高之業(yè)?研究員(教授) 博士生導(dǎo)師
高之業(yè) 研究員(教授) 博士生導(dǎo)師
電子郵箱:gaozhiye@163.com
個(gè)人基本信息
男,漢族,,博士生導(dǎo)師/碩士生導(dǎo)師,,中共黨員,。
教育背景
2010年8月至2014年5月,, 美國德克薩斯大學(xué)阿靈頓分校地球與環(huán)境科學(xué)系 ,,博士,,導(dǎo)師:Dr. Qinhong Hu (胡欽紅教授),。
2005年9月至2009年7月,南京大學(xué)地球科學(xué)與工程學(xué)院,,地球化學(xué)專業(yè),,本科。
工作經(jīng)歷
2023年7月至今,, 中國石油大學(xué)(北京)非常規(guī)油氣科學(xué)技術(shù)研究院,,研究員(教授)
2016年7月至2023年6月, 中國石油大學(xué)(北京)非常規(guī)油氣科學(xué)技術(shù)研究院,,副研究員
2014年9月至2016年6月,,中國石油大學(xué)(北京)非常規(guī)天然氣研究院,助理研究員
研究方向
非常規(guī)油氣儲(chǔ)層評(píng)價(jià),,主要開展微納米孔隙結(jié)構(gòu)表征,、儲(chǔ)層潤濕性,、孔隙連通性、油氣富集機(jī)制等研究工作,。
學(xué)術(shù)任職
《Marine and Petroleum Geology》副主編 [2017年至今]
《AAPG Bulletin》 副主編 [2021-2022年]
《Petroleum Science》 副主編 [2021-2023年]
《石油科學(xué)通報(bào)》副主編 [2023年至今]
獎(jiǎng)項(xiàng)方面
1. 入選“愛思唯爾2022中國高被引學(xué)者”,。
2. 2022年獲中國發(fā)明協(xié)會(huì)發(fā)明創(chuàng)業(yè)獎(jiǎng)創(chuàng)新獎(jiǎng)一等獎(jiǎng)(項(xiàng)目名稱:非常規(guī)油氣儲(chǔ)層成巖-成孔機(jī)制與儲(chǔ)集能力定量評(píng)價(jià)關(guān)鍵技術(shù)及應(yīng)用;個(gè)人排名為2/6),。
3. 2022年獲北京市科學(xué)技術(shù)獎(jiǎng)自然科學(xué)獎(jiǎng)二等獎(jiǎng)(項(xiàng)目名稱:頁巖納米孔隙結(jié)構(gòu)及流體賦存機(jī)制研究,;個(gè)人排名為8/8)。
4. 2021年獲綠色礦山科學(xué)技術(shù)獎(jiǎng)科技進(jìn)步一等獎(jiǎng)(項(xiàng)目名稱:川南五峰—龍馬溪組頁巖氣富集機(jī)理及評(píng)價(jià)關(guān)鍵技術(shù),;個(gè)人排名為9/15),。
5. 2020年獲中國石油和化工自動(dòng)化應(yīng)用協(xié)會(huì)科技進(jìn)步獎(jiǎng)一等獎(jiǎng)(項(xiàng)目名稱:南方海相頁巖成儲(chǔ)-成藏機(jī)理及評(píng)價(jià)技術(shù)與應(yīng)用;個(gè)人排名為8/15),。
6. 2019年獲中國石油和化學(xué)工業(yè)聯(lián)合會(huì)科技進(jìn)步獎(jiǎng)一等獎(jiǎng)(項(xiàng)目名稱:中國西部陸相致密油成藏富集機(jī)理及其應(yīng)用成效,;個(gè)人排名為13/15)。
科研項(xiàng)目
1. 頁巖儲(chǔ)層孔隙結(jié)構(gòu)演化及其潤濕性對(duì)流體運(yùn)移的影響(41972145),,國家自然科學(xué)基金面上項(xiàng)目,,主持,起止時(shí)間:2020.01.01-2023.12.31,。
2. 頁巖儲(chǔ)層基質(zhì)孔隙連通性及其定量評(píng)價(jià)方法(41502125),,國家自然科學(xué)基金青年科學(xué)基金,主持,,起止時(shí)間:2016.01.01-2018.12.31,。
3. 瑪湖凹陷風(fēng)城組頁巖油成藏富集機(jī)理及可動(dòng)性評(píng)價(jià)研究,,中石油戰(zhàn)略合作科技專項(xiàng),,專題負(fù)責(zé)人,起止時(shí)間:2020.01.01-2024.12.31,。
4. 非常規(guī)油氣富集機(jī)制與地球物理甜點(diǎn)識(shí)別(U1562215),,國家自然科學(xué)基金石油化工聯(lián)合基金(A類)重點(diǎn)支持項(xiàng)目, 任務(wù)負(fù)責(zé)人,起止時(shí)間:2016.01.01 -2019.12.31,。
5. 不同類型頁巖氣生成機(jī)理與富集規(guī)律研究(2016ZX05034-001),,國家科技重大專項(xiàng),項(xiàng)目骨干,,起止時(shí)間:2016.01.01-2020.12.31,。
6. 五峰-龍馬溪組富有機(jī)質(zhì)頁巖儲(chǔ)層精細(xì)表征與頁巖氣成藏機(jī)理(2017ZX05035-002),國家科技重大專項(xiàng),,項(xiàng)目骨干,,起止時(shí)間:2017.01.01-2020.12.31。
7. 永樂8區(qū)周緣油氣運(yùn)移模擬及成藏機(jī)制研究,,中海石油(中國)有限公司湛江分公司,,主持,,起止時(shí)間:2019年12月至2021年3月。
8. 低滲區(qū)油氣來源及充注過程分析測(cè)試,,中海石油(中國)有限公司湛江分公司,,主持,起止時(shí)間:2017年8月至2019年3月,。
論文,、專利及專著
1. 第一作者發(fā)表論文21篇,其中SCI論文17篇,。
[1] Zhiye Gao, Longfei Duan, Zhenxue Jiang, et al., 2023. Using laser scanning confocal microscopy combined with saturated oil experiment to investigate the pseudo in-situ occurrence mechanism of light and heavy components of shale oil in sub-micron scale. Journal of Petroleum Science and Engineering, 220, 111234.(SCI)
[2] Zhiye Gao, Shuling Xiong, Lin Wei, 2022. The new multistage water adsorption model of Longmaxi Formation shale considering the spatial configuration relationship between organic matter and clay minerals. Petroleum Science, 19, 1950-1963.(SCI)
[3] Zhiye Gao, Qixiang Xuan, Qinhong Hu, et al. 2021. Pore structure evolution characteristics of continental shale in China indicated from thermal simulation experiments. AAPG Bulletin, 105(11), 2159-2180.(SCI)
[4] Zhiye Gao, Yupeng Fan, Qinhong Hu, et al.2020. The effects of pore structure on wettability and methane adsorption capability of Longmaxi Formation shale from the southern Sichuan Basin in China. AAPG Bulletin, 104(6), 1375-1399.(SCI)
[5] Zhiye Gao and Qinhong Hu.2018. Pore structure and spontaneous imbibition characteristics of marine and continental shales in China. AAPG Bulletin, 102(10),1941-1961. (SCI)
[6] Zhiye Gao and Qinhong Hu.2016. Wettability of Mississippian Barnett Shale samples at different depths: Investigations from directional spontaneous imbibition. AAPG Bulletin, 100(1),101-114. (SCI)
[7] Zhiye Gao, Zhu Liang, Qinhong Hu, et al. 2021. A new and integrated imaging and compositional method to investigate the contributions of organic matter and inorganic minerals to the pore spaces of lacustrine shale in China. Marine and Petroleum Geology, 127, 104962. (SCI)
[8] Zhiye Gao, Yupeng Fan, Qinhong Hu, et al.2019. A review of shale wettability characterization using spontaneous imbibition experiments. Marine and Petroleum Geology,109, 330-338. (SCI)
[9] Zhiye Gao, Xibing Yang, Chenhui Hu, et al.2019. Characterizing the pore structure of low permeability Eocene Liushagang Formation reservoir rocks from Beibuwan Basin in northern South China Sea. Marine and Petroleum Geology,99,107-121. (SCI)
[10] Zhiye Gao, Shuo Yang, Zhenxue Jiang, et al.2018.Investigating the spontaneous imbibition characteristics of continental Jurassic Ziliujing Formation shale from the northeastern Sichuan Basin and correlations to pore structure and composition. Marine and Petroleum Geology,98,697-705. (SCI)
[11] Zhiye Gao and Qinhong Hu. 2016.Initial water saturation and imbibition fluid affect spontaneous imbibition into Barnett shale samples. Journal of Natural Gas Science and Engineering, 34,541-551. (SCI)
[12] Zhiye Gao and Shuling Xiong.2021. Methane Adsorption Capacity Reduction Process of Water-Bearing Shale Samples and Its Influencing Factors: One Example of Silurian Longmaxi Formation Shale from the Southern Sichuan Basin in China. Journal of Earth Science, 32(4), 946-959. (SCI)
[13] Zhiye Gao, Longfei Duan, Qinhong Hu, et al.2021. Effect of shale sample particle size on pore structure obtained from high pressure mercury intrusion porosimetry. Geofluids, Article ID 5581541, 15 pages.(SCI)
[14] Zhiye Gao, Qinhong Hu, Shoichiro Hamamoto.2018. Using multi-cycle mercury intrusion porosimetry to investigate hysteresis phenomenon of different porous media. Journal of Porous Media,21(7),607-622. (SCI)
[15] Zhiye Gao and Qinhong Hu.2015. Investigating the effect of median pore-throat diameter on spontaneous imbibition. Journal of Porous Media, 18(12),1231-1238. (SCI)
[16] Zhiye Gao, Qinhong Hu, Hecheng Liang. 2013. Gas diffusivity in porous media: Determination by mercury intrusion porosimetry and correlation to porosity and permeability. Journal of Porous Media, 16(7), 607-617. (SCI)
[17] Zhiye Gao and Qinhong Hu. 2013. Estimating permeability using median pore-throat radius obtained from mercury intrusion porosimetry. Journal of Geophysics and Engineering, 10(2), 025014. (SCI)
[18] Zhiye Gao and Qinhong Hu. 2012. Using spontaneous water imbibition to measure the effective permeability of building materials. Special Topics & Reviews in Porous Media: An International Journal, 3(3),209-213.
[19] Zhiye Gao, Yupeng Fan, Qixiang Xuan, et al. 2020. A review of shale pore structure evolution characteristics with increasing thermal maturities. Advances in Geo-Energy Research, 4, 247-259.
[20] 高之業(yè), 熊書苓,,成雨,等. 2021. 川南地區(qū)龍馬溪組頁巖儲(chǔ)層水接觸角及其穩(wěn)定性影響因素.特種油氣藏, 28(5), 10-16.
[21] 高之業(yè), 范毓鵬, 胡欽紅, 等, 2020. 川南地區(qū)龍馬溪組頁巖有機(jī)質(zhì)孔隙差異化發(fā)育特征及其對(duì)儲(chǔ)集空間的影響.石油科學(xué)通報(bào), 5(1), 1-16.
2. 通訊作者文章8篇,。
[1] Zhiwei Wang, Zhiye Gao*, Wenjun He, et al., 2023. Using Spontaneous Imbibition to Evaluate the Hydrocarbon Migration and Accumulation Potential of Shale Reservoirs: A Case Study of the Permian Fengcheng Formation in the Mahu Sag, Junggar Basin. Energy & Fuels, 37, 360-372.(SCI)
[2] Shuling Xiong, Zhiye Gao*, Weihang Wei, et al., 2023. Differential effects of pore structure of mineral and maceral components on the methane adsorption capacity evolution of the lower jurassic Da’anzhai member of the Ziliujing Formation lacustrine shale, Sichuan Basin, China. Marine and Petroleum Geology, 147, 106017.(SCI)
[3] Weihang Wei, Zhiye Gao*, Zhenxue Jiang, et al., 2022. The comparative study of shale pore structure between outcrop and core samples of Ziliujing Formation shale from the northeastern Sichuan Basin in China. Energy Reports, 8, 8618-8629.(SCI)
[4] Weihang Wei, Zhiye Gao*, Qinhong Hu, et al., 2022. The Multitype Pore Structure Evolution Characteristics of Ziliujing Formation Shale from the Northeastern Sichuan Basin in China: Experimental Study Using Small Angle Neutron Scattering Technology. Energy & Fuels, 36, 12533-12543.(SCI)
[5] Lin Wei, Zhiye Gao*, Maria Mastalerz, et al. 2019. Influence of water hydrogen on the hydrogen stable isotope ratio of methane at low versus high temperatures of methanogenesis. Organic Geochemistry, 128, 137-147.
[6] Kun Zhang, Zhenxue Jiang*, Xuelian Xie, Zhiye Gao *, et al. 2018. Lateral percolation and its effect on shale gas accumulation on the basis of complex tectonic background. Geofluids, vol 2018, Article ID 5195469.
[7] Kun Zhang, Zhenxue Jiang*, Lishi Yin, Zhiye Gao *, et al. 2017. Controlling functions of hydrothermal activity to shale gas content-taking lower Cambrian in Xiuwu Basin as an example. Marine and Petroleum Geology, 85, 177-193.
[8] 鄭國偉,,高之業(yè)*,黃立良,,等.2022. 準(zhǔn)噶爾盆地瑪湖凹陷二疊系風(fēng)城組頁巖儲(chǔ)層潤濕性及其主控因素.石油與天然氣地質(zhì),43(5),1206-1220.
3. 以第一發(fā)明人授權(quán)國家發(fā)明專利7項(xiàng),。
[1] 一種定量表征頁巖儲(chǔ)層巖石潤濕性的方法和裝置, 專利號(hào)ZL201810431064.5;
[2] 頁巖三維接觸角及潤濕非均質(zhì)性評(píng)價(jià)系統(tǒng), 專利號(hào)ZL201910428652.8,;
[3] 滲吸切割一體化的頁巖滲吸裝置和滲吸效率參數(shù)確定方法, 專利號(hào)ZL201910681469.9,;
[4] 一種用于去除巖樣中無機(jī)碳的預(yù)處理裝置, 專利號(hào)ZL201811337731.X;
[5] 巖石樣品研磨與分離裝置與方法, 專利號(hào)ZL201911080431.2.
[6]一種頁巖動(dòng)態(tài)滲吸裝置和確定動(dòng)態(tài)滲吸影響結(jié)果的方法, 專利號(hào)ZL202011229052.8
[7]一種頁巖儲(chǔ)層潤濕性評(píng)價(jià)方法及裝置, 專利號(hào)ZL202011176488.5
4. 以第一作者出版專著1部,。
[1]頁巖氣賦存狀態(tài)轉(zhuǎn)化機(jī)理與定量評(píng)價(jià). 石油工業(yè)出版社,,2021.