代表性学术论文:
Zhu J, Zheng N, Yang Z. Experimental study on the foam-stabilizing advantages and foam stabilization mechanism of novel microbial polysaccharides, Journal of Molecular Liquids, 2023, 385: 122428. (SCI二区)
Zhu J*, Zhou J, Yang Z, et al. Experimental study on the in-situ foam performance stabilized by microbial polysaccharide and its diverting characteristics at high temperature[J]. Journal of Molecular Liquids, 2023: 121184.(SCI二区)
Zhu J*, Li X, Yang Z, et al. Drying characteristics of oil shale under microwave heating based on a fully coupled three-dimensional electromagnetic-thermal-multiphase transport model. Fuel, 2022, 308, 121942. (SCI一区)
Zhu J*, Da C, Chen J, et al. Ultrastable N2/water foams stabilized by dilute nanoparticles and a surfactant at high salinity and high pressure[J]. Langmuir, 2022, 38(18): 5392-5403.(SCI二区)
Zhu J, Yi L*, Yang Z, et al. Three-dimensional numerical simulation on the thermal response of oil shale subjected to microwave heating. Chemical Engineering Journal, 2021, 407: 127197. (SCI一区)
Zhu J, Yi L*, Yang Z, et al. Numerical simulation on the in situ upgrading of oil shale reservoir under microwave heating. Fuel, 2021, 287: 119553. (SCI一区)
Zhu J*, Xie S, Yang Z, et al. A review of recent advances and prospects on nanocellulose properties and its applications in oil and gas production. Journal of Natural Gas Science and Engineering, 2021, 104253. (SCI二区)
Zhu J, Yang Z*, Li X, et al. Settling behavior of the proppants in viscoelastic foams on the bubble scale. Journal of Petroleum Science and Engineering, 2019, 181: 106216.
Zhu J, Yang Z*, Li X, et al. Experimental study on the microscopic characteristics of foams stabilized by viscoelastic surfactant and nanoparticles. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2019, 572: 88-96.
Luo D, Wang F, Zhu J, et al. Nanofluid of graphene-based amphiphilic Janus nanosheets for tertiary or enhanced oil recovery: High performance at low concentration. Proceedings of the National Academy of Sciences, 2016, 113(28): 7711-7716. (美国科学院院刊,Google学术被引量260次)
李小刚, 李佳霖. 朱静怡*等. 超临界二氧化碳压裂液降阻剂体系优选, 天然气工业, 2023, 43(4): 103-115
杨兆中,朱静怡*,李小刚等. 纳米颗粒稳定泡沫在油气开采中的研究进展, 化工进展, 2017, 36(05): 1675-1681. (中文EI)
杨兆中,朱静怡*,李小刚等. 微波加热技术在非常规油资源中的研究现状与展望, 化工进展, 2016, 35(11): 3478-3483.(中文EI)
代表性国际会议论文:
Zhu J, Wang H, Yang Z, et al. Thermal Stimulation on Enhanced Coalbed Methane Recovery Under Microwave Heating Based on a Fully Coupled Numerical Model. SPE Canadian Energy Technology Conference, Alberta, Canada, 2022.
Zhu J, Yang Z, Li X, et al. The effect of microwave irradiation on coal for enhanced gas recovery of Coalbed Methane. Unconventional Resources Technology Conference (URTEC), Denver, USA, 2019.
Zhu J, Yang Z, Li X. Settling behavior of the proppant in viscoelastic foams at high temperature, 93rd ACS Colloid & Surface Science Symposium, Atlanta, USA, 2019.
Zhu J, Yang Z, Li X, et al. Synergistic effect between wormlike micelles and nanoparticles in stabilizing foams for high temperature stimulation. SPE Russian Petroleum Technology Conference, Moscow, Russia, 2018.
代表性发明专利:
朱静怡, 杨兆中, 李小刚, 等. 一种耐高温胶囊酸的制备方法及其超远程酸压工艺,CN115873586,2023-10-03
朱静怡,李小刚,谌光熊,等. 一种评价自生泡沫暂堵分流效果的装置及方法,CN114441715B, 2023-09-01
朱静怡, 杨兆中,李小刚,等. 一种微波降阶梯式原位加热开采油页岩的方法,CN111594119N, 2022-4-29
朱静怡, 杨兆中,李小刚,等. 一种用于提高稠油采收率的电磁加热方法, CN111594118B, 2022-6-30
朱静怡, 杨兆中,李小刚,等. 一种油页岩与煤互层协同原位开采的方法, CN113236212B, 2022-03-29
杨兆中, 朱静怡, 李小刚, 等. 一种泡沫压裂液携砂能力评价装置及工作方法, CN109211912B, 2021-08-10
杨兆中, 朱静怡, 李小刚, 等. 水平井造缝方法及地下油页岩开采油气的方法, CN106978998B, 2020-10-02
杨兆中, 朱静怡, 李小刚,等. 一种清洁泡沫压裂液及其制备方法, CN106281292B, 2019-03-29 |
