◎學習與工作經曆
2011.9-2015.7,西安交通大學,能源動力係統及自動化/工商管理(錢學森實驗班),學士
2015.9-2018.11,多倫多大學,機械與工業工程,博士
2018.12-2020.08,多倫多大學,機械與工業工程,博士後
2021.01-至今,中國石油大學(華東),必威app精裝版客服 ,教授(博導)
◎研究方向
立足於微納米流控芯片的實驗技術優勢,交叉結合微納尺度流體數值模擬、人工智能和精細化工等相關方向,探索為油氣和新能源開發提供孔隙尺度精確流體信息的方法,包括:
1. 高溫高壓微納流控芯片技術開發
2. 微納尺度流動模擬及相態理論研究
3. 油氣藏(頁岩、致密)芯片物模實驗技術開發
4. 地下儲碳儲氫問題相關的芯片物模實驗技術開發
5. 納米限域效應下的流體物性參數測試
6. 油田功能性流體合成
◎學術兼職
1. ACS, CSC, CSChE等國際學術組織會員
2. SPE多倫多大學分會副會長
3. 擔任Nano Letters, ACS Nano, Langmuir, Lab on a Chip, Nanoscale等國際學術期刊審稿人
4. 擔任Petroleum Science, Capillarity等期刊青年編委,擔任Energies客座編輯
◎主講課程
主講本科《油層物理》,研究生《滲流力學理論進展》和《滲流物理(國際班)》課程。
◎指導研究生
課題組長期招收優秀博士、碩士研究生,同時歡迎有興趣參與科研的本科同學積極聯係。專業背景要求符合工程大類(石油、機械、化工等)或數理大類(如數學、計算機等)通識基礎。博士、碩士招生專業學位:油氣田開發工程(學術型),資源與環境(工程型)。
課題組堅持以師生協同發展為導向,努力營造自由、包容、開放的學術環境,鼓勵學生自主探索交叉研究方向。同時課題組與世界知名高校,如多倫多大學、阿爾伯塔大學、奧斯丁大學、莫納什大學等保持長期合作,為優秀學生提供國際化視野、交流、深造的資源平台。 2021級 - 碩士:段華正
2022級 - 博士:王曾定、吳奇徽,碩士:丁柯瀝、王健、劉騰宇、劉善超、寧闖、董田田、胡宗文
◎承擔科研課題
主持項目:
1. 國家海外高層次人才引進計劃(青年項目),基於微納米流控芯片的致密油氣藏開發診斷技術,2022-2024
2. 國家自然科學基金麵上項目,基於納米流控芯片實驗的頁岩油藏兩相滲流微觀機理研究,2022-2025
3. 山東省優秀青年基金(海外),頁岩油氣納米流控檢測技術的開發與應用,2022-2025
4. 中國石油大學(華東)人才啟動基金,納米孔隙尺度兩相滲流機理研究,2021-2025
5. 中石化勝利油田勘探開發研究院橫向課題,東營凹陷頁岩的滲吸特征及影響因素研究,2021-2022
6. 中石化勝利油田勘探開發研究院橫向課題,高壓滲吸作用可視化及彈性開發在線核磁共振實驗測試,2022-2023
7. 中石油勘探開發研究院橫向課題,孔-縫耦合尺度下的頁岩油相變規律及流動特性,2022-2023
8. 中石油勘探開發研究院橫向課題,凝析油氣藏注空氣相態實驗,2022-2023 參與項目:
1. 加拿大國家自然科學與工程基金(NSERC),協同研發項目(CRD),Hydrocarbon phase transitions in nanochannels, 2016-2018
2. 加拿大阿爾伯塔省能源與環境創新基金(AIEES),Hydrocarbon in nanochannels: understanding transport in shale, 2017-2019
3. 美國斯倫貝謝公司合作研究項目,Nanofluidics development for experimental shale fluids study, Schlumberger Research Program, 2016-2018
4. 加拿大Eavor Technologies公司合作研究項目,Fluid screening for high efficiency closed-loop geothermal energy, 2019-2020
5. 中石化江漢油田勘探開發研究院橫向課題,鹽間頁岩油合理開發技術政策製定,2022-2023
6. 中石化江漢油田勘探開發研究院橫向課題,複興區塊頁岩油流動機理及開發技術政策研究,2022-2023
◎獲獎情況
1. Rien van Genuchten Early-Career Award of Porous Media for a Green World (2023)
2. Interpore Rosette (2023)
3. 國家優秀自費留學生獎學金 (2018)
4. William Dunbar Fellowship (2017)
5. Ron D. Venter Fellowship (2016)
6. University of Toronto Fellowship (2015-2018)
◎榮譽稱號
1. 國家特聘青年專家
2. 山東省海外優青
3. 中國石油大學(華東)光華學者
◎論文
所有論文:
https://scholar.google.com/citations?hl=en&user=cGj6yb4AAAAJ&view_op=list_works&sortby=pubdate 代表論文:
1. Zhong, J., Sinton, D.*, et al., Condensation in One-dimensional Dead-end Nanochannels. ACS Nano, 2017, 11, 304.
2. Zhong, J., Sinton, D.*, et al., Capillary Condensation in 8-nm Deep Channels. J. Phys. Chem. Lett., 2018, 9, 497.
3. Zhong, J., Sinton, D.*, et al., Nanomodel Visualization of Fluid Injections in Tight Formations. Nanoscale, 2018,10, 21994.
4. Zhong, J., Sinton, D.*, et al., Fluorescence in Sub-10 nm Channels with An Optical Enhancement Layer. Lab Chip, 2018, 18, 568.
5. Zhong, J., Sinton, D.*, et al., Nanoscale Phase Measurement for the Shale Challenge: Multicomponent Fluids in Multiscale Volumes. Langmuir, 2018, 34, 9927.
6. Zhong, J., Sinton, D.*, et al., When Robotics Met Fluidics. Lab Chip, 2020, 20, 709. (Cover Article)
7. Zhong, J., Sinton, D.*, et al., Accelerating fluid development on a chip for renewable energy. Energy Fuels, 2020, 34, 9.
8. Zhong, J., Sinton, D.*, et al., Exploring Anomalous Fluid Behavior at the Nanoscale: Direct Visualization and Quantification via Nanofluidic Devices. Acc. Chem. Res., 2020, 53, 347.
9. Zhong, J.*, et al., Simulation of water self-imbibition in nanometer throat-pore structure filled with oil. Geoenergy Sci. Eng., 2022, 221, 211370.
10. Hu, X., Zhong, J.* et al., Direct Visualization of Nanoscale Salt Precipitation and Dissolution Dynamics during CO2 Injection. Energies, 2022, 15, 9567.
11. 鍾俊傑* 等,基於納米流控技術的頁岩儲層微觀流體特征研究進展,石油學報,2023, 1, 44
◎學術交流
1. 納米流控技術在油氣開發與新能源研究上的應用, The 5th International Conference on Digital Core Analysis, 2021, CN
2. Direct Visualization of Fluid in Nanopores - Fundamental and Application in Shale with Nanofluidics, 11th Interpore Annual Meeting, 2019, ES.
3. Probing shale gas/tight oil properties in nanoconfinement: a nanofluidic approach, 68th Canadian Chemical Engineering Conference, 2018, CA.
4. Application of Micro/Nanofluidics in Energy and Chemical Engineering, 重慶大學,能源與動力學院,2018, CN.
5. Application of Micro/Nanofluidics in Energy and Chemical Engineering, 中南大學,物理與電子學院,2018, CN.
6. Nanofluidics in Detecting Confined Fluid Behavior for Shale Gas/Oil, 華東理工大學,化學工程聯合國家重點實驗室,2018, CN.
7. Probing Fluid Phase Change in Nanoconfiment with a Nanofluidic Device, Twentieth Symposium on Thermophysical Properties, 2018, U.S.
8. Nanofluidics: A Window into Unconventional Reservoirs, The Second International Conference of Microfluidics, Nanofluidics, and Lab-on-a-Chip, 2018, CN.
9. Phase Change in Extreme Nanoconfinement: Nanofluidics as a Window into Unconventional Oil and Gas Reservoirs, 5th Nano Today Conference, 2018, U.S.
10. Nanofluidics: Direct Observation of Fluid Behaviors at Sub-10 nm for Unconventional Reservoirs, 67th Canadian Chemical Engineering Conference, 2017, CA.
11. Detecting Phase Change in Extreme Confinement with Nanofluidic Device, 100th Canadian Chemistry Conference and Exhibition, 2017, CA.
12. Nanofluidics: A Window into Unconventional Oil and Gas Reservoirs, GRC Micro & Nanoscale Phase Change Heat Transfer, 2017, U.S.
13. Direct Observation of Capillary Condensation at Sub-100 nm Scale, 11th Ontario-on-a-chip Symposium, 2016, CA. |
