陈新
职称/头衔:(高聘)副研究员、硕士生导师。
E-mail:xc11@hainanu.edu.cn
● 个人简介
陈新于2022年7月在加拿大阿尔伯塔大学取得博士学位,硕士与本科都是在中国石油大学(华东)石油工程学院完成。主要从事深海油气资源与天然气水合物开发技术与理论方面的研究。研究方向包括天然气水合物热力学模拟、海底CO2水合物封存、复杂流体多相平衡计算、深水/深层固井水泥体系制备、聚合物/表面活性剂的合成与油田应用、非常规油气藏提高采收率等。研究成果包括气-液-水-水合物多相平衡算法、改进位移的状态方程、适用于深海低温的固井水泥浆体系、宽温度工作范围的热增粘聚合物、提高致密性油藏采收率的泡沫体系等。已发表学术论文20余篇,其中SCI文章16篇,参与国家级、省部级项目4项。
● 研究方向
1) 天然气水合物热力学理论;
2) 海底CO2封存技术;
3) 复杂流体多相平衡计算;
4) 非常规油气藏提高采收率;
3) 深水/深层固井水泥体系。
● 科研项目与课题
1.海南大学, 科研启动经费项目,深海CO2水合物封存的相态演变研究,KYQD(ZR)-21170, 2023-01 至 2027-12, 10万元, 项目,主持。
2.海南大学, 青年教师科研培育项目,海底CO2水合物封存的相态研究,XJ2300003520, 2023-04 至 2025-04, 3万元, 项目,主持。
3. 加拿大自然基金委员会,加拿大国家自然科学基金(Natural Sciences and Engineering Research Council of Canada). Robust and accurate equation of state framework for modeling phase behavior of reservoir fluids under extreme pressure/temperature conditions, NSERC RGPIN-2020-04571, 20万加元,项目,参与。
4. 中华人民共和国科学技术部,国家油气重大专项专题,强化煤层胶结与低伤害的固井技术研究,2016ZX05044, 2016-01 至 2020-12, 142.14万元, 项目,参与。
5. 中华人民共和国科学技术部,国家油气重大专项专题,复杂地层钻井液防塌技术对策及纳米微乳液冲洗技术研究,2016ZX05020, 2016-01 至 2020-12, 200.35万元, 项目,参与。
6. 中华人民共和国科学技术部,山东省自然基金(面上),高温高密度水泥浆恒稳调控方法及其作用机理研究,ZR2017ME E 056,2017-08 至 2020-06, 14万元, 项目,参与。
● 科研奖励
1. 山东省优秀硕士学位论文:热增粘聚合物合成及对水泥浆沉降稳定性的影响研究, 山东省教育厅, 2019.
2. 硕士研究生国家奖学金, 中华人民共和国教育部, 2017.
3. 国家留学基金委(CSC)博士生留学奖学金奖学金(201806450029), 中华人民共和国教育部, 2018.
● 论文与专著
1. Xin Chen, Huazhou Li*. A novel four-phase equilibrium calculation algorithm for water/hydrocarbon systems containing gas hydrates. Chemical Engineering Science, 267 (2023): 118284.
2. Xin Chen, Huazhou Li*. New pragmatic strategies for optimizing Kihara potential parameters used in van der Waals-Platteeuw hydrate model. Chemical Engineering Science, 248 (2022): 117213.
3. Xin Chen, Chengwen Wang*, Yucheng Xue, Zehua Chen, Jianzhou Jin, Ruihe Wang. A novel thermo-thickening viscosity modifying admixture to improve settlement stability of cement slurry under high temperatures. Construction and Building Materials, 295 (2021): 123606.
4. Xin Chen, Huazhou Li*. Improved prediction of saturated and single-phase liquid densities of water through volume-translated SRK EOS. Fluid Phase Equilibria, 528 (2021): 112852.
5. Xin Chen, Huazhou Li*. An improved volume-translated SRK equation of state dedicated to more accurate determination of saturated and single-phase liquid densities. Fluid Phase Equilibria, 521 (2020): 112724.
6. Xin Chen, Chengwen Wang*, Yanji Wang, Huan Wang, Ruihe Wang. Prevention strategy of cement slurry sedimentation under high temperature. Part 1: A polymer with continuous thermo-thickening behavior from 48oC to 148oC. Journal of Physical Chemistry C, 123 (2019): 18573-18584.
7. Xu Li*, Chunsheng Pu, Xin Chen*. Improved foam stability through the combination of silica nanoparticle and thixotropic polymer: An experimental study. Journal of Molecular Liquids, 346 (2022): 117153.
8. Hai Huang, Tayfun Babadagli, Xin Chen*, Huazhou Li, Yanming Zhang. Performance comparison of novel chemical agents for mitigating water-blocking problem in tight gas sands. SPE Reservoir Evaluation & Engineering, 23 (2020): 1150-1158.
9. Hai Huang, Tayfun Babadagli, Xin Chen*, Huazhou Li. Performance comparison of novel chemical agents in improving oil recovery from tight sands through spontaneous imbibition. Petroleum Science, 17 (2020): 409-418.
10. Xu Li, Xin Chen, Zhenhua Xu, Chunsheng Pu*. A novel foam flooding for enhanced oil recovery in fractured low-permeability reservoirs: Performance evaluation and mechanism study. SPE Journal, 27 (2022): 2408-2424.
11. Xu Li, Chunsheng Pu*, Xin Chen, Feifei Huang, Heng Zheng. Study on frequency optimization and mechanism of ultrasonic waves assisting water flooding in low-permeability reservoirs. Ultrasonics-Sonochemistry, 70 (2021): 105291.
12. Xu Li, Chunsheng Pu*, Xin Chen. A novel foam system stabilized by hydroxylated multiwalled carbon nanotubes for enhanced oil recovery: Preparation, characterization and evaluation. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 632 (2022): 127804.