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曹爽
博士 讲师
常州大学金沙,江苏常州 213164
办公电话:
Email: scaocindy@cczu.edu.cn
教育背景:
2006.08-2011.06 中国石油大学 (北京),地质工程专业,理学学士
2009.07-2011.05 美国阿拉斯加大学费尔班克斯分校 (UAF),地质工程专业,理学学士
2011.08-2013.08 美国密西西比大学 (OleMiss),地质工程专业,理学硕士
2013.08-2018.05 美国路易斯安那州立大学 (LSU),土木工程专业,哲学博士
工作履历:
2021.07-至今 常州大学,讲师
2019.03-2021.07 辉固国际集团 (Fugro) 美国休斯顿总公司,岩土工程师
2018.07-2019.03 美国奥克拉荷马州立大学 (OSU),博士后
主授课程:
研究领域:
能源岩土工程-涉及可燃冰甲烷萃取及二氧化碳地质封存过程中多孔介质多相流及多孔介质中的微粒迁移行为研究
海洋岩土工程-涉及海洋桩基设计及土-桩相互作用,海洋土壤动力实验室测试,海洋地震荷载动态分析,海洋岩
土与地球物理数据综合解释,及海上浅层地质危害评估
综合岩土材料-涉及粘土矿物作用下的高阻挡材料研究
奖励与荣誉:
主要成果:
1. Victor, T.; Cao, S.C.; Flores, F.A.; Roque, D.C.; Nabor, P.B.;Normalized modulus reduction and damping ratio curves for Bay of Campeche calcareous clay to carbonate mud. Offshore Technology Conference, 2021.
2. Jang, J.; Cao, S.C.; Stern, L.A.; Waite, W.F.; Jung, J. Lee, J.Y.; Potential freshening impacts on fines migration and pore-throat clogging during gas hydrate production: 2-D micromodel study with Diatomaceous UBGH2 sediments. Marine and Petroleum Geology, Volume 116, June 2020.
3. Cao, S.C.; Jang, J.; Waite, W.F.; Jung, J.; Collett, T.S.; Kumar, P.; Clogging behavior of fine-grained sediment associated with gas hydrate production in NGHP-02 gas hydrate reservoir sediment. Marine and Petroleum Geology, SI: Gas Hydrate India NGHP-02, 2019.
4. Cao, S.C.; Jung, J.W.; Radonjic, M; Application of microfluidic pore models for flow, transport, and reaction in geological porous media: from a single test bed to multifunction real-time analysis tool. Microsystem Technologies, 2019.
5. Jung, J.; Kang. H., Cao, S.C.; Al-raoush, R.; Alshibli, K., Lee, J.Y.; Effects of fine-grained particles’ migration and clogging in porous media on gas production from hydrate-bearing sediments. Geofluids, Volume 2019, 5061216, PP11.
6. Cao, S.C.; Didie, A.; Daniel, W. B.; Radonjic, M.; Characterization of wellbore cement additive gilsonite sealing behavior with hydrocarbon interaction implication for wellbore plugging, American Geophysical Union, Fall Meeting 2018.
7. Cao, S.C.; Radonjic, M.; Application of microfluidic pore models in stem: from petroleum engineering and geoscience research to engaging educational tool. Poster Presentation, Flow and Transport in Permeable Media. GRC, 2018.
8. Jung, J.; Cao, S.C.; Shin, Y.; Al-Raoush, R., Alshibli, K.; Choi, J.WA.; Microfluidic pore model to study the migration of fine particles in single-phase and multi-phase flows in porous media. Microsystem Technologies, 2018.
9. Jang, J.; Cao, S.C.; Stern, L.A.; Waite, W.F.; Jung, J.; Impact of pore-fluid chemistry on fine-grained sediment fabric and compressibility. Journal of Geophysical Research - Solid Earth, 2018.
10.Jang, J.; Cao, S. C.; Boze, L. G.; Jung, J.; Waite, W. F.; Volume change in fine-grained sediments due to pore water salinity changes: gas hydrate-bearing sediments and pore water freshening during gas hydrate dissociation, American Geophysical Union, Fall Meeting 2018.
11.Jung, J.; Cao, S.C.; Al‑Raoush, R.I.; Alshibli, K.; Fines migration and clogging behavior in methane hydrate bearing sediments. Qatar Foundation Annual Research Conference Proceedings, Qatar 2018.
12.Cao, S.C.; Jang, J.; Waite; W.F.; Jafari, M.; Jung, J.; A 2D micromodel study of fines migration and clogging behavior in porous media: Implications of fines on methane extraction from hydrate bearing sediments. American Geophysical Union, Fall Meeting 2017.
13.Jafari, M.; Cao, S.C.; Jung, J.; Geological CO2 sequestration in saline aquifers: Implication on potential solutions of China’s power sector. Resources, Conservation and Recycling 121, 137-155, 2017.
14.Jang, J.; Cao, S.C.; Waite; W.F.; Jung, J.; Impact of pore-water freshening on clays and the compressibility of hydrate-bearing reservoirs during production. Proceedings of the 9th International Conference on Gas Hydrates, Denver, Colorado, USA, 2017.
15.Jafari, M.; Cao, S.C.; Jung, J.; Comparison of pore-scale CO2-water-glass system wettability and conventional wettability measurement on a flat plate for geological CO2 sequestration, American Geophysical Union, Fall Meeting 2017.
16.Cao, S.C.; Dai, S.; Jung, J.W.; Supercritical CO2 and brine displacement in geological carbon sequestration: micromodel and pore network simulation studies. International Journal of Greenhouse Gas Control, 44, 2016.
17.Cao, S.C.; Bate, B.; Hu, J.W.; Jung, J.; Engineering behavior and characteristics of water-soluble polymers: implication on soil remediation and enhanced oil recovery. Sustainability 2016.
18.Jung, J.; Cao, S. C; Ahn, J.A.; Characterization of biopolymer solution used for soil remediation and petroleum production. J. of Korean Society of Hazard Mitigation, 14, 2014, 109-14.
19.Cao, S.C.; Dai, S.; Jung, J.W..; CO2 Brine Displacement in Geological CO2 Sequestration: Microfluidic flow model study. American Geophysical Union, Fall Meeting 2014.
20.Holt, R.M.; Kuszmaul, J.S.; Cao, S.C.; Powers, D.W.; Evaluation of hydraulically significant discontinuities in Doc kum group mudrocks in Andrews County, Texas. American Geophysical Union, Fall Meeting 2013.
发明专利:
科研项目:
1.美国能源部国家能源甲烷水合物项目(DOE/NETL),DE-FE00-289,粘土沉积物在天然气水合物甲烷萃取过程中的压缩性和渗透性变化及影响因素研究,2016.10-2018.05,$236,127美元,结题,参与人。
2. 美国国家科学院海湾研究(NAS),20000883,以减轻释放碳氢化合物为目的用于井眼堵塞及修复高级阻挡材料研究,2017-2020,$2,614,143美元,结题,参与人。
3.卡塔尔国家研究基金(NPRP),NPRP8-594-2-244,含水合物沉积物的天然气萃取,2015-2018,$899,978美元,结题,参与人。
| 曹爽 博士 讲师 常州大学金沙,江苏常州 213164 办公电话: Email: scaocindy@cczu.edu.cn |
教育背景:
2006.08-2011.06 中国石油大学 (北京),地质工程专业,理学学士
2009.07-2011.05 美国阿拉斯加大学费尔班克斯分校 (UAF),地质工程专业,理学学士
2011.08-2013.08 美国密西西比大学 (OleMiss),地质工程专业,理学硕士
2013.08-2018.05 美国路易斯安那州立大学 (LSU),土木工程专业,哲学博士
工作履历:
2021.07-至今 常州大学,讲师
2019.03-2021.07 辉固国际集团 (Fugro) 美国休斯顿总公司,岩土工程师
2018.07-2019.03 美国奥克拉荷马州立大学 (OSU),博士后
主授课程:
研究领域:
能源岩土工程-涉及可燃冰甲烷萃取及二氧化碳地质封存过程中多孔介质多相流及多孔介质中的微粒迁移行为研究
海洋岩土工程-涉及海洋桩基设计及土-桩相互作用,海洋土壤动力实验室测试,海洋地震荷载动态分析,海洋岩
土与地球物理数据综合解释,及海上浅层地质危害评估
综合岩土材料-涉及粘土矿物作用下的高阻挡材料研究
奖励与荣誉:
主要成果:
1. Victor, T.; Cao, S.C.; Flores, F.A.; Roque, D.C.; Nabor, P.B.;Normalized modulus reduction and damping ratio curves for Bay of Campeche calcareous clay to carbonate mud. Offshore Technology Conference, 2021.
2. Jang, J.; Cao, S.C.; Stern, L.A.; Waite, W.F.; Jung, J. Lee, J.Y.; Potential freshening impacts on fines migration and pore-throat clogging during gas hydrate production: 2-D micromodel study with Diatomaceous UBGH2 sediments. Marine and Petroleum Geology, Volume 116, June 2020.
3. Cao, S.C.; Jang, J.; Waite, W.F.; Jung, J.; Collett, T.S.; Kumar, P.; Clogging behavior of fine-grained sediment associated with gas hydrate production in NGHP-02 gas hydrate reservoir sediment. Marine and Petroleum Geology, SI: Gas Hydrate India NGHP-02, 2019.
4. Cao, S.C.; Jung, J.W.; Radonjic, M; Application of microfluidic pore models for flow, transport, and reaction in geological porous media: from a single test bed to multifunction real-time analysis tool. Microsystem Technologies, 2019.
5. Jung, J.; Kang. H., Cao, S.C.; Al-raoush, R.; Alshibli, K., Lee, J.Y.; Effects of fine-grained particles’ migration and clogging in porous media on gas production from hydrate-bearing sediments. Geofluids, Volume 2019, 5061216, PP11.
6. Cao, S.C.; Didie, A.; Daniel, W. B.; Radonjic, M.; Characterization of wellbore cement additive gilsonite sealing behavior with hydrocarbon interaction implication for wellbore plugging, American Geophysical Union, Fall Meeting 2018.
7. Cao, S.C.; Radonjic, M.; Application of microfluidic pore models in stem: from petroleum engineering and geoscience research to engaging educational tool. Poster Presentation, Flow and Transport in Permeable Media. GRC, 2018.
8. Jung, J.; Cao, S.C.; Shin, Y.; Al-Raoush, R., Alshibli, K.; Choi, J.WA.; Microfluidic pore model to study the migration of fine particles in single-phase and multi-phase flows in porous media. Microsystem Technologies, 2018.
9. Jang, J.; Cao, S.C.; Stern, L.A.; Waite, W.F.; Jung, J.; Impact of pore-fluid chemistry on fine-grained sediment fabric and compressibility. Journal of Geophysical Research - Solid Earth, 2018.
10.Jang, J.; Cao, S. C.; Boze, L. G.; Jung, J.; Waite, W. F.; Volume change in fine-grained sediments due to pore water salinity changes: gas hydrate-bearing sediments and pore water freshening during gas hydrate dissociation, American Geophysical Union, Fall Meeting 2018.
11.Jung, J.; Cao, S.C.; Al‑Raoush, R.I.; Alshibli, K.; Fines migration and clogging behavior in methane hydrate bearing sediments. Qatar Foundation Annual Research Conference Proceedings, Qatar 2018.
12.Cao, S.C.; Jang, J.; Waite; W.F.; Jafari, M.; Jung, J.; A 2D micromodel study of fines migration and clogging behavior in porous media: Implications of fines on methane extraction from hydrate bearing sediments. American Geophysical Union, Fall Meeting 2017.
13.Jafari, M.; Cao, S.C.; Jung, J.; Geological CO2 sequestration in saline aquifers: Implication on potential solutions of China’s power sector. Resources, Conservation and Recycling 121, 137-155, 2017.
14.Jang, J.; Cao, S.C.; Waite; W.F.; Jung, J.; Impact of pore-water freshening on clays and the compressibility of hydrate-bearing reservoirs during production. Proceedings of the 9th International Conference on Gas Hydrates, Denver, Colorado, USA, 2017.
15.Jafari, M.; Cao, S.C.; Jung, J.; Comparison of pore-scale CO2-water-glass system wettability and conventional wettability measurement on a flat plate for geological CO2 sequestration, American Geophysical Union, Fall Meeting 2017.
16.Cao, S.C.; Dai, S.; Jung, J.W.; Supercritical CO2 and brine displacement in geological carbon sequestration: micromodel and pore network simulation studies. International Journal of Greenhouse Gas Control, 44, 2016.
17.Cao, S.C.; Bate, B.; Hu, J.W.; Jung, J.; Engineering behavior and characteristics of water-soluble polymers: implication on soil remediation and enhanced oil recovery. Sustainability 2016.
18.Jung, J.; Cao, S. C; Ahn, J.A.; Characterization of biopolymer solution used for soil remediation and petroleum production. J. of Korean Society of Hazard Mitigation, 14, 2014, 109-14.
19.Cao, S.C.; Dai, S.; Jung, J.W..; CO2 Brine Displacement in Geological CO2 Sequestration: Microfluidic flow model study. American Geophysical Union, Fall Meeting 2014.
20.Holt, R.M.; Kuszmaul, J.S.; Cao, S.C.; Powers, D.W.; Evaluation of hydraulically significant discontinuities in Doc kum group mudrocks in Andrews County, Texas. American Geophysical Union, Fall Meeting 2013.
发明专利:
科研项目:
1.美国能源部国家能源甲烷水合物项目(DOE/NETL),DE-FE00-289,粘土沉积物在天然气水合物甲烷萃取过程中的压缩性和渗透性变化及影响因素研究,2016.10-2018.05,$236,127美元,结题,参与人。
2. 美国国家科学院海湾研究(NAS),20000883,以减轻释放碳氢化合物为目的用于井眼堵塞及修复高级阻挡材料研究,2017-2020,$2,614,143美元,结题,参与人。
3.卡塔尔国家研究基金(NPRP),NPRP8-594-2-244,含水合物沉积物的天然气萃取,2015-2018,$899,978美元,结题,参与人。