barry P H, Cheng A, et al. Basin architecture controls on the chemical evolution and ⁴He distribution of groundwater in the Paradox Basin[J]. Earth and Planetary Science Letters, 2022, 589: 117580.

Zhang W, Li Y, Zhao F, et al. Using noble gases to trace groundwater evolution and assess helium accumulation inWeihe Basin, central China[J]. Geochimica et Cosmochimica Acta, 2019a,251:229-246.

Zhang W, Li Y, Zhao F, et al. Quantifying the helium and hydrocarbon accumulation processes using noble gases in the North Qaidam Basin, China[J]. Chemical Geology, 2019b,525: 368-379.

Zhang W, Li Y, Zhao F, et al. Granite is an Effective Helium Source Rock: Insights from the Helium Generation and Release Characteristics in Granites from the North Qinling Orogen, China[J]. Acta Geologica Sinica-English Edition, 2020,94(1):114-125.

施引文献(9)

期刊类型引用(8)

1.	章双龙，肖富强，邹勇军. 江西赣南地区地热伴生氦气资源的发现及异常成因探讨. 天然气地球科学. 2024(03): 495-506 . 百度学术
2.	李剑，王晓波，徐朱松，崔会英，王晓梅，张斌，国建英，陶士振，陈践发，谢增业，田继先，王义凤. 中国氦气资源成藏规律与开发前景. 天然气地球科学. 2024(05): 851-868 . 百度学术
3.	王海华，薛迎喜，张炜，房大任，王海华，王铭晗. 全球天然氢勘查开发最新发展态势分析. 中国地质调查. 2024(03): 1-8 . 百度学术
4.	刘祥柏，陶士振，杨秀春，赵群，陈燕燕，刘自扬，裴向兵，王龙飞，伊伟，冯建秋，张谭，高建荣，陶小晚，柳庄小雪，李超正，杨怡青，陈悦. 煤系氦气富集机理与资源潜力-以鄂尔多斯盆地东缘为例. 煤田地质与勘探. 2024(09): 49-66 . 百度学术
5.	梅小元. 安徽阜阳盆地发现富氦级别的地热水伴生氦气资源. 资源环境与工程. 2024(06): 762-765 . 百度学术
6.	李玉宏，周俊林，韩伟，魏建设. 公益性氦气资源调查研究进展. 中国地质调查. 2023(04): 1-8 . 百度学术
7.	魏泽坤，冯旭亮，马佳月，杨柳，吴传波，刘凯轩. 鄂尔多斯盆地东南部重磁场特征及其氦气勘探意义. 西北地质. 2023(05): 98-110 . 本站查看
8.	陈磊，刘宗铭，孙洁. 中国氦气市场供需形势及氦气产业发展建议. 国际石油经济. 2023(10): 76-83 . 百度学术