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首席科学家。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,实现了页岩密度、孔隙压力、地质-工程甜点等多参数高精度预测。建立“古隆起差异沉降控储控藏”油气成藏模式,研发地层-岩性圈闭地球物理描述技术和基于成藏要素的区带定量评价方法,指导塔里木盆地温宿凸起高效勘探。融合声学、电性和地球化学性质建立复杂山前带圈闭含油气性综合评价技术,理清构造演化及致密储层油气成藏历史,创建“断裂主控、晚期成藏”油藏模式,明确油气藏分布规律,牵头论证部署多个风险探井获得重大突破。
跟踪全球天然氢气研究与勘探现状,构建“三位一体”勘探技术研究系列和和分阶段综合勘探流程,开展相关技术方法与装备攻关。修编全国天然氢气基础地质图件,开展重点地区氢气调查与评价,初步优选有利区带与目标,正积极开展各类科研与商业合作,实施天然氢气风险探井。
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 JinHydrogen 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 have proposed a pre-stack hybrid nonlinear inversion method for seismic data and its intelligent implementation means, which breaks through the limitations of traditional linear inversion and effectively solves the difficult problems of predicting heterogeneity and anisotropy in deep reservoirs. We have developed an inversion method for shale density parameters based on mixed-norm regularization, achieving high-precision prediction of multiple parameters such as shale density, pore pressure, and geotechnical-sweet spots. We have established the “palaeo-uplift differential subsidence control storage and control reservoir” hydrocarbon accumulation model, and developed stratigraphic-lithological trap geophysical description technology and a quantitative evaluation method for play areas based on accumulation elements, guiding efficient exploration in the Wensu Salient of the Tarim Basin. By integrating acoustic, electrical, and geochemical properties, we have established a comprehensive evaluation technology for the hydrocarbon potential of complex piedmont zone traps. We have clarified the history of structural evolution and tight reservoir hydrocarbon accumulation, created the “fault-dominated, late-stage accumulation” reservoir model, defined the distribution patterns of oil and gas reservoirs, and led the demonstration and deployment of multiple risk exploration wells that have achieved significant breakthroughs.
We have been closely monitoring the global research and exploration status of natural hydrogen, and have established a “three-in-one” exploration technology research series along with a phased comprehensive exploration process. We are currently engaged in the research and development of relevant technical methods and equipment. The basic geological map of natural hydrogen in mainland China has been revised and completed, and surveys and evaluations of hydrogen in key areas have been conducted. Preliminary optimization of favorable zones and targets has been carried out. We are actively pursuing various scientific and commercial collaborations, striving to implement risk exploration wells for natural hydrogen.