»姓名:张锋 | »系属:测井系 | |
»学位:博士 | »职称:教授 | |
»专业:地质资源与地质工程 | »导师类别:博士生导师 | |
zhfxy_cn@upc.edu.cn | ||
»联系电话: | ||
»通讯地址:山东省青岛市黄岛区长江西路66号beat365官网手机中文版(华东)beat365官网手机中文版 | ||
»概况 | ||
◎研究方向 核测井理论方法、剩余油饱和度评价技术、非常规油气中子测井评价技术、核测井仪器研发与应用等。 ◎教育经历 (1)2005.9~2008.6 地质资源与地质工程专业研究生,博士,beat365官网手机中文版; (2)1998.9~2001.6 粒子物理与原子核物理专业研究生,硕士,兰州大学; (3)1987.9~1991.7 物理教育专业本科,学士,曲阜师范大学。 ◎工作经历 2011.12~至今,beat365官网手机中文版(华东)beat365官网手机中文版,教授 2005.6-2011.12,beat365官网手机中文版(华东)beat365官网手机中文版,副教授; 2001.6-2005.6,beat365官网手机中文版(华东)beat365官网手机中文版,讲师; 1991.7-1998.9,石油大学(华东)附属中学,教师。 ◎学术兼职 中国地球物理学会核地球物理专业委员会学术副主任、中国核学会核工业应用分会理事、中国地球物理学会井孔地球物理专业委员会委员、中国石油学会测井专业委员会委员、SPWLA中国东部分会主席;《测井技术》和《同位素》编委。 ◎主讲课程 《原子核物理》、《非电法测井》、《核测井》、《电磁场论》、《测井方法与综合解释》等。 ◎指导研究生及博士后 指导博士研究生11人、硕士研究生40余人;袁超2011年获评beat365官网手机中文版“第六届学术十杰”;刘军涛、陈前获“校级优秀博士论文”;获国家奖学金3人(刘军涛、田立立、陈前)、SPWLA奖学金2人(陈前、梁启轩)。
◎承担项目 (1)国家自然科学基金面上项目:“基于伽马-伽马反符合的随钻地层元素测井方法研究”,2022.1-2025.12,主持; (2)国家自然科学基金面上项目:“致密气层快中子散射双粒子探测方法研究”,2020.1-2023.12,主持; (3)国家自然科学基金面上项目:“页岩油气储层压裂非放射性粒子双谱示踪测井方法研究”,2016.1-2019.12,主持; (4)国家自然科学基金面上项目:“页岩油气储层矿物和有机碳及含气量中子测井方法研究”,2013.1-2017.12,主持; (5)国家自然科学基金面上项目:“随钻脉冲中子双孔隙度测井方法基础研究”,2009.1-2011.12,主持; (6)国家自然科学基金面上项目:“脉冲中子双谱饱和度测井方法基础研究”,2008.1-2010.12,主持; (7)国家重大科技专项子课题:“水平井放射性测井响应正演模拟方法研究”,2017.1-2020.12,主持; (8)国家重大科技专项专题:“随钻可控源核测井方法研究”,2011.1-2015.12,主持; (9)国家油气专项:“地层常见元素中子伽马谱数值模拟及解谱方法研究”,2011.12-2012.12,主持; (10)国家科技部863项目:“多功能脉冲中子能谱测井关键技术研究”,2007.1-2011.12,主持子任务; (11)中石油创新基金:“可控中子源核能谱多参数测井方法研究”,2013.1-2015.12,主持; (12)山东省自然基金:“脉冲中子地层元素能谱测井方法基础研究”,2012.7-2015.7,主持; (13)山东省自然基金:“脉冲中子-中子-伽马饱和度测井方法基础研究”,2007.7-2010.7,主持; (14)中石油勘探研究院:“可控中子地层元素测井仪器研制”,2013.05-2015.12,主持; (15)中海油田服务股份有限公司:“热中子成像仪测井解释方法研究”,2018.01-2020.12,主持; (16)中海油田服务股份有限公司:“RPM测井技术环空流体校正及解释方法研究”,2013.9-2014.12,主持; (17)中石油测井有限公司塔里木分公司:“FLeX无化学源地层元素测井资料解释方法”,2016.9-2017.12,主持; (18)学校自主创新项目:“致密油储层PGNAA测井机理及解释方法研究”,2014.5-2016.6,主持; (19)中国石油集团测井有限公司技术中心:“可控源核测井数值模拟及数据处理方法研究”,2012.5-2014.12,主持; (20)中国电子科技集团公司第二十二研究所:“高分辨率密度测井响应及数据处理方法研究”,2014.8-2015.7,主持; (21)中国石油化工股份有限公司胜利油田分公司勘探开发研究院:“砂砾岩岩相测井识别与评价方法”,2020.5-2020.12,主持; (22)中国石油化工股份有限公司胜利油田分公司孤东采油厂:“找水监测优化方法研究”,2017.6-2017.12,主持; (23)中石化胜利石油工程有限公司测井公司:“地层元素测井仪器参数设计及谱解析方法”,2014.7-2014.12,主持; (24)中石化胜利石油工程有限公司测井公司:“密度测井仪探头优化设计”,2014.11-2014.12,主持; (25)中石化胜利石油工程有限公司测井公司: “随钻中子孔隙度测井数据处理及校正方法”,2012.9-2013.6,主持; (26)中国石化集团胜利石油管理局测井公司:“复杂储层饱和度测井新方法研究与应用”,2012.9-2013.6,主持.
◎获奖情况 (1)面向新时代应对新需求,传统优势学科“油气地学”人才培养体系改革与实践,山东省,教学成果一等奖; (2)多功能可控中子源测井新方法及关键技术,中国石油和化学工业联合会,科技进步奖,二等奖,2018.11 (3)同位素石油测井关键技术及应用,河南省,科技进步奖,一等奖,2013.01; (4)脉冲中子双谱剩余油动态监测技术及工业化应用,山东省,科技进步奖,三等奖,2012.11; (5)多功能脉冲中子能谱测井技术与应用,中国石油化工集团公司,中石化科技进步二等奖,2012.12; (6)储层剩余油饱和度动态监测技术开发及应用,山东省教育厅,高等学校优秀科技成果奖,一等奖,2011.12; (7)脉冲中子双谱饱和度测井技术,东营市政府,科技进步二等奖,2011.08; (8)脉冲中子测井基础理论及应用解释方法研究,山东省教育厅,高等学校优秀科研成果三等奖,2005.12。
◎荣誉称号 2010年,入选学校“青年教师人才建设工程”拔尖人才;2011年获学校优秀教师称号;优秀班主任。
◎著作 (1)《地球物理测井方法与原理》,石油工业出版社,2022年; (2)《核地球物理基础》,石油工业出版社,2015年。
◎论文 (1)Qiu F, Zhang F, Zhang X, et al. A study on characteristics of background gamma spectrum from LaCl3 detector in pulsed neutron logging [J]. Applied Radiation and Isotopes,2023, 195:110738. (SCI) (2)Zhang F, Fan J, Qiu F, et al. An enhanced accuracy method to determine oil saturation by carbon/oxygen logging in tight reservoirs[J]. Geophysics, 2022, 87(2):21-31. (SCI) (3)Zhang F, Chen Q, Liu J, et al. A quantitative calculation method for fracture density using the neutron self-shielding modification and neutron-induced gamma logging[J]. Geophysics, 2022, 87(3):91-100. (SCI) (4)范继林,张锋,田立立,等. 二氧化碳气驱稠油层脉冲中子含气量监测方法[J].石油勘探与开发, 2021,48(6):1232-1240. (SCI) (5)Zhang F, Fan J, Liu Y, et al. A new algorithm for evaluating reservoir density based on X-ray logging technology[J]. Applied Radiation and Isotopes,2021, 175:109793. (SCI) (6)陈前,张锋,梁启轩,等. 基于微扰理论的伽马#伽马密度测井快速正演方法[J]. 2022, 65(4):1528-1535. (SCI) (7)Tian L, Zhang F, Wu Z, et al. A new diffusion effect correction method in pulsed neutron capture logging[J]. Journal of Petroleum Science and Engineering, 2021, 204: 108673.(SCI) (8)Chen Q, Zhang F, Qiu F, et al. Quantitatively determining gas content using pulsed neutron logging technique in closed gas reservoir[J]. Journal of Petroleum Science and Engineering, 2020 (SCI) (9)Chen Q, Zhang F, Liu Y, et al. A multi-parameter fracture inversion method based on thermal neutron detection technology[J]. Journal of Petroleum Science and Engineering, 2020. (SCI) (10)Zhang, Q., Zhang, F., Yuan, C., et al. A comparative study on the neutron-gamma density and gamma-gamma density logging. Journal of Petroleum Science and Engineering, 2019, 176: 792-799. (SCI) (11)Quanying Zhang,Feng Zhang,Juntao Liu,Xinguang Wang,Qian Chen,Liang Zhao, Lili Tian, YangWang. A method for identifying the thin layer using the wavelet transform of density logging data. Journal of Petroleum Science and Engineering , 2018,160:433-441.(SCI) (12)Tian L, Zhang F, Liu J, et al. Monte Carlo simulation of Cu, Ni and Fe grade determination in borehole by PGNAA technique[J]. Journal of Radioanalytical and Nuclear Chemistry, 2018, 315(1): 51-56. (SCI) (13)Zhang, Q., Zhang, F., Gardner, R. P., et al. A method for determining density based on gamma ray and fast neutron detection using a Cs2LiYCl6 detector in neutron-gamma density logging. Applied Radiation and Isotopes, 2018, 142: 77-84.(SCI) (14)Zhang, F., Zhang, Q., Gardner, R. P., et al. Quantitative monitoring of CO2 sequestration using thermal neutron detection technique in heavy oil reservoirs.International Journal of Greenhouse Gas Control, 2018, 79: 154-164. (SCI) (15)Tian L, Zhang F, Wang X, et al. Logging method for formation water salinity determination by PGNAA technology[J]. Journal of Radioanalytical and Nuclear Chemistry, 2018, 318(2): 1143-1149. (SCI) (16)Zhang Q, Zhang F, Liu J, et al. A Method of Determining Formation Density Based on Fast-Neutron Gamma Coupled Field Theory[J]. Petrophysics, 2017,58(04): 411-425.(SCI) (17)FengZhang,Quanying Zhang,Juntao Liu,Xinguang Wang,He Wu,Wenbao Jia, Yongzhou Ti, Fei Qiu, Xiaoyang Zhang, A method to describe inelastic gamma field distribution in neutron gamma density logging. Applied Radiation and Isotopes, 2017, 129:189-195.(SCI) (18)FengZhang, HeWu, Xinguang Wang, Guoli Wu,Wenbao Jia ,Yongzhou Ti. Compact shielding design of a portable 241Am–Be source. Applied Radiation and Isotopes, 2017, 128: 49-54.(SCI) (19)HeWu, FengZhang, Hongbo Guo, YiXin, Zhongyue Han .Impact of focused gamma ray beam angle on the response of density logging tool. Applied Radiation and Isotopes 123 (2017) 102–108.(SCI) (20)Zhang F, Tian L, Liu J, et al. Numerical simulation on scintillator detector response for determining element content in PGNAA system[J]. Journal of Radioanalytical and Nuclear Chemistry, 2017, 311(2): 1309-1314.(SCI) (21)Juntao Liu ,Feng Zhang ,Robin P.Gardner, Guojing Hou, Quanying Zhang, Yan Zhang,XianghuiLi ,HuLi,CongHu .A method to improve the sensitivity of neutron porosity measurement based on DT source. Journal of Natural Gas Science and Engineering, 2016, 33: 879-884.(SCI) (22)C Yuan, C Zhou, F Zhang,S Hu, C Li. A novel method for quantitative geosteering using azimuthal gamma-ray logging. Applied Radiation and Isotopes, 2015, 96: 63-70.(SCI) (23)Liu J, Zhang F, Gardner R P, et al. A method to evaluate hydraulic fracture using proppant detection[J]. Applied Radiation and Isotopes, 2015, 105: 139-143. (SCI) (24)J Liu, F Zhang, X Wang, F Han, Z Yuan. Numerical study on determining formation porosity using a boron capture gamma ray technique and MCNP. Applied Radiation and Isotopes, 2014, 94: 266-271.(SCI) (25)Feng Z, Jun-tao L. Monte Carlo simulation of PGNAA system for determining element content in the rock sample. Journal of Radioanalytical and Nuclear Chemistry, 2014, 299(3): 1219-1224.(SCI) (26)Zhang F, Liu J, Yuan C. Monte Carlo simulation for determining gas saturation using three-detector pulsed neutron logging technology in tight gas reservoir and its application. Applied Radiation and Isotopes, 2013, 78: 51-56.(SCI) (27)张锋,袁超, 王新光. 脉冲中子双伽马谱饱和度测井方法及数值模拟研究[J].地球物理学报, 2010, 53(10): 2527-2533.(SCI) (28)张锋, 徐建平, 胡玲妹, 等. PNN 测井方法的蒙特卡罗模拟结果研究[J]. 地球物理学报,2007, 50(6): 1924-1930.(SCI) (29)张锋,孔祥忠.14MeV中子引起的Pb(n,x)203Hg,W(n,x)182Ta和W(n,x)183Ta的核反应截面测量[J].高能物理与核物理, 2003, 27(1): 28-30.(SCI) (30)张锋, 孔祥忠, 蒲忠胜, 等.14MeV中子引起的185Re (n, 2n)184g, mRe和191Ir (n, 2n) 190Ir的核反应截面测量[J].高能物理与核物理, 2002, 26(7): 678-682.(SCI) (31)邱飞,张锋,张慧,等.利用背散射伽马射线确定套管厚度的模拟研究[J]. 2022, 46(5):59-65. (EI) (32)陈前, 张锋, 张泉滢, 等. 基于热中子探测评价裂缝的示踪剂特性研究[J]. beat365官网手机中文版学报: 自然科学版, 2020, 44(2): 52-57.(EI) (33)张锋,陈前,刘军涛,张泉滢,李向辉,遆永周.井周压裂裂缝Gd示踪的热中子探测方法研究[J].地球科学,2018,43(10):3799-3808.(EI) (34)张锋,李亚芬,信毅,苏波,吴赫,张泉滢,刘军涛。基于X射线和伽马源的密度测井数值模拟研究[J]. beat365官网手机中文版学报: 自然科学版,2018,42(1): 60-66.(EI) (35)张泉滢, 张锋, 王玉伟, 等. 随钴中子伽马密度测井的双源距含氢指数校正方法[J]. beat365官网手机中文版学报: 自然科学版, 2017, 41(4): 78-84.(EI) (36)刘军涛, 张锋, 张泉滢, 等. 低孔隙度储层碳氧比测井灵敏度提高方法[J]. beat365官网手机中文版学报: 自然科学版, 2016, 40(6): 57-62.(EI) (37)张锋,田立立,刘军涛,等. 地层元素测井中探测器响应数值模拟研究[J]. 原子能科学技术, 2016, 50(11): 2067-2074.(EI) (38)张锋, 袁超, 刘军涛, 等. 随钻脉冲中子—伽马密度测井响应数值模拟[J].地球科学(中国地质大学学报),2013, 5:024.(EI) (39)Feng Z, Chao Y, Juntao L, et al. Simulation on the method of determining remaining oil saturation by measuring dual pulsed neutron parameters. SPE Reservoir Characterization and Simulation Conference and Exhibition. Society of Petroleum Engineers, 2011.(EI) (40)张锋, 董经利, 贾岩,等.水平井随钻C/O能谱测井影响因素的蒙特卡罗模拟研究[J].石油勘探与开发,2010,37(4):2-0.(EI) (41)张锋.我国脉冲中子测井技术发展综述[J].原子能科学技术,2009,43(S1):116-123.(EI) (42)张锋, 王新光. 脉冲中子-中子测井影响因素的数值模拟[J]. beat365官网手机中文版学报: 自然科学版, 2009, 33(6): 46-51.(EI) (43)张锋, 王新光. 脉冲中子全能谱测井闪烁探测器响应特性的蒙特卡罗模拟[J]. 原子能科学技术, 2009, 43(1): 90-96.(EI) (44)张锋, 张高龙. 蒙特卡罗方法在中子活化在线分析系统设计中的应用[J]. 原子能科学技术, 2006, 40(4): 480-485.(EI)(45)张锋,首祥云,张绚华.碳氧比能谱测井中能谱及探测器响应的数值模拟[J].石油大学学报:自然科学版,2005,29(2):34-37.(EI) (46)张锋, 孔祥忠. 几个(n, 2n) 核反应激发函数的评价[J]. 石油大学学报: 自然科学版, 2003, 27(2): 128-131.(EI)
Spwla国际会议论文: (1)Zhang H, Zhang F, Qiu F, et al. A Method for Determining Formation Porosity From Gamma Ray Energy and Time Spectrum Induced by Pulsed Neutron in Cased Well. SPWLA 64th Annual Logging Symposium, 2023. (2)Liang Q, Zhang F, Zhang H, et al. A Novel Oil Saturation Evaluation Method by Using Double Particle Detector Cs2LiYCl6:Ce(CLYC). SPWLA 64th Annual Logging Symposium, 2023. (3)Liu Z, Zhang F, Zhang X, et al. A New Method to Improve the Calculation Accuracy of Element Content in Natural Gamma Spectrometry Logging While Drilling. SPWLA 64th Annual Logging Symposium, 2023. (4)Liu Z, Zhang F, Liang X, et al. A New Uranium Imaging Technique Based on Four-Detector LWD Natural Gamma Ray Spectrometry Logging Apparatus. SPWLA 63rd Annual Logging Symposium, 2022. (5)Fan J, Zhang F, Tian L, et al. A Monitoring CO2 Method by the Dual Cross Section Pulsed Neutron Logging Technology in Heavy Oil Reservoirs. SPWLA 63rd Annual Logging Symposium, 2022. (6)Liang Q, Zhang F, Fan J, et al. A Novel Gamma-Thermal Neutron Evaluating Gas Saturation Method Using Pulsed Neutron Logging Tool With Dual-CLYC. SPWLA 63rd Annual Logging Symposium, 2022. (7)Qiu F, Zhang F, Liu Z, et al. Machine Learning for Determining Remaining Oil Saturation Based On C/O Spectral Logging in Multilayer String Cased Well. SPWLA 63rd Annual Logging Symposium, 2022. (8)Zhang F, Zhang H, Qiu F, et al. A Quantitatively Determining Gas Saturation Method Using Pulsed-Neutron Element Logging in Tight Gas Reservoirs. SPWLA 63rd Annual Logging Symposium, 2022. (9)Fan J, Zhang F, Chen X, et al. A Well Cementation Evaluation Method by the Azimuthal Gamma Combination With the Acoustic Logging in Horizontal Well. SPWLA 63rd Annual Logging Symposium, 2022. (10)Zhang F, Qiu F, Fang Q, et al. An Accurately Determining Porosity Method from Pulsed-Neutron Element Logging in Unconventional Reservoirs. SPWLA 62nd Annual Logging Symposium, 2021. (11)Liang Q, Zhang F, Zhang X, et al. Can a New Double Particle Detector-CLYC (Cs2LiYCl6: Ce) Be Used in PN Logging for Tight Gas Evaluation? SPWLA 62nd Annual Logging Symposium, 2021. (12)Chen Q, Zhang F, Tian L, et al. An Enhanced Method for Crack Evaluation Utilizing Neutron Gamma Tracer Imaging Logging Technology in Carbonate Reservoir. SPWLA 62nd Annual Logging Symposium, 2021. (13)Zhang F, Zhang Q, Tian L, et al. Monitoring CO2 Saturation Using Three-Detector PNC Logging Technique for CO 2 EOR in Heavy Oil Reservoir. SPWLA 60th Annual Logging Symposium, 2019. (14)Tian L, Zhang F, Zhang Q, et al. A Neutron-Induced Gamma-Ray Spectroscopy Logging Method for Determining Formation Water Salinity. SPWLA 60th Annual Logging Symposium, 2019. (15)Chen Q, Zhang F, Liu J, et al. A New Borehole Gamma Ray Imaging Method To Determine Hydraulic Fracture Using Gd Neutron Tracer Logging. SPWLA 58th Annual Logging Symposium, 2017. (16)Liu J, Zhang F, Zhou C, et al. Methods for evaluating elemental concentration and gas saturation by a three-detector pulsed-neutron well-logging tool. SPWLA 58th Annual Logging Symposium, 2017.
◎专利 (1)张锋;陈前;张笑瑒;田立立;邱飞.一种基于中子活化分析自屏蔽校正的裂缝密度定量计算方法. ZL202011275616.1,中国. (2)张锋;陈前;邱飞;田立立;王振.一种基于双谱联合的纯净非弹伽马能谱获取方法.ZL201911305602.7,中国. (3)张锋;范继林;田立立;陈前;张笑瑒.一种基于脉冲中子测井的快中子散射截面表征方法. ZL202010571427.2,中国. (4)张锋;邱飞;陈前;田立立.一种用于氯化镧探测器测量本底扣除的方法. ZL202010545573.8,中国. (5)张锋;范继林;陈前;宋灏辰.一种基于牛顿迭代法的密度测井六参数反演计算方法. ZL202010912748.4,中国. (6)张锋;邱飞;田立立;陈前.一种基于硼中子俘获的井下套管损伤探测方法. ZL202011143534.1,中国. (7)张锋;邱飞;张慧;范继林.一种元素产额与热中子计数比组合的孔隙度测量方法. ZL202110398026.6,中国. (8)张锋;田立立;李亚芬;王阳;赵靓;邱飞;陈前.一种基于X射线源的密度测井方法. ZL201810033536.1,中国. (9)张锋;陈前;张笑瑒;刘英明;田立立.一种基于微扰理论的伽马密度快速计算方法。ZL201910617338.4,中国. (10)张锋;张泉滢;刘军涛;陈前;田立立.一种基于新型n-γ双粒子探测器的中子伽马密度测井方法. ZL201710608808.1,中国. (11)张锋;邱飞;赵靓;田立立;陈前.一种利用元素伽马能谱测井识别气层的方法. ZL201811323041.9,中国. (12)张锋;陈前;刘军涛;张泉滢;田立立;张笑瑒;遆永周;李向辉.一种利用Gd中子示踪产额成像评价近井压裂裂缝的方法.ZL201710608786.9,中国. (13)刘军涛;张锋;张泉滢;遆永周;李向辉;田立立;陈前.一种可控中子三探测器元素测井装置及方法.ZL201710608789.2,中国. (14)张锋;田立立;刘军涛;赵靓;张泉滢;张笑瑒;遆永周;李向辉.一种井中铜镍矿产品位测量装置及方法.ZL201710615018.6,中国. (15)张锋;吴赫;张泉滢;王新光;刘军涛.一种基于散射能谱双能窗计算岩石密度的方法.ZL201610049010.3,中国. (16)张锋;张泉滢;刘军涛;吴赫;陈前;赵靓.一种利用快中子场分布表征的中子伽马密度测井方法.ZL201611077415.4,中国. (17)刘军涛;张锋;张泉滢;吴赫;田立立;王新光.一种用于确定剩余油饱和度的碳氧比值计算方法.ZL201610008112.0,中国. (18)张锋;刘军涛;张泉滢;王新光.一种利用支撑剂探测确定压裂裂缝高度的方法,ZL201510240219.3,中国. (19)马焕英;周良文;杨玉卿;张锋;王新光;张洪洋.RPM-C/O测井消除环空内流体影响的方法,ZL201510703486.X,中国. (20)遆永周;张锋;李向辉;闫永杰;吕晓华;李灿然;邓刚;华成武;王晓慧.一种核壳型放射性标记碳化硅压裂支撑剂制备方法.ZL201410594045.6,中国. (21)张锋;刘军涛;王新光;韩飞;元哲珑;于华伟.基于可控中子源的双LaBr3探测器元素能谱测井仪及测井方法.ZL201310545336.1,中国. (22)张锋;袁超. 一种方位伽马测量方法及设备.ZL201210167670.3,中国. (23)张锋;袁超;刘军涛. 一种用于致密气藏评价的脉冲中子测井方法及设备.ZL201210168075.1,中国. (24)张锋;袁超;刘军涛. 基于可控中子源的随钻多参数测井方法,ZL201110439082.6,中国 (25)遆永周;张锋;华成武;吕晓华;邓刚;朱玉坤.一种放射性同位素载体耐压测试方法.ZL201110283797.7,中国. (26)遆永周;张锋;吕晓华;邓刚;华成武;孟闯.一种放射性同位素示踪剂制备方法.ZL201110057628.1,中国. (27)遆永周;张锋;邓刚;吕晓华;华成武;孟闯.一种放射性同位素示踪剂井下释放器.ZL201120395003.1,中国. (28)黄隆基;张锋;房文静;汪永安;杨联会;张德民;杨连会;董谦;石丽云.脉冲中子双谱饱和度测井方法.ZL200710018164.7,中国. (29)黄隆基;张锋;房文静;汪永安;杨联会;张德民;杨连会;董谦;石丽云.核测井数据多尺度处理方法.L200710018165.1,中国.(30)黄隆基;张锋;房文静;汪永安;杨联会;张德民;杨连会;董谦;石丽云.脉冲中子双谱-示踪剩余油饱和度测井方法.ZL200710018835.X,中国. |