基本信息 | 姓名 | 菅永军 | ||
---|---|---|---|---|
系室 | 数学系 | |||
职称 | 教授 | |||
联系方式 | 见学院黄页 | |||
电子邮件 | jianyj@dhu.edu.cn | |||
研究方向 | 应用数学、流体力学,包括微纳尺度流体力学、非牛顿流体力学、水动力学和流动的稳定性、热质传输等。 | |||
个人简介 | 菅永军,男,汉族,1974年生,民盟盟员,内蒙古大学数学科学学院教授,博士生导师。2003年获中国科学院力学研究所流体力学专业博士学位。 2020年当选第十一届流体力学专业委员会微纳尺度流动专业组组员,第十一届流体力学专业委员会非牛顿流体力学专业组组员。现任内蒙古数学学会理事,曾任山东省声学学会副理事长,中山大学第三层次百人计划入选者。国家自然基金通讯评审专家,2014年和2021年受聘内蒙古大学学校、学部和教授三级委员会委员。担任多个国内外著名杂志,如 Journal of Fluid Mechanics, Physics of fluids, International Journal of Heat and Mass Transfer,《物理学报》等的审稿人。主持包括国家自然基金面上项目等科研项目10余项,已发表包括流体力学学科方面的顶级SCI期刊Journal of Fluid Mechanics, Physics of fluids以及Journal of Non-Newtonian Fluid Mechanics等收录论文120余篇。指导国家级大学生创新项目4项,自治区研究生创新项目7项。指导的研究生中14人获国家奖学金,1人获第九届中国青少年科技创新奖,1人获自治区奖学金,1人获乌可力奖学金,2人获内蒙古大学校长励学奖优秀硕士和优秀博士学生奖,3位博士生获内蒙古自治区优秀博士学位论文。 | |||
学习经历 | 起止年月 | 学校 | 专业 | 学位/学历 |
1998/09-2003/01 | 中国科学院力学研究所 | 流体力学 | 博士学位 | |
1995/09-1998/07 | 内蒙古大学数学系 | 应用数学 | 硕士学位 | |
1991/09-1995/07 | 内蒙古师范大学数学系 | 数学 | 学士学位 | |
工作经历 | 起止年月 | 单位 | 职称/职务 | |
2003/03-2005/12 | 国家海洋局第一海洋研究所 | 博士后 | ||
2006/06-2009/04 | 中山大学工学院 | 副教授、硕士生导师 | ||
2009/06-2024/01 | 内蒙古大学数学科学学院 | 教授、博士生导师 | ||
2012/09-2013/09 | 美国Cornell大学化学与生物分子工程学院 | 访问学者 | ||
2017/09-2018/07 | 北京大学工学院 | 访问学者 | ||
2018/02-2018/05 | 美国Texas大学Rio Grande Valley分校 | 访问学者 | ||
2024/02-至今 | 5845威尼斯官网主页 | 教授、硕士生导师、博士生导师 | ||
教学成果 | 课程名称 | |||
近年来主讲了本科生的基础专业课《数学物理方程》、《常微分方程》以及硕士研究生的基础专业课《偏微分方程》、《流体力学》、《微尺度流体力学》等。在教学工作中,始终坚持为人师表,尊重学生,确立以学生为主体,以培养学生主动发展为中心的教学思想,重视学生的个性发展,重视激发学生的创造能力。 | ||||
科研成果 | 研究名称 | |||
主持的项目: 1. 主持国家自然科学基金地区项目: 电磁场作用下奇粘性对微尺度薄液膜不稳定性的影响(项目编号:12262026),时间:2023.01–2026.12; 2. 主持内蒙古自治区高等学校创新团队发展计划项目:应用数学、流体力学 (项目编号:NMGIRT2323),时间:2023.01–2025.12; 3. 主持内蒙古自然基金面上项目: 碳纳米管内包含非牛顿流体的不稳定性研究(项目编号:2021MS01007),时间:2021.01–2023.12; 4. 主持内蒙古自治区党委组织部: 2019年“草原英才”滚动支持项目(项目编号:12000-12102408),时间:2019.11–2021.11; 5. 主持国家自然科学基金面上项目: 微纳通道中物理特性随压力变化的流体的电动能量转化 (项目编号:11772162),时间:2018.01–2021.12; 6. 主持国家自然科学基金面上项目: 垂向磁场作用下微通道内的电渗流动与传热研究(项目编号:11472140),时间:2015.01–2018.12; 7. 主持国家自然科学基金地区项目: 两层流体Faraday 界面波动力学研究(项目编号:11062005),时间:2011.01–2013.12; 8. 主持内蒙古自然基金面上项目: 柔性纳米管道中电渗流动(项目编号:2016MS0106),时间:2016.01–2018.12; 9. 主持内蒙古自治区党委组织部: 2015年入选内蒙古自治区第五批“草原英才”(项目编号:12000-12102013),时间:2015.11–2018.11; 10. 主持内蒙古自治区高等学校“青年科技领军人才”项目: 微流体管道中非牛顿流体的非定常电渗流动(项目编号:NJYT-13-A02),时间:2013.01–2014.12; 11. 主持内蒙古自然科学基金项目: 双频垂直激励两层流体的 Faraday 界面波(项目编号:2010BS0107),时间:2010.01–2012.12; 12. 主持中科院力学所LNM国家重点实验室开放基金项目:微管道中具有自由面的非牛顿流体的电渗流动,时间:2012.01–2013.12; |
代表性论文&科研 |
---|
2024年 |
1. Beinan Jia, Yongjun Jian*, The effect of Oldroyd-B fluid on thermal convection stability in a bidispersive porous media with relatively large macropores, Physics of Fluids, 2024, 36, 014105. |
2. Xingyu Chen, Zhiyong Xie, Yongjun Jian*, Streaming potential of viscoelastic fluids with the pressure-dependent viscosity in nanochannel. Physics of Fluids, 2024, 36, 032025. |
3. Long Chang, Guangpu Zhao, Mandula Buren, Yanjun Sun, and Yongjun Jian*, Alternating Current Electroosmotic Flow of Maxwell Fluid in a Parallel Plate Microchannel with Sinusoidal Roughness, Micromachines, 2024, 15(1), 4. |
4. 孙艳军,王嘉璐,贾北楠,菅永军*,非傅里叶效应对Maxwell流体在垂直槽道中热对流不稳定性的影响,力学学报,2024,待发表. |
5. 长龙,布仁满都拉,孙艳军,菅永军*,具有正弦波纹的平行板微通道中Jeffrey流体周期电渗流动,应用数学和力学,2024,待发表. |
2023年 |
6. Zhiyong Xie, Yongjun Jian*, Xingyu Chen, Electrokinetic energy conversion of high pressure-driven flow with pressure-viscosity effect at high zeta potential, International Journal of Engineering Science, 2023, 184,103819. |
7. Beinan Jia, Yongjun Jian*,Stability of a liquid film on inclined flexible substrates: Effect of the spontaneous odd viscosity, Physical Review E, 2023, 108, 045104. |
8. Xin Chu, Yongjun Jian*, Electrostatically induced Faraday instability of thin film with spontaneous odd viscosity, Journal of Non-Newtonian Fluid Mechanics, 2023, 314, 105013. |
9. Jialu Wang, Yanjun Sun, Yongjun Jian*, Rayleigh-Taylor instability of viscous liquid film under an inclined substrate with time modulated temperature, International Communications in Heat and Mass Transfer, 2023, 142, 106677. |
10. Siyi An, Yongjun Jian*,Rayleigh–Taylor instability of viscoelastic self-rewetting film flowing down a temperature-controlled inclined substrate, Chinese Physics B, 2023, 32, 064701. |
11. Nailin Ma, Yanjun Sun, Yongjun Jian*, Electromagnetohydrodynamic (EMHD) Flow in a Microchannel with Random Surface Roughness, Micromachines, 2023, 14, 1617. |
12. Zhili Wang, Yanjun Sun, Yongjun Jian*,The Effect of Random Roughness on the Electromagnetic Flow in a Micropipe, Micromachines, 2023, 14, 2054. |
13. Jiaxuan Zheng, Jialu Wang, Yongjun Jian*, Micro Electro-Osmotic Thrusters of Power-Law Fluids for Space Propulsion, Micromachines, 2023, 14, 949. |
14. 郑佳璇,梁韵笛,菅永军*,高Zeta势下Phan-Thien-Tanner(PTT)流体的电渗微推进器,应用数学和力学,2023,44(10), 1213–1225. |
15. Xue Gao, Guangpu Zhao*, Na Li, Ying Zhang, Yongjun Jian, The electrokinetic energy conversion analysis of Newtonian fluids with pressure-dependent viscosity in rectangular nanotube, Journal of Molecular Liquids, 2023, 371, 121022. |
2022年 |
16. Yongjun Jian*, Electrokinetic energy conversion of fluids with pressure-dependent viscosity in nanofluidic channels, International Journal of Engineering Science, 2022, 170,103590. |
17. Beinan Jia, Yongjun Jian*, The effect of odd-viscosity on Rayleigh–Taylor instability of a liquid film under a heated inclined substrate, Physics of Fluids, 2022, 34, 044101. |
18. Xin Chu, Long Chang, Beinan Jia, Yongjun Jian*, Effect of the odd viscosity on Faraday wave instability, Physics of Fluids, 2022, 34, 114123. |
19. Zhiyong Xie, Yongjun Jian*, Electrokinetic energy conversion of power-law fluids in a slit nanochannel beyond Debye-Hückel linearization, Energy, 2022, 252, 124029. |
20. Yongbo Liu, Jingnan Xing, Yongjun Jian*, Heat transfer and entropy generation analysis of electroosmotic flows in curved rectangular nanochannels considering the influence of steric effects, International Communications in Heat and Mass Transfer, 2022, 139, 106501. |
21. Shujuan An, Kai Tian, Zhaodong Ding*, Yongjun Jian, Electroosmotic and pressure-driven slip flow of fractional viscoelastic fluids in microchannels, Applied Mathematics and Computation, 2022, 425, 127073. |
22. Zhaodong Ding, Kai Mu, Ting Si*, Yongjun Jian, Linear instability analysis of a viscoelastic jet in a co-flowing gas stream, Journal of Fluid Mechanics, 2022, 936, A6. |
23. Xin Chu, Yongjun Jian*, Electrokinetic energy conversion through cylindrical microannulus with periodic heterogeneous wall potentials, Journal of Physics D: Applied Physics, 2022, 55, 145501. |
24. Xingyu Chen, Yongjun Jian*, Entropy generation minimization analysis of two immiscible fluids, International Journal of Thermal Sciences, 2022, 171,107210. |
25. Xingyu Chen, Yongjun Jian*, Zhiyong Xie, Slippery electrokinetic flow of viscoelastic fluids with pressure-dependent viscosity and relaxation time. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2022, 639, 128354. |
26. Zhaodong Ding, Long Chang, Kai Tian, Yongjun Jian*, On the energy conversion in electrokinetic transports, Applied Mathematics and Mechanics (English Edition), 2022, 43(2), 263–274. |
27. Shujuan An, Kai Tian, Zhaodong Ding*, Yongjun Jian, Electromagnetohydrodynamic (EMHD) flow of fractional viscoelastic fluids in a microchannel, Applied Mathematics and Mechanics (English Edition), 2022, 43(6), 917–930. |
28. Xingyu Chen, Yongjun Jian*, Heat transfer of nanofluid with electroviscous effect in MHD-based microannulus, Journal of Thermal Analysis and Calorimetry, 2022, 147, 2715–2728. |
29. Long Chang, Yanjun, Sun, Mandula Buren, Yongjun Jian*, Thermal and Flow Analysis of Fully Developed Electroosmotic Flow in Parallel-Plate Micro- and nanochannel with Surface Charge-Dependent Slip, Micromachines, 2022, 13, 2166. |
30. Jiali Zhang, Guangpu Zhao*, Xue Gao, Na Li, Yongjun Jian*, Streaming potential and electrokinetic energy conversion of nanofluids in a parallel plate microchannel under the time-periodic excitation, Chinese Journal of Physics, 2022, 75, 55–68. |
31. Na Li, Guangpu Zhao*, Xue Gao, Ying Zhang, Yongjun Jian, The impacts of viscoelastic behavior on electrokinetic energy conversion for Jeffreys fluid in microtubes, nanomaterials, 2022, 12, 3355. |
32. Xinyue Bian, Fengqin Li * and Yongjun Jian, The Streaming Potential of Fluid through a Microchannel with Modulated Charged Surfaces, Micromachines, 2022, 13, 66. |
2021年 |
33. Zhaodong Ding, Yongjun Jian*, electrokinetic oscillatory flow and energy conversion of viscoelastic fluids in microchannels: a linear analysis, Journal of Fluid Mechanics, 2021, 919, A20. |
34. Gaowa Bao, Yongjun Jian*, Odd-viscosity-induced instability of a falling thin film with an external electric field, Physical Review E, 2021, 103, 013104. |
35. Xingyu Chen, Yongjun Jian*, Zhiyong Xie, Electrokinetic flow of fluids with pressure-dependent viscosity in a nanotube, Physics of Fluids, 2021, 33, 122002. |
36. Zhaodong Ding, Yongjun Jian*, Resonance behaviors in periodic viscoelastic electrokinetic flows: a universal Deborah number, Physics of Fluids, 2021, 33, 032023. |
37. Jiaxuan Zheng, Siyi An, Yongjun Jian*, Steric effects on electroosmotic nano-thrusters under high zeta potentials, Mathematics, 2021, 9, 3222. |
38. Guangpu Zhao, Jiali Zhang, Zhiqiang Wang, Yongjun Jian*, Electrokinetic energy conversion of electromagnetohydrodynamic (EMHD) nanofluids through a microannulus under the time-periodic excitation, Applied Mathematics and Mechanics (English Edition), 2021, 42(7), 1029–1046. |
39. Jiaxuan Zheng, Beinan Jia, Yongjun Jian*, Steric effects on space electroosmotic thrusters in soft nanochannels, Mathematics, 2021, 9, 1916. |
40. Jiaxuan Zheng, Yongjun Jian*, Space electroosmotic thrusters in ion partitioning soft nanochannels, Micromachines, 2021, 12, 777. |
41. Beinan Jia, Yongjun Jian*, Instability of single-walled carbon nanotubes conveying Jeffrey fluid, Chinese Physics B, 2021, 30(4), 044601. |
42. Juanxia Zhao, Yongjun Jian*, Effect of odd viscosity on the stability of a falling thin film in presence of electromagnetic field, Fluid Dynamics Research, 2021, 53, 015510. |
43. Juanxia Zhao, Yongjun Jian*, Effect of odd viscosity on the stability of thin viscoelastic liquid film flowing along an inclined plate, Physica Scripta, 2021, 96, 055241. |
2020年 |
44. Jiaxuan Zheng, Yongjun Jian*, Electroosmotic thrusters in soft nanochannels for space propulsion, Physics of Fluids, 2020, 32,122005. |
45. Meizhen Xu, Yongjun Jian*, Unsteady rotating electroosmotic flow with time-fractional Caputo-Fabrizio derivative, Applied Mathematics Letters, 2020, 100, 106015. |
46. Yongbo Liu, Yongjun Jian*, Chunhong Yang, Electrochemomechanical energy conversion efficiency in curved rectangular nanochannels, Energy, 2020, 198, 117401. |
47. Zhiyong Xie, Yongjun Jian*, Electrokinetic energy conversion of nanofluids in MHD-based microtube, Energy, 2020, 212, 118711. |
48. Na Hao, Yongjun Jian*, Instability analysis of carbon nanotubes conveying viscoelastic fluid, Journal of Physics D: Applied Physic, 2020, 53, 11LT01. |
49. Yongbo Liu, Yongjun Jian*, Chunhong Yang, Steric-effect-induced enhancement of electrokinetic energy conversion efficiency in curved nanochannels with rectangular sections at high zeta potentials, Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2020, 591, 124558. |
50. Yongbo Liu, Yongjun Jian*, Chunhong Yang, On electromagnetohydrodynamic flows and mass transport in curved rectangular microchannels, Applied Mathematics and Mechanics (English Edition), 2020, 41, 1431–1446. |
51. Chunhong Yang, Yongjun Jian*, Effect of patterned hydrodynamic slip on electromagnetohydrodynamic flow in a parallel plate microchannel, Chinese Physics B, 2020, 29(11), 11410. |
52. Chunhong Yang, Yongjun Jian*, Zhiyong Xie, Fengqin Li, Electromagnetohydrodynamic electroosmotic flow and entropy generation of third-grade fluids in a parallel microchannel, Micromachines, 2020, 11, 418. |
53. 王爽,菅永军*,周期壁面电势调制下平行板微管道中的电磁电渗流动,应用数学和力学,2020, 41(4) , 396–405. |
2019年 |
54. Zhaodong Ding, Yongjun Jian*, Wenchang Tan, Electrokinetic energy conversion of two-layer fluids through nanofluidic channels, Journal of Fluid Mechanics, 2019, 863, 1062–1090. |
55. Xin Chu, Yongjun Jian*, Magnetohydrodynamic electroosmotic flow of Maxwell fluids with patterned charged surface in narrow confinements, Journal of Physics D: Applied Physic, 2019, 52, 405003. |
56. Guangpu Zhao, Zhiqiang Wang, Yongjun Jian*, Heat transfer of the MHD nanofluid in porous microtubes under the electrokinetic effects, International Journal of Heat and Mass Transfer, 2019, 130, 821–830. |
57. Yongbo Liu, Yongjun Jian*, The effects of finite ionic sizes and wall slip on entropy generation in electroosmotic flows in a soft nanochannel, Journal of Heat Transfer, 2019, 141, 102401. |
58. Chunhong Yang, Yongjun Jian*, Zhiyong Xie, Fengqin Li, Heat transfer characteristics of Magnetohydrodynamic electroosmotic flow in a rectangular microchannel, European Journal of Mechanics / B Fluids, 2019, 74, 180–190. |
59. Yongbo Liu, Yongjun Jian*, Rotating electroosmotic flows through soft parallel plate microchannels, Applied Mathematics and Mechanics (English Edition), 2019, 40(7), 1017–1028. |
60. Yongbo Liu, Yongjun Jian*, Electroviscous effect on electromagnetohydrodynamic flows of Maxwell fluids in parallel plate microchannels, Applied Mathematics and Mechanics (English Edition), 2019, 40(10), 1457–1470. |
61. Fengqin Li, Yongjun Jian*, Mandula Buren, Long Chang, Effects of three-dimensional surface corrugations on electromagnetohydrodynamic flow through microchannel, Chinese Journal of Physics, 2019, 60, 345–361. |
62. Mandula Buren*, Yongjun Jian, Yingchun Zhao, Long Chang, Quansheng Liu, Effects of surface charge and boundary slip on time-periodic pressure-driven flow and electrokinetic energy conversion in a nanotube, Beilstein Journal of Nanotechnology, 2019, 10, 1628–1635. |
63. Zehua Wang, Yongjun Jian*, Heat transport of electrokinetic flow in slit soft nanochannels, Micromachines, 2019, 10, 34. |
64. Guangpu Zhao, Yongjun Jian*, Thermal transport of combined electroosmotically and pressure driven nanofluid flow in soft nanochannels, Journal of Thermal Analysis and Calorimetry, 2019, 135, 379–391. |
65. Na Hao, Yongjun Jian*, Magnetohydrodynamic electroosmotic flow with patterned charged surface and modulated wettability in a parallel plate microchannel, Communications in Theoretical Physics, 2019, 71, 1163–1171. |
66. 许丽娜,菅永军*,柔性圆柱形微管道内的电动流动及传热研究,应用数学和力学,2019, 40(4), 408–418 |
2018年 |
67. Zhiyong Xie, Yongjun Jian*, Wenchang Tan, Streaming potential analysis and electrokinetic energy conversion efficiency of two immiscible fluids in a nanochannel, Sensors & Actuators: B. Chemical, 2018, 273, 1257–1268. |
68. Zhiyong Xie, Yongjun Jian*, Entropy generation of magnetohydrodynamic electroosmotic flow in two-layer systems with a layer of non-conducting viscoelastic fluid, International Journal of Heat and Mass Transfer, 2018, 127 Part B, 600–615. |
69. Yongbo Liu, Yongjun Jian*, Wenchang Tan, Entropy generation of Electromagnetohydrodynamic (EMHD) flow in a curved rectangular microchannel, International Journal of Heat and Mass Transfer, 2018, 127 Part A, 901–913. |
70. Zhiyong Xie, Yongjun Jian*, Fengqin Li, Thermal transport of magnetohydrodynamic electroosmotic flow in circular cylindrical microchannels, International Journal of Heat and Mass Transfer, 2018, 119, 355–364. |
71. Jiaxuan Zheng, Yongjun Jian*, Rotating electroosmotic flow of two-layer fluids through a microparallel channel, International Journal of Mechanical Sciences, 2018, 136,. 293–302. |
72. Mandula Buren*, Yongjun Jian, Yingchun Zhao, Long Chang, Electroviscous effect and electrokinetic energy conversion in time periodic pressure-driven flow through a parallel-plate nanochannel with surface charge-dependent slip, Journal of Physics D: Applied Physic, 2018, 51, 205601. |
73. Xingyu Chen, Yongjun Jian*, Zhiyong Xie, Zhaodong Ding, Thermal transport of electromagneto- hydrodynamic in a microtube with electrokinetic effect and interfacial slip, Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2018, 540, 194–206. |
74. Jingnan Xing, Yongjun Jian*, Steric effects on electroosmotic flow in soft nanochannels, Meccanica, 2018, 53, 135–144. |
75. Guangpu Zhao, Yongjun Jian*, Heat transfer of the nanofluid in soft nanochannels under the effects of the electric and magnetic field, Powder Technology, 2018, 338, 734–743. |
76. Xingyu Chen, Yongjun Jian*, Streaming potential analysis on the hydrodynamic transport of pressure-driven flow through a rotational microchannel, Chinese Journal of Physics, 2018, 56, 1296–1307. |
2017年 |
77. Zhiyong Xie, Yongjun Jian*, Entropy generation of two-layer magnetohydrodynamic electroosmotic flow through microparallel channels, Energy, 2017, 139, 1080–1093. |
78. Zhaodong Ding, Yongjun Jian*, Liangui Yang, Analytical investigation of electrokinetic effects of micropolar fluids in nanofluidic channels, Physics of Fluids, 2017, 29, 082008. |
79. Huicui Li, Yongjun Jian*, Dispersion for periodic electro-osmotic flow of Maxwell fluid through a microtube, International Journal of Heat and Mass Transfer, 2017, 115, 703–713. |
80. Zhiyong Xie, Yongjun Jian*, Rotating electromagnetohydrodynamic flow of power-law fluids through a microparallel channel, Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2017, 529, 334–345. |
81. Yongjun Jian*, Fengqin Li, Yongbo Liu, Long Chang, Quansheng Liu, Liangui Yang, Electrokinetic energy conversion efficiency of viscoelastic fluids in a polyelectrolyte-grafted nanochannel, Colloids and Surfaces B: Biointerfaces, 2017, 156, 405–413. |
82. Fengqin Li, Yongjun Jian*, Zhiyong Xie, Yongbo Liu, Quansheng, Liu, Transient alternating current electroosmotic flow of the Jeffrey fluid through a polyelectrolyte-grafted nanochannel. RSC Advances, 2017, 7, 782–790. |
83. Guangpu Zhao, Yongjun Jian*, Fengqin Li, Electromagnetohydrodynamic flow and heat transfer of nanofluid in a parallel plate microchannel, Journal of Mechanics, 2017, 33, 115–124. |
84. Fengqin Li, Yongjun Jian*, Zhiyong Xie, Lin Wang, Electromagnetohydrydynamic flow of Powell-Eyring fluids in a narrow confinement. Journal of Mechanics, 2017, 33, 225–233. |
85. Mandula Buren, Yongjun Jian*, Long Chang, Fengqin Li, Quansheng Liu, Combined electromagneto- hydrodynamic flow in a microparallel channel with slightly corrugated walls, Fluid Dynamics Research, 2017, 49, 025517. |
86. Mandula Buren, Yongjun Jian*, Long Chang, Quansheng Liu, Guangpu Zhao, AC magnetohydrodynamic slip flow in microchannel with sinusoidal roughness, Microsystem Technologies, 2017, 23, 3347–3359. |
2016年 |
87. Fengqin Li, Yongjun Jian*, Long Chang, Guangpu Zhao, Liangui Yang, Alternating current electroosmotic flow in polyelectrolyte-grafted nanochannel, Colloids and Surfaces B: Biointerfaces 2016, 147, 234–241. |
88. Guangpu Zhao, Yongjun Jian*, Fengqin Li, Streaming potential and heat transfer of nanofluids in parallel plate microchannels, Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2016, 498, 239–247. |
89. Guangpu Zhao, Yongjun Jian*, Fengqin Li, Heat transfer of nanofluids in microtubes under the effects of streaming potential, Applied Thermal Engineering, 2016, 100, 1299–1307. |
90. Lin Wang, Yongjun Jian*, Quansheng Liu, Fengqin Li, Long Chang, Electromagnet hydrodynamic flow and heat transfer of third grade fluids between two micro-parallel plates, Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2016, 494, 87–94. |
91. Guangpu Zhao, Yongjun Jian*, Fengqin Li, Streaming potential and heat transfer of nanofluids in microchannels in the presence of magnetic field, Journal of Magnetism and Magnetic Materials, 2016, 407, 75–82. |
92. Long Chang, Yongjun Jian*, Mandula Buren, Yanjun Sun, Electroosmotic flow through a microparallel channel with 3D wall roughness, Electrophoresis, 2016, 37(3), 482–492. |
93. Dongqing Si, Yongjun Jian*, Long Chang, Quansheng Liu, Unsteady rotating electroosmotic flow through a slit microchannel, Journal of Mechanics, 2016, 32(5), 603–611. |
94. Long Chang, Yongjun Jian*, Mandula Buren, Quansheng Liu, Yanjun Sun, Electroosmotic Flow Through a Microtube with Sinusoidal Roughness, Journal of Molecular Liquids, 2016, 220, 258–264. |
95. Zhaodong Ding, Yongjun Jian*, Liangui Yang, Time periodic electroosmotic flow of micropolar fluids through a microparallel channel, Applied Mathematics and Mechanics (English Edition), 2016, 37(6), 769–786. |
96. 邢靖楠,菅永军*,矩形纳米管道中的电动能量转换效率,应用数学和力学,2016, 37(4), 363–372. |
97. 长龙,刘全生*,菅永军,布仁满都拉,孙艳军,具有正弦粗糙度的环形微管道中脉冲流动,应用数学和力学,2016, 37(10), 1118–1128. |
98. 刘勇波,菅永军*,具有聚电解质层圆柱形纳米通道中的电动能量转换效率,物理学报,2016, 65(8), 084704. |
99. Lin Wang, Yongjun Jian*, Fengqin Li, The flow of micropolar fluids through a corrugated microparallel channel, The European Physical Journal Plus, 2016, 131, 338. |
100. Yufei, Wei, Haijun Wang, Yongjun Jian*, Pressure oscillating flow in corrugated parallel channel, Communications in Theoretical Physics, 2016, 66(6), 694–700. |
2015年 |
101. Yongjun Jian*, Transient MHD heat transfer and entropy generation in a microparallel channel combined with pressure and electroosmotic effects, International Journal of Heat and Mass Transfer, 2015, 89, 193–205. |
102. Yongjun Jian*, Long Chang, Electromagnetohydrodynamic (EMHD) micropumps under a spatially non-uniform magnetic field, AIP Advances, 2015, 5, 057121. |
103. Yongjun Jian*, Dongqing Si, Long Chang, Quansheng Liu, Transient rotating Electromagnetohydrodynamic micropumps between two infinite microparallel plates, Chemical Engineering Science, 2015, 134, 12–22. |
104. Yapeng Liu, Yongjun Jian*, Quansheng Liu, Fengqin Li, Alternating current magnetohydrodynamic electroosmotic flow of Maxwell fluids between two micro-parallel plates, Journal of Molecular Liquids, 2015, 211, 784–791. |
105. Chonghua Gao, Yongjun Jian*, Analytical solution of magnetohydrodynamic flow of Jeffrey fluid through a circular microchannel, Journal of Molecular Liquids, 2015, 211, 803–811. |
106. Guangpu Zhao, Yongjun Jian*, Long Chang, Mandula Buren, Magnetohydrodynamic flow of generalized Maxwell fluids in a rectangular micropump under an AC electric field,Journal of Magnetism and Magnetic Materials, 2015, 387, 111–117. |
107. Mandula Buren, Yongjun Jian*, Electromagnetohydrodynamic (EMHD) flow between two transversely wavy microparallel plates, Electrophoresis, 2015, 36, 1539–1548. |
108. Shunxiang Li, Yongjun Jian*, Zhiyong Xie, Quansheng Liu, Fengqin Li, Rotating electro-osmotic flow of third grade fluids between two microparallel plates, Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2015,470, 240–247. |
109. Dongqing Si, Yongjun Jian*, Electromagnetohydrodynamic (EMHD) micropump of Jeffrey fluids through two parallel microchannels with corrugated walls, Journal of Physics D: Applied Physic, 2015, 48, 085501. |
2014年 |
110. Yongjun Jian*, Jie Su, Long Chang, Quansheng Liu, Guowei He, Transient electroosmotic flow of general Maxwell fluids through a slit microchannel, Z. Angew. Math. Phys. , 2014, 65, No. 3, 435- 447. |
111. Mandula Buren; Yongjun Jian*; Long Chang, Electromagnetohydrodynamic flow through a micro- parallel channel with corrugated walls, Journal of Physics D: Applied Physics, 2014, 47, 425501. |
112. Zhiyong Xie, Yongjun Jian*, Rotating electroosmotic flow of power-law fluids at high zeta potentials, Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2014, 461, 231-239. |
113. Long Chang, Yongjun Jian*, Jie Su, Ren Na, Quansheng Liu, Guowei He, Nonlinear interfacial waves in a circular cylindrical container subjected to a vertical excitation, Wave Motion, 2014, 51, 804-817. |
2013年 |
114. Liping Bao, Yongjun Jian*, Long Chang, Jie Su, Haiyan Zhang, Quansheng Liu, Time periodic Electroosmotic flow of the generalized Maxwell fluids in a semicircular microchannel, Communications in Theoretical Physics, 2013, 59, 615-622. |
115. Jie Su, Yongjun Jian*, Long Chang, Quansheng Liu, Transient electro-osmotic and pressure driven flows of two-layer fluids through a slit microchannel, Acta Mechanica Sinica, 2013, 29(4), 534–542. |
116. Yanjun Sun, Yongjun Jian*, Long Chang, Quansheng Liu, Thermally fully developed electroosmotic flow of power-law fluids in a circular microchannel, Journal of Mechanics, 2013, 29(4), 609-616. |
117. Lixia Sun, Yongjun Jian*, Long Chang, Haiyan Zhang, Quansheng Liu, Alternating current electro-osmotic flow of the Maxwell fluids through a circular micro-pipe, Journal of Mechanics, 2013, 29, 233-240. |
2012年 |
118. Xiaoxia Li, Ze Yin, Yongjun Jian*, Long Chang, Jie Su, Quansheng Liu, Transient electro-osmotic flow of generalized Maxwell fluids through a microchannel, Journal of Non-Newtonian Fluid Mechanics, 2012, 187-188, 43–47. |
119. Jie Su, Yongjun Jian*, Long Chang, Thermally fully developed electroosmotic flow through a rectangular microchannel, International Journal of Heat and Mass Transfer, 2012, 55, 6285–6290. |
120. 长龙,菅永军*,平行板微管道间Maxwell流体的高Zeta势周期电渗流动,物理学报, 2012, 61 (12), 124702. |
121. Shuyan Deng, Yongjun Jian*, Yuanhong Bi, Long Chang, Haijun Wang , Quansheng Liu, Unsteady electroosmotic flow of power-law fluid in a rectangular microchannel. Mechanics Research Communications, 2012, 39, 9–14. |
2011年及以前 |
122. Quansheng Liu, Yongjun Jian*, Liangui Yang, Time periodic electroosmotic flow of the generalized Maxwell fluids between two micro-parallel plates, Journal of Non-Newtonian Fluid Mechanics, 2011, 166, 478–486. |
123. Quansheng Liu, Yongjun Jian*, Liangui Yang, Alternating current electroosmotic flow of the Jeffreys fluids through a slit microchannel, Physics of Fluids, 2011, 23, 102001. |
124. Yongjun Jian*, Quansheng Liu, Liangui Yang. AC electroosmotic flow of generalized Maxwell fluids in a rectangular microchannel, Journal of Non-Newtonian Fluid Mechanics, 2011, 166, 1304–1314. |
125. Yongjun Jian*, Liangui Yang, Quansheng Liu, Time periodic electro-osmotic flow through a microannulus, Physics of Fluids, 2010, 22, 042001. |
126. Jieshuo Xie, Yongjun Jian*, Liangui Yang, Strongly nonlinear internal soliton load on a small vertical circular cylinder in two-layer fluids, Applied Mathematical Modelling, 2010, 34, 2089–2101. |
127. Yongjun Jian*, Qingyong Zhu, Jie Zhang, Yanfeng Wang, Third Order Approximation to Capillary Gravity Short Crested Waves with Currents, Applied Mathematical Modelling, 2009, 33, 2035–2053. |
128. Yongjun Jian*, Jie Zhang, Quansheng, Liu, Yanfeng Wang, Effect of Mesoscale eddies on underwater sound propagation, Applied Acoustics, 2009, 70, 432–440. |
129. Yongjun Jian*, Jiemin Zhan, Qingyong Zhu, Short crested wave–current forces around a large vertical circular cylinder, European Journal of Mechanics B/Fluids, 2008, 27(3), 346–360. |
130. Yongjun Jian*, Xuequan E, Jie Zhang, Capillary effect on the vertically excited surface wave in a circular cylindrical vessel. Applied Mathematics and Mechanics (English Edition), 2006, 27(2), 227–234. |
131. Yongjun Jian*, Xuequan E, Jie Zhang, Damping of vertically excited surface waves in a weakly viscous fluid. Applied Mathematics and Mechanics (English Edition), 2006, 27(3), 417–424. |
132. Yongjun Jian*, Xuequan E, Instability Analysis of Nonlinear Surface Waves in a Circular Cylindrical Container Subjected to a Vertical Excitation. European Journal of Mechanics B/Fluids, 2005, 24(6), 683–702. |
133. Yongjun Jian*, Xuequan E, Vertically forced surface wave in weakly viscous fluids bounded in a circular cylindrical vessel. Chinese Physics, 2004, 53(8), 1191–1200. |
134. Yongjun Jian*, Xuequan E, Jie Zhang, Jun-min Meng, Surface waves in a vertically excited circular cylindrical container. Chinese Physics, 2004, 53(10), 1623–1630. |
135. Yongjun Jian*, Xuequan E, Instability of the vertically forced surface wave in a circular cylindrical container. Chinese Physics, 2004, 53(10), 1631–1638. |
136. Yongjun Jian*, Xuequan E, Jie Zhang, Junmin Meng, The effect of the surface tension of the mode selection of the vertically excited surface wave in a circular cylindrical vessel. Chinese Physics, 2004, 53(12), 2013–2020. |
137. Yongjun Jian*, Xuequan E, Liulin Feng, Surface wave patterns and instability in a vertically oscillating circular cylindrical vessel,Journal of Hydrodynamics, Ser. B, 2004, 16(5), 640– 645. |
138. 菅永军*,鄂学全, 刚性充液容器内竖直激励表面波研究进展,力学进展,2004, 34(1), 61–76. |
139. Jian Yongjun*, E Xuequan, Bai Wei, Nonlinear Faraday waves in a parametrically excited circular cylindrical container. Applied Mathematics and Mechanics (English Edition), 2003, 24(10), 1194–1207. |
140. 菅永军*,鄂学全,垂直激励圆柱形容器中的表面波特性研究,应用力学学报, 2004, 21(1), 5-12. |
141. 菅永军*,鄂学全,垂直激励圆柱形容器中的表面波结构,水动力学研究与进展 A辑,2003, 18(2), 135-147. |
代表性专利&其他 |
---|
1. 2019年获内蒙古自治区“草原英才”工程个人滚动支持。 |
2. 2018年获第八届内蒙古大学校长励学奖优秀教师奖; |
3. 2017年内蒙古自治区新世纪“321人才工程”第一层次人选; |
4. 2016年获内蒙古自治区优秀科技工作者; |
5. 2016年获宝钢优秀教师奖; |
6. 2015年入选内蒙古自治区第五批“草原英才”; |
7. 2014年获内蒙古自治区优秀研究生指导教师; |
8. 2013年内蒙古自治区高等学校“青年科技领军人才”获得者; |
9. 2012年内蒙古自治区新世纪“321人才工程”第二层次人选; |
10. 2010年获内蒙古自治区自然科学奖三等奖、内蒙古大学第五届科学技术创新奖; |
11. 2009年获第七届内蒙古自治区青年科技奖; |