惠鋼

特任副研究員，學校青年拔尖人才

辦公室：主樓A座A304

E-mail：hui.gang@cup.edu.cn; luckyhuigang@163.com

個人簡介

惠鋼，男，博士，學校青年拔尖人才，特任副研究員。2021年獲卡爾加里大學石油工程專業博士學位。主要研究方向包括：非常規油氣田開發、壓裂誘發地震、油田大數據與人工智能等。主持或參與中國石油大學（北京）科研啟動項目、加拿大卓越研究基金課題、中石油“十三五”“十二五”重大專項子課題和長慶/新疆/青海/吐哈等油田橫向課題等。以第一作者在Energy/SPE Journal/JGR/Fuel等國內外高水平期刊共發表論文34篇，授權及申請發明專利4件。擔任SCI期刊Petroleum Science青年編委、Advances in Geo-Energy Research青年編委和Engeries?？妥骶?。參加SPE/AAPG等國內外知名學術會議做專題報告12次。獲國家優秀自費留學生獎學金、加拿大勘探地球物理先驅者獎、加拿大阿爾伯塔省優秀畢業生獎和北京市優秀畢業生等榮譽。

研究方向

[1] 非常規油氣開發

[2] 水力壓裂誘發地震

[3] 油田大數據與人工智能

教育背景

2017.09-2021.10，加拿大卡爾加里大學，石油工程，博士

2008.09-2011.07，中國石油勘探開發研究院研究生部，油氣田開發工程，碩士

2004.09-2008.07，中國地質大學（北京），石油工程，本科

工作經歷

2022.03 -至今， 中國石油大學（北京），特任副研究員

2021.10 - 2022.03，加拿大卡爾加里大學，博士后

2014.07 - 2018.02，中國石油勘探開發研究院開發所，工程師

2011.07 - 2014.07，中國石油勘探開發研究院儲層所，助理工程師

榮獲獎勵

[1] 國家優秀自費留學生獎學金（2022）

[2] 中國石油大學（北京）青年拔尖人才（2022）

[3] 卡爾加里大學Alberta Graduate Excellence Scholarship （2021）

[4] 加拿大勘探地球物理學會(KEGS) GSC Pioneers Scholarship（2021）

[5] 卡爾加里大學化學與石油工程系Excellence Graduate Award（2020）

[6] 卡爾加里大學化學與石油工程系Excellent Teaching Assistant Award（2020）

[7] 中國石油和化學工業聯合會科學技術項目科技進步一等獎（2017）

[8] 中國石油勘探開發研究院科學技術成果獎一等獎（2016）

[9] 第四屆中國油氣藏開發地質大會優秀論文（2016）

[10] 中國石油勘探開發研究院第一屆青年技能競賽（開發專業）一等獎（2014）

[11] 第三屆中國油氣藏開發地質大會優秀論文（2014）

[12] 中國石油勘探開發研究院第六屆青年英語學術交流會一等獎（2012）

[13] 2010年SPE亞太地區學生論文大賽優秀獎（2010）

[14] 北京市高等學校優秀畢業生（2008）

[15] 中國地質大學（北京）十佳學生（2007）

科研項目

[1] 2023/01-2025/12，Duvernay頁巖壓裂誘發地震觸發機理研究，中國石油大學（北京）, 青年拔尖人才科研啟動項目，主持

[2] 2023/03-2023/10，特低滲透油藏四維地應力場與裂縫建模，中國石油勘探開發研究院開發所，主持

[3] 2022/08-2023/08，Duvernay頁巖水力壓裂誘發地震的流體-地質力學-壓裂綜合模擬研究，中國石油勘探開發研究院亞太所，主持[4] 2017/09-2021/10， 加拿大西部盆地誘發地震預測模型開發(CFREF2017)，加拿大卓越研究基金專題，主持

[5] 2019/09-2021/09，中東孔隙型碳酸鹽巖地質建模配套技術研究，中國石油勘探開發研究院院級課題，副課題長

[6] 2016/01-2017/08， 低滲儲層裂縫網絡表征技術，中石油“十三五”油氣田開發重大項目子課題，副課題長

[7] 2015/01-2017/08，青海昆北油田切12區檢查井綜合研究，中國石油青海油田技術服務項目子課題，主持

[8] 2012/01-2014/12，特低滲透油藏水淹層測井評價及水淹規律研究，中國石油勘探開發研究院院級課題，專題長

部分代表性論文（第一作者）

[1] An integrated machine learning-based approach to identifying controlling factors of unconventional shale productivity. Energy. 266, 126512. https://doi.org/10.1016/j.energy.2022.126512. (2023)

[2] Integrated evaluations of high-quality shale play using core experiments and logging interpretations. Fuel. 341, 127679. https://doi.org/10.1016/j.fuel.2023.127679. (2023)

[3] A synthetical geoengineering approach to evaluate the largest hydraulic fracturing-induced earthquake in the East Shale Basin, Alberta. Petroleum Science. 20(1). https://doi.org/10.1016/j.petsci.2023.01.006. (2023)

[4] A machine learning-based study of multifactor susceptibility and risk control of induced seismicity in unconventional reservoirs. Petroleum Science. 20(4). https://doi.org/10.1016/j.petsci.2023.02.003. (2023)

[5] An Integrated Method to Mitigate Hazards from Hydraulic Fracturing-Induced Earthquakes in the Duvernay Shale Play. SPE Reservoir Evaluation & Engineering-Formation Evaluation. 2023, 26(2). https://doi.org/10.2118/210287-PA . (2023)

[6] Mitigating risks from hydraulic fracturing-induced seismicity in unconventional reservoirs: case study. Scientific Reports. 12, 12537. https://doi.org/10.1038/s41598-022-16693-3. (2022)

[7] Investigation on Two Mw 3.6 and Mw 4.1 Earthquakes Triggered by Poroelastic Effects of Hydraulic Fracturing Operations near Crooked Lake, Alberta. Journal of Geophysical Research: Solid Earth. 126, e2020JB020308. https://doi.org/10.1029/2020JB020308. (2021)

[8] Comprehensive characterization and mitigation of hydraulic fracturing-induced seismicity in Fox Creek, Alberta. SPE Journal. 26(5):2736-2747. https://doi.org/10.2118/206713-PA. (2021)

[9] Production forecast for shale gas in unconventional reservoirs via machine learning approach: Case study in Fox Creek, Alberta, Journal of Natural Gas Science and Engineering, 94, 104045. https://doi.org/10.1016/j.jngse.2021.104045. (2021)

[10] An integrated approach to characterize hydraulic fracturing-induced seismicity in shale reservoirs, Journal of Petroleum Science and Engineering, 196, 107624. https://doi.org/10.1016/j.petrol.2020.107624. (2021)

[11] Insights on controlling factors of hydraulically induced seismicity in the Duvernay East Shale Basin. Geochemistry, Geophysics, Geosystems, 22, e2020GC009563. https://doi.org/10.1029/2020GC009563. (2021)

[12] Influence of hydrological communication between basement-rooted faults and hydraulic fractures on induced seismicity: A case study. Journal of Petroleum Science and Engineering, 206, https://doi.org/10.1016/j.petrol.2021.109040. (2021)

[13] Role of Fluid Diffusivity in the Spatiotemporal Migration of Induced Earthquakes during Hydraulic Fracturing in Unconventional Reservoirs. Energy & Fuels, 35, 17685-17697. https://doi.org/10.1021/acs.energyfuels.1c02950. (2021)

[14] 流體-地質力學耦合建模表征水力壓裂誘發地震：以加拿大Fox Creek地區為例. 地球物理學報, 64(3):864-875. https://doi.org/10.6038/cjg2021O0267. (2021)

會議報告

[1] An Integrated Geology-Engineering Approach to Duvernay Shale Gas Development: From Geological Modeling to Reservoir Simulation. SPE Canadian Energy Technology Conference, 2023

[2] Integration of mineralogy, petrophysics, geochemistry and geomechanics to evaluate unconventional shale resources. SPE Asia Pacific Oil & Gas Conference and Exhibition, 2022

[3] An integrated method to mitigate risks from hydraulic fracturing-induced seismicity in the Duvernay shale play. SPE Annual Technical Conference and Exhibition, 2022

[4] Coupled poroelastic modeling to characterize the 4.18-magnitude earthquake due to hydraulic fracturing in the East Shale Basin of Western Canada. SPE Virtual Reservoir Simulation Conference, 2021

[5] A novel coupled approach for fracturing-induced earthquake characterization: case study. SPE Virtual Hydraulic Fracturing Technology Conference and Exhibition, 2021

[6] Coupled Flow-Geomechanics Modeling to Characterize the Hydraulic Fracturing-Induced Earthquake near Crooked Lake, Alberta. SPE Virtual Canada Unconventional Resources Conference, 2020

[7] Integration of geophysics, geomechanics and hydrodynamics to characterize induced seismicity triggered by hydraulic fracturing in the Duvernay Reservoir near Fox Creek, Alberta. 53rd US Rock Mechanics Geomechanics Symposium, New York, USA, 2019

[8] Combination of geomechanics, stress field with reservoir static and dynamic performance to characterize dynamic fractures in ultra-low permeability reservoirs. 2017 IFEDC, Beijing, 2017

[9] 第四屆中國油氣藏開發地質年會，青海敦煌（優秀論文獎），2016

[10] Integration of Geomechanics, Stress Field and Reservoir Production to Predict Dynamic Fractures Behavior of Tight Sandstone Reservoir. Lecture on AAPG|SEG 2016 ICE, Barcelona, Spain, 2016

[11] 第三屆中國油氣藏開發地質年會，山東青島（優秀論文獎），2014

[12] Facies Controlling Modeling and Prediction for Favorable Reservoirs. Lecture on Postgraduate Division at Asia Pacific Regional Student Paper Contest in 2010 APOGCE, Brisbane, Australia, 2010

專利

[1] 壓裂液注入引發斷層失穩的流固耦合模擬方法和裝置. (2023)

[2] 人工壓裂縫三維擴展模擬方法.(2022)

[3] 裂縫識別方法和裝置. (2018)

[4] 一種特低滲透油藏水淹層含水飽和度計算方法.（2017）

學術兼職

[1] SPE/AGU/SEG/ARMA/CSUR 會員

[2] Petroleum Science 期刊青年編委

[3] Advances in Geo-Energy Research期刊青年編委

[4] Engeries?？妥骶?/span>

[5] Journal of Petroleum Science and Engineering, Petroleum Science, Energy & Fuels等SCI期刊審稿人