陳冬,中國石油大學(北京),副教授
基本介紹
- 中文名:陳冬
- 職稱:副教授
教育與工作經歷:
2015-,中國石油大學(北京),副教授
2014-2015,中國石油大學(北京),講師
2012-2014,倫敦帝國理工學院(Imperial College London),助理研究員
2010-2011,澳大利亞聯邦科學與工業研究組織(CSIRO),訪問
2008-2012,西澳大利亞大學(The University of Western Australia),博士
所在系所: 油氣井工程系
研究方向: 智慧型導鑽、非常規天然氣開發、多場耦合仿真、石油工程共享AI與雲計算
教學情況: 鑽井工程(本科),石油工程專業英語(本科),Advanced Drilling Engineering
論文著作:
期刊論文
[1] Chen D., Ye Z.*, Pan Z., Zhou Y., Zhang J., 2017. A permeability model for the hydraulic fracture filled with proppant packs under combined effect of compaction and embedment. Journal of Petroleum Science and Engineering 149, 428-435. (SCI)
[2] Chen D. *, Pan Z., Shi J.Q., Si G., Ye Z., Zhang J., 2016. A novel approach for modelling coal permeability during transition from elastic to post-failure state using a modified logistic growth function. International Journal of Coal Geology 163, 132-139. (SCI)
[3] Chen D.*, Pan Z., Ye Z., Hou B., Wang Di, Yuan L., 2016. A unified permeability and effective stress relationship for porous and fractured reservoir rocks. Journal of Natural Gas Science and Engineering 29, 401-412. (SCI)
[4] Chen D., Pan Z.*, Ye Z., 2015. Dependence of gas shale fracture permeability on effective stress and reservoir pressure: Model match and insights. Fuel 139, 383-392. (SCI)
[5] Chen D., Shi J.Q.*, Durucan S., Korre A., 2014. Gas and water relative permeability in different coals: model match and new insights. International Journal of Coal Geology 122, 37-49. (SCI)
[6] Chen D., Shi J.Q.*, Durucan S., Korre A., 2014. Gas and water relative permeability in different coals: model match and new insights. International Journal of Coal Geology 122, 37-49. (SCI)
[7] Chen D., Pan Z.*, Liu J., Connell L.D., 2012. Characteristic of anisotropic coal permeability and its impact on optimal design of multi-lateral well for coalbed methane production. Journal of Petroleum Science and Engineering 88-89, 13-28. (SCI)
[8] Chen D., Pan Z.*, Liu J., Connell L.D., 2012. Modeling and simulation of moisture effect on gas storage and transport in coal seams. Energy Fuels 26, 1695-1706. (SCI)
[9] Ye Z., Chen D.*, Pan Z., Zhang G., Xia Y., Ding X., 2016. An improved Langmuir model for evaluating methane adsorption capacity in shale under various pressures and temperatures. Journal of Natural Gas Science and Engineering 31, 658-680. (SCI)
[10] Ye Z., Chen D.*, Pan Z., 2015. A unified method to evaluate shale gas flow behaviours in different flow regions. Journal of Natural Gas Science and Engineering 26, 205-215. (SCI)
[11] Ye Z., Chen D.*, Wang J.G., 2014. Evaluation of the non-Darcy effect in coalbed methane production. Fuel 121, 1-10. (SCI)
[12] Xia Y., Jin Y.*, Chen K.P., Chen M., Chen D., 2017. Simulation on gas traonsport in shale: The coupling of free and adsorbed gas. Journal of Natural Gas Science and Engineering 41, 112-124. (SCI)
[13] Hou B.*, Zeng C., Chen D., Fan M., Chen M., 2017. Prediction of wellbore stability in conglomerate formation using discrete element method. Arabian Journal for Science and Engineering 42, 1609-1619. (SCI)
[14] Hou B.*, Zheng X., Chen M., Ye Z., Chen D., 2016. Parameter simulation and optimization in channel fracturing. Journal of Natural Gas Science and Engineering 35, 122-130.(SCI)
[15] Liu J.*, Chen Z., Elsworth D., Qu H., Chen D., 2011. Interactions of multiple processes during CBM extraction: A critical review. International Journal of Coal Geology 87, 175-189. (SCI)
[16] 陳冬*, 陳健, 葉智慧, 侯冰, 2018. 中外《鑽井工程》本科生課程教材選用情況調研. 教育教學論壇 40, 157-160.
[17] 陳冬*, 侯冰, 葉智慧, 盧運虎, 2016. 德州農工大學鑽井工程研究生課程情況研究. 石油教育 02, 103-106.
[18] Chen D., Shi J.Q., Durucan S., Korre A., Syed A., 2014. Remediation of CO2 leakage using pressure gradient reversal method: a numerical modelling study. Energy Procedia 63, 4630-4637.
[19] 葉智慧, 王海雲, 陳冬, 安永生, 2017. 中美海洋油氣開採工程課程對比研究. 大學教育 02, 33-36.
[20] Shi J.Q., Korre A., Chen D., Govindan R., Durucan S., 2014. A methodology for CO2 storage system risk and uncertainty assessment. Energy Procedia 63, 4750-4757.
[21] 侯冰, 陳冬, 2017. 國外高校如何提高岩石力學研究所實驗裝置的研發能力. 實驗技術與管理 32, 268-271.
[22] 侯冰, 陳冬, 2017. 鑽井工程全英文教學時中外學生聯合教學模式探討. 大學教育 03, 97-102.
[23] 侯冰, 陳冬, 金衍, 2016. 高等鑽井工程全英文教學探索與實踐. 大學教育 11, 83-85.
[24] 薛茹鏡*, 陳冬, 吳婧姝, 2008. 土壓平衡盾構排土量控制分析. 工業建築 S1, 965-967.
[25] 江玉生*, 陳冬, 王春河, 楊志勇, 劉品, 2007. 土壓平衡盾構雙螺旋輸送機力學機理簡析. 隧道建設27, 15-18.
[26] 江玉生*, 王春河, 陳冬, 楊志勇, 2007. 土壓平衡盾構螺旋輸送機力學模型簡析. 力學與實踐 29, 50-53.
會議論文
[1] Chen D., Ye Z.*, Pan, Z., Wang D., 2016. Quantitative assessment of methane sorption capacity on coal and methane under ternary influences of pressure, temperature and moiture content. International Conference on Geo-mechanics, Geo-energy and Geo-resources (IC3G), Melbourne, Australia.
[2] Chen D.*, Pan Z., Ye Z., Hou B., Wang D., Yuan L., 2015. A generalized permeability and effective stress relationship for porous and fractured reservoir rocks. China Shale Gas, Wuhan, China.
[3] Chen D., Shi J.Q.*, Durucan S., Korre A., Syed A., 2014. Remediation of CO2 leakage using pressure gradient reversal method: a numerical modelling study. International Conference on Greenhouse Gas Technologies (GHGT-12), No. 292, Austin, TX, United States.
[4] Chen D., Shi J.Q.*, Syed A., Durucan S., Korre A., 2013. Pressure gradient reversal for site remediation. Annual Scientific Conference, No. 25, GFZ, Potsdam, Germany.
[5] Chen D., Liu J.*, Pan Z., Connell L.D., 2012. Forecast of gas production from coal seams: The impact of effective permeability. 46th U.S. Rock Mechanics/Geomechanics Symposium, ARMA 12-332, Chicago, Illinois, U.S.
[6] Chen D., Liu J.*, Pan Z., Connell L.D., 2011. Mechanisms of fluid displacement in coal seams: theory and applications. The 4th International Conference on Couple T-H-M-C Processes in Geosystems (GeoProc2011), Perth, Western Australia, Australia.
[7] Chen D., Liu J.*, Pan Z., Connell L.D., 2010. Coalbed methane production: Why coal permeability matters. SPE Asia Pacific Oil and Gas Conference and Exhibition, SPE-133328-MS, Brisbane, Queensland, Australia.
[8] Chen D., Liu J.*, Wang J.G., Pan Z., 2009. In-situ numerical testing of CO2 sequestration in coal: Impact of residual water. Asia Pacific Coalbed Methane Symposium and China Coalbed Methane Symposium, Xuzhou, Jiangsu, China.
[9] 陳冬*, 張佳亮, 2017. 複雜條件下氣藏滲流能力數學表征. 中國石油學會第十屆青年學術年會.
[10] 張佳亮, 陳冬*, 葉智慧, 努莎, 龔珂, 2017. 多分支水平井滲流COMSOL APP模型開發. COMSOL年會.
[11] 張佳亮, 陳冬*, 高添鑫, 2017. 熱-流-變形耦合模型對稠油開採的預測研究. 中國力學大會, MS039-3387-P.
[12] 葉智慧, 龔珂, 陳冬*, 張佳亮, 2017. 納米孔隙氣體運移能力評價方法. 中國地質學會2017年學術年會.
[13] Ye Z., Chen D.*, Pan Z., Hou B., Zheng X., 2016. Evaluation of non-Darcy effect on CO2 sequestration in coal seams. International Conference on Geo-mechanics, Geo-energy and Geo-resources (IC3G), Melbourne, Australia.
[14] Ye Z., Chen D.*, Pan Z., Zhang G., Xia Y., Ding X., 2015. An improved binary Langmuir model for evaluating gas adsorption capacity in shale under various pressures and temperatures. China Shale Gas, Wuhan, China.
[15] Zhang J., Li S., Chen D., Li G., Ye Z., 2018. Study on prediction of ROP based on random forest. SEG Maximizing Asset Value through Artificial Intelligence and Machine Learning Workshop, Beijing, China.
[16] Zhu D., Wang C., Chen D., Ye Z., Lian Y., 2017. Real-time haze monitoring based on social sensors. International Conference on Applied Mathematics, Modeling and Simulation, No. 6342, Shanghai, China.
[17] Wu, Q., Zhu D., Wang C., Ye Z., Chen D., 2017. DEM data based stratigraphic visualization modeling. International Conference on Applied Mathematics, Modeling and Simulation, No. 6349, Shanghai, China.
[18] 劉昊, 朱丹丹, 陳冬, 葉智慧, 2018. 基於聚類算法的岩性預分類方法研究. 2018國際石油石化技術會議, IPPTC-20181934, 北京, 中國.
[19] 朱丹丹, 劉溢, 劉昊, 陳冬, 葉智慧, 2018. 基於地層層序的智慧型導鑽算法研究. 2018國際石油石化技術會議, IPPTC-20181937, 北京, 中國.
[20] 葉智慧*, 寧禹強, 陳冬, 張佳亮, 2017. 海底管線周圍流場分析. COMSOL年會, 北京, 中國.
[21] Shi J.Q.*, Chen D., Govindan R., Korre A., Durucan S., 2013. A methodology for CO2 storage system risk and uncertainty assessment. Annual Scientific Conference, No. 23, GFZ, Potsdam, Germany.
[22] Shi J.Q.*, Korre A., Chen D., Govindan R., Durucan S., 2014. A methodology for CO2 storage system risk and uncertainty assessment. International Conference on Greenhouse Gas Technologies (GHGT-12), No. 296, Austin, TX, United States.
[23] Shi J.Q.*, Babaei M., Chen D., Govindan R., Korre A., Durucan S., 2013. Flow modelling of CO2 injection into Tr?ndelag Platform and a synthetic field in Halten Terrace, offshore mid-Norway. SiteChar Closing Conference, IFPEN RueilMalmaison, France.
會議主題報告
[1] Uncover the mystery of fluid transport in unconventional rocks by mathematical models. 4th International Symposium on Unconventional Geomechanics, Shenyang, China, October 16-17 2017.
[2] Absolute and relative permeability for fractured unconventional reservoir rocks: Model development and insight. 2nd International Workshop on Unconventional THMC Processes, Wuhan, China, November 25-26 2014.
在研項目:
[1] 地質模態與導向鑽進知識庫。項目編號:XDAXX040402。中國科學院戰略性先導科技專項(A類)子課題,主持。(2017-2021)
[2] 共採過程中緻密氣、頁岩氣、煤層氣三氣運移機理。項目編號: 51811530306。國家自然科學基金國際(地區)合作與交流項目,主持。(2018-2020)
[3] 考慮支撐劑壓實和嵌入雙重作用的壓裂裂隙滲透率模型研究。項目編號:51604283。國家自然科學基金委青年基金,主持。(2017-2019)
[4] 非常規儲層滲透率各向異性特性研究。項目編號:z2018096。油氣資源與探測國家重點實驗室青年人才培育課題,主持。(2016-2018)
[5] 多重影響因素作用下頁岩氣體吸附能力研究。項目編號:2462014YJRC060。中國石油大學(北京)引進人才科研啟動基金,主持。(2015-2017)
[6] CO2CARE-CO2 Site Closure Assessment Research, No. ENERGY.2010.5.2-3256625, Funded by the European Commission under the Seventh Framework Programme(歐盟第七框架計畫),參與。(2011-2013)
科研教學獎勵:
[1] ESI高被引論文:Chen D., Pan Z.*, Ye Z., 2015. Dependence of gas shale fracture permeability on effective stress and reservoir pressure: Model match and insights. Fuel 139, 383-392. 2015
[2] 山東高等學校優秀科研成果獎,一等獎,(4/5),2015
[3] Outstanding reviewer, Journal of Natural Gas Science and Engineering,2015.
[4] CSIRO Flagship Top Up Scholarship, CSIRO,2018-2012.
[5] Scholarship for International Research Fees China (IRFSC),Top-Up Scholarship for China SIRF scholarships,The University of Western Australia,2008-2012.
社會與學術兼職:
Energy Fuels; Journal of Natural Gas Science and Engineering;
Journal of Petroleum Science and Engineering;
Transport in Porous Media;
International Journal of Oil, Gas and Coal Technology等多個期刊審稿人
