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毛洁,女,1974年生,四川成都人,博士,教授。1997年毕业于四川师范大学物理系,获学士学位。2000年毕业于核工业西南物理研究院,获硕士学位。2006.07于英国Coventry大学获博士学位。2006年9月至今在杭州电子科技大学工作。 主要从事计算流体力学在海洋装备中的应用,深海生命探测与实验装备研制,磁流体动力学数值模拟 和离心泵、离心风机的数值模拟研究。现主持国家科技重大专项子课题一项,主持完成国家自然科学基金项目(共2项),科技部国家磁约束核聚变能发展研究专项子课题一项,浙江省钱江人才计划项目一项,浙江省重点科技创新团队“轮机与港口装备技术”创新团队子项目一项,教育部留学回国人员科研启动项目一项。以第一作者或通讯作者在《International Journal of Heat and Mass Transfer》, 《Nuclear Fusion》, 《Fusion Engineering and Design》等期刊发表SCI、EI论文30余篇。获得浙江省151第三层次资助。
(1) 2015-01 至 今, 杭州电子科技大学, 机械工程学院, 教授 浙江省、广东省自然基金评审专家
1、计算流体力学在海洋装备中的应用研究 2、深海原位实验观测技术研究 2、强磁场作用下液态金属管流的强制对流、混合对流 3、磁流体的数值模拟方法 4、离心泵和离心风机的数值模拟研究 本科生:《理论力学》、《工程力学》和《工程流体力学》等 研究生:《计算流体力学基础》和《计算流体力学软件及其工程应用》 纵向科研
1、深海微生物*********,2024.09-2027.12,毛洁,在研,子课题,352万。 2、磁流体湍流直接数值模拟研究,2013-08-15,2017-12-31,毛洁,结题,国家自然科学基金面上项目,72万 3、液态包层湍流MHD效应实验及其物理机制研究,2013-09-27,2018-12-31,毛洁,结题,科技部,子课题,91.5万 4、实验包层流道插件MHD效应的数值模拟研究,2008-01-01,2012-12-31,毛洁,结题,国家自然科学基金青年基金项目,15万 5、实验包层FCI结构MHD效应的数值模拟研究,2010-03-25,2011-01-01,毛洁,结题,教育部留学回国人员科研启动项目,3.5万 6、液态金属湍流的边界主动吸注控制理论研究,2015-08-15,2018-12-31,毛洁,结题,国家自然科学基金项目,子课题,工程与技术科学基础学科,10万元 7、声学方法测量深海热液温度场和速度场技术研究,2008-07-01,2008-07-01,2010-12-26,毛洁,结题,浙江省科技厅钱江人才计划项目,10万元
横向科研
论文
[1]. Hou, Z., B. Wu, Y. Cheng, M. Jin, J. Mao, SST k-ω simulation of mixed convection of magnetohydrodynamic flow in a vertical duct with conducting walls. Magnetohydrodynamics, 2023. 59(3/4): p. 283-303. SCI,研究生一作.
[2]. Mao, J., F. Meng, C. Xu, Large eddy simulation of magnetohydrodynamic turbulent flow in an electrically conducting circular pipe with V-shaped strips. Magnetohydrodynamics, 2023. 59(1): p. 29-44.
[3]. Gao, S.; Fan, Z.; Mao, J.; Zheng, M.; Yang, J. Numerical Simulation and Design of a Shaftless Hollow Pump for Plankton Sampling. J. Mar. Sci. Eng. 2024, 12, 284. https://doi.org/10.3390/jmse12020284
[4]. Wu, X., J. Mao, J. Yan,L. Yang, Mixed convection studies of liquid metal MHD flow in a horizontal square duct subjected to a strong uniform magnetic field. Magnetohydrodynamics, 2022. 58(3): p. 249-266,SCI,研究生一作.
[5]. Mao, J., Y. Cheng, and L. Xie, Natural convection of MHD flow in a long vertical closed duct with different wall conductance ratios. Magnetohydrodynamics, 2021. 57(4): p. 449-466,SCI.
[6]. Yang, L.; J. Mao; B. Xiong; Numerical simulation of liquid metal MHD flows in a conducting rectangular duct with triangular strips. Fusion Engineering and Design, 2021. 163, SCI,研究生一作.
[7]. Mao, J., M. Jin, and C. Xu, Numerical simulation of magnetohydrodynamic laminar flow in an electrically conducting circular pipe with V-shaped strips. Magnetohydrodynamics, 2021. 57(1): p. 3-16,SCI.
[8]. Wang, Y. ; J. Mao; H. Wang; M. Jin; Numerical simulation of MHD flows in a coupled U-turn rectangular duct with different wall conductance ratios. Fusion Engineering and Design, 2019. 149: p. 111334, SCI,研究生一作.
[9]. Zhang, X. ; J. Mao; Y. Chen; C. Pan; and Z.-y. Xu; Investigations of liquid metal MHD rectangular duct flows under inclined transversal magnetic fields. Nuclear Fusion, 2019. 59: p. 056018, SCI,TOP.
[10].Jie Mao; Yueguang Yin; Liang Yu; Kai Xiang; Hao Wang; Large eddy simulation of geometry sensitivity of magneotohydrodynamic turbulent flow in a rectangular duct, Fusion Engineering and Design,2018. 127:111~119 ; SCI.
[11].Jie Mao; Liming Xie; Kai Xiang; Hao Wang; Turbulent vortex structure of liquid metal flow in pipe subjected to fringing magnetic field, Magnetohydrodynamic, 2019, Vol. 55, No. 4, 397-414, SCI.
[12].Jie Mao; Kunlei Zhang; Ke Liu; Comparative study of different subgrid-scale models for large eddy simulations of magnetohydrodynamic turbulent duct flow in OpenFOAM, Computers & Fluids,2017. 152:195~203 ; SCI.
[13].Hao Wang; Jie Mao; Ke Liu; Sheng Wang; Liang Yu; Transverse Velocity Effect on Hunt’s Flow, IEEE Transactions on Plasma Science, 2018. 46(5): 1534-1538, SCI,研究生一作.
[14].Zhang, Jilin; Wan, Jian; Li Fangfang; Mao Jie; Zhuang Li; Yuan Junfeng; Liu Enyi; Yu Zhuoer; Efficient sparse matrix-vector multiplication using cache oblivious extension quadtree storage format. Future Generation Computer Systems, 2016. 54: 490-500, SCI.
[15].Mao, J.,H. Pan, Three-dimensional numerical simulation for magnetohydrodynamic duct flows in a staggered grid system. Fusion Engineering and Design, 2013. 88(3): p. 145-150.
[16].Mao, J., S. Aleksandrova,S. Molokov, Joule heating in magnetohydrodynamic flows in channels with thin conducting walls. International Journal of Heat and Mass Transfer, 2008. 51(17-18): p. 4392-4399,SCI.
[17].徐超; 毛洁; 尹跃广; 王浩; 带引流条导电矩形管磁流体湍流大涡数值模拟. 核聚变与等离子体物理, 2019. 39(02): p. 112-118,研究生一作.
[18].毛洁; 王彦利; 王浩; 倾斜非均匀磁场下导电方管磁流体管流的数值模拟研究,力学学报,2018. 50(6): 1387-1395,EI.
[19].毛洁; 王浩; 刘克; 王盛; Claude B. Reed; 基于OpenFOMA的投影法磁流体求解器开发与验证,核聚变与等离子体物理,2018.03,38(1):15-20.
[20].谭忠权; 毛洁; 刘克; 磁流体管流的直接数值模拟研究, 核聚变与等离子体物理, 2016. 12,36(4):309-314.
[21].毛洁; 相凯; 王彦利; 王浩; 导电突扩管中磁流体管流的数值模拟研究,计算物理,2018.09, 35(5):597-604.
[22].侯俊, 毛洁,潘华辰, 磁流体管流的层流与湍流模型数值模拟. 核聚变与等离子体物理, 2013(01): p. 7-12,研究生一作.
[23].白燕, 毛洁, 樊炜, 潘华辰, 刘云峰. 声学法深海热液速度场测量重建算法研究. 海洋科学 2011, 35(03): 42-49,研究生一作.
[24].毛洁, 吴友凤, 樊炜, 潘华辰. 声学法深海热液温度场测量及重建算法研究. 仪器仪表学报 2010, 31(10): 2339-2344, EI. [25]. Liu, S., Y. Yan, J. Mao, D.M. Manos, Theory of wave propagation along a waveguide filled with moving magnetized plasma. Physical Review E (Statistical, Nonlinear, and Soft Matter Physics), 2002. 65(3),SCI.
著作
[1] 一种应用于木制品加工的雕刻机,发明专利,专利申请,201710857990.4,毛洁等 [2] 一种气动式气球投篮娱乐装置,发明专利,专利授权,201510257840.0,2017-11-03,毛洁等 [3] 气动式气球投篮娱乐装置,实用新型,专利授权,201520327834.3,2015-09-16,毛洁等 [4] 基于OpenFOAM平台的低磁雷诺数磁流体湍流分析系统及分析方法,发明专利,专利申请,202110582987.2,毛洁等 [5] 一种基于电磁修正的低磁雷诺数磁流体湍流数值计算方法,发明专利,专利申请,202110648381.4,毛洁等 |