博士,正高级(教授级)工程师,自然资源部高层科技创新人才(地质矿产方向),中国地质调查局“优秀地质人才(第四批)”。中国地质大学(北京)和(武汉)研究生校外导师,国家留学基金委地球物理评审专家,《中国地质》首届青年编委。内蒙古金氢地质勘探有限公司总地质师。曾任自然资源部中国地质调查局油气资源调查中心基础地质室副主任(主持工作),北京博士后联谊会理事、宣传部副部长。长期从事天然氢气、石油天然气地质-地球物理综合方法研究与应用。
提出地震资料叠前混合非线性反演方法及其智能实现手段,突破传统线性反演的局限,有效解决深部储层非均质性和各向异性预测难题。研发基于混合范数正则化的页岩密度参数反演方法,实现页岩密度、孔隙压力、地质-工程甜点等多参数高精度预测。融合声学、电性和地球化学性质建立复杂山前带圈闭刻画与含油气性评价技术,建立“古隆起差异沉降控储控藏”等系列成藏模式,理清盆山结合部油气成藏分布。先后在塔里木盆地温宿-柯坪、三门峡盆地等地区部署实施5口风险探井均获油气重大发现,支撑自然资源部完成多轮油气勘查区块出让,成交总额近百亿元。
开展天然氢气及多能源、多矿种成藏模式、探采方法、目标优选与资源评价攻关,参与创建了天然氢气“源-运-储-盖”动态成藏模式及全过程模拟平台,研发基于遥感、地震、非地震等资料的天然氢气成藏要素智能表征算法,构建了基于遥感成像、地面物化探和随钻监测的“三位一体”综合勘探技术系列与数据分析平台,编制全国-重点地区天然氢气成藏要素评价系列基础图件,率先完成我国10余省重点地区天然氢气调查,优选松辽、二连、鄂尔多斯盆地等有利区带8-10个,落实目标3-5个。2025年,牵头论证实施了中国首口与第二口天然氢气科学探井——金氢科探1、金氢科探2井,获得重要发现。将持续开展战略性新兴能源资源地质-地球物理攻关,推进理论实践结合,推动我国绿色能源开发利用。
Ph.D., Senior Engineer (Professor Level), a high-level scientific and technological innovation talent in the field of geological minerals at the Ministry of Natural Resources, and a recipient of the “Outstanding Geological Talent (4th Batch)” award from the China Geological Survey. Off-campus supervisor for graduate students at China University of Geosciences (Beijing and Wuhan), a geophysical review expert for the China Scholarship Council, and a member of the first Youth Editorial Board of “Geology in China”. Chief Scientist at Inner Mongolia Golden Hydrogen Geological Exploration Co., Ltd. Former Deputy Director (in charge) of the Basic Geology Room at the Oil and Gas Resources Survey Center of the China Geological Survey, Ministry of Natural Resources, Council Member and Deputy Minister of the Publicity Department of the Beijing Postdoctoral Federation. Engaged in the research and application of comprehensive methods in natural hydrogen, petroleum, and natural gas geology and geophysics for an extended period.
We proposed a pre-stack hybrid nonlinear inversion method for seismic data and its intelligent implementation approaches, breaking through the limitations of traditional linear inversion and effectively resolving the challenges in predicting the heterogeneity and anisotropy of deep reservoirs. We developed an inversion method for shale density parameters based on hybrid-norm regularization, enabling the high-precision prediction of multiple parameters including shale density, pore pressure, and geological-engineering sweet spots. By integrating acoustic, electrical, and geochemical properties, we established techniques for trap characterization and hydrocarbon-bearing property evaluation in complex foreland belts. Furthermore, we formulated a series of hydrocarbon accumulation models, such as “differential subsidence of paleo-uplifts controlling reservoirs and accumulation,” and elucidated the distribution of hydrocarbon accumulation in basin-marginal transition zones. We successively deployed and implemented five risk exploration wells in the Wensu-Kalpin area of the Tarim Basin and the Sanmenxia Basin, all of which achieved major hydrocarbon discoveries. These achievements supported the Ministry of Natural Resources in conducting multiple rounds of oil and gas exploration block tenders, with a total transaction value reaching nearly 10 billion CNY.
We have conducted pioneering research on the accumulation models, exploration and production methods, target optimization, and resource evaluation of natural hydrogen, as well as multi-energy and multi-mineral resources. We participated in establishing the dynamic “source-migration-reservoir-seal” accumulation model and a full-process simulation platform for natural hydrogen. We developed intelligent characterization algorithms for natural hydrogen accumulation elements based on remote sensing, seismic, and non-seismic data, and constructed a “trinity” comprehensive exploration technology series and data analysis platform integrating remote sensing imaging, surface geophysical and geochemical exploration, and measurement-while-drilling (MWD) monitoring. We also compiled a series of foundational evaluation maps for natural hydrogen accumulation elements at both national and key regional levels. Taking the lead, we completed natural hydrogen surveys in key areas across more than 10 provinces in China, optimizing 8 to 10 favorable zones in the Songliao, Erlian, and Ordos basins, and identifying 3 to 5 specific targets. In 2025, we led the justification and implementation of China’s first and second natural hydrogen scientific exploration wells—JQKT-1 and JQKT-2—yielding significant discoveries. We will continue to carry out geological-geophysical research on strategic emerging energy resources, promote the integration of theory and practice, and advance the development and utilization of green energy in China.