導師介紹 | ||
導師姓名 | 邱翔 |
|
導師性別 | 男 | |
職務職稱 | 教授 | |
所在院系 | 機械學院 | |
一級學科 | 機械工程 | |
二級學科 | 機械設計及理論 | |
研究方向 | 實驗流體力學,流體機械,微流控技術 | |
聯系電話 | 021-60873332(0) | |
電子郵箱 | qiux@sit.edu.cn | |
個人簡介 | ||
主要從事流體力學湍流理論、實驗和數值模擬方面的工作,近年來也關注流體機械、環境流體力學、化工流體力學以及人工智能在流場預測中的應用等方面的問題。 | ||
學習與工作經歷 | ||
2015.01-現在: 上海應用技術大學 教授 2010.01-2014.12: 上海應用技術大學 副教授 2008.09 - 2010.09: 法國里爾第一大學(University of Lille 1) 博士后 2007.09 - 2009.12: 上海大學 數學系 博士后 2006.12 - 2007.06: 加拿大溫莎大學(University of Windsor) 數學與統計系 博士后 2003.04 - 2006.09: 上海大學 流體力學 博士 2000.09 - 2003.03: 上海大學 流體力學 碩士 1996.09 - 2000.07: 山東師范大學 數學與應用數學 學士 | ||
科研工作與成果 | ||
a)國家自然科學基金青年基金(11102114):湍流的記憶特性及其模式理論研究,28萬,2012.01-2014.12,主持,已結題。 b)上海市教委科研創新項目(13YZ124):壁湍流的歷史效應研究,8萬,2013.01-2015.12,主持,已結題。 c)國家自然科學基金面上基金(11572203):壁湍流的記憶特性及其對渦結構和雷諾應力松弛效應的影響,66萬,2016.01-2019.12,主持,已結題。 d)上海市教育委員會曙光計劃項目(18SG53):壁湍流結構特性的實驗研究,15萬,2019.1-2021.12,主持,已結題。 e)國家自然科學基金重大研究計劃培育項目(91952102):壁湍流結構演化規律及其記憶特性研究,95萬,2020.1-2022.12,參與,已結題。 f)國家自然科學基金重點項目(12032016):自由剪切湍流和壁湍流相互作用的結構特性和輸運機理研究,300萬,2021.1-2025.12,參與,在研。 g)國家自然科學基金面上項目(12372277):附壁鈍體繞流中湍流結構多尺度演化及其能量輸運機理的實驗研究,53萬,2024.01-2027.12,主持,在研。 發表論文目錄(2014-至今) [1]Qiu Xiang, Liu Y L, Zhou Q. Local dissipation scales in two-dimensional Rayleigh-Taylor turbulence[J]. Physical Review E, 2014, 90(4): 043012.(SCI) [2]Qiu Xiang, *Luo J, Huang Y, et al. Scale analysis of turbulent channel flow with varying pressure gradient[J]. Journal of Hydrodynamics, 2014, 26(1): 129-136.(SCI) [3]Qiu Xiang, Huang Y X, Zhou Q, et al. Scaling of maximum probability density function of velocity increments in turbulent Rayleigh-Bénard convection[J]. Journal of Hydrodynamics, Ser. B, 2014, 26(3): 351-362.(SCI) [4]Qiu Xiang, Wang H F, Luo J P, et al. Characteristics of velocity gradient jumping discontinuity in steady Poiseuille flow of Johnson-Segalman fluid[J]. International Journal of Non-Linear Mechanics, 2015, 71: 72-82.(SCI) [5]Ma H, Qiu Xiang(*), Luo J P, et al. Analysis of temperature time series based on Hilbert-Huang Transform[J]. Journal of hydrodynamics, Ser. B, 2015, 27(4): 587-592.(SCI) [6]Zhu L, Qiu Xiang(*), Luo J, et al. Scale properties of turbulent transport and coherent structure in stably stratified flows[J]. Applied Mathematics and Mechanics, 2016, 37(4): 443-458.(SCI) [7]Qiu Xiang, Ding L, Huang Y, et al. Intermittency measurement in two-dimensional bacterial turbulence[J]. Physical Review E, 2016, 93(6): 062226.(SCI) [8]Qiu Xiang(*), Bi Z X, Luo J P, et al. Vortex shedding in the flow around two side-by-side circular cylinders of different diameters[J]. Journal of Hydrodynamics, 2017, 29(3): 470-478.(SCI) [9]Huang Y X, Ou W Y, Chen M, Lu Z M, Jiang N, Liu Y L, Qiu Xiang, et al. Taylor dispersion in two-dimensional bacterial turbulence[J]. Physics of Fluids, 2017, 29(5).(SCI) [10]Zou X Y, Qiu Xiang(*), Luo J P, et al. Asymptotic solutions of the flow of a Johnson-Segalman fluid through a slowly varying pipe using double perturbation strategy[J]. Applied Mathematics and Mechanics, 2018, 39(2): 169-180.(SCI) [11]Luo J P, Wang Y B, Qiu Xiang(*), et al. Energy dissipation statistics along the Lagrangian trajectories in three-dimensional turbulent flows[J]. Journal of Hydrodynamics, 2018, 30: 169-172.(SCI) [12]Xia Y X, Qiu Xiang(*), Qian Y H. Numerical simulation of two-dimensional turbulence based on immersed boundary lattice Boltzmann method[J]. Computers & Fluids, 2019, 195: 104321.(SCI) [13]Li J, Xia Y, Qiu Xiang(*), et al. Vortex statistics in two-dimensional turbulence based on IB-LBM[J]. Modern Physics Letters B, 2019, 33(36): 1950453.(SCI) [14]Xia Y X, Qiu Xiang, Lou J P, et al. Lattice Boltzmann Simulation for two-dimensional bacterial turbulence[J]. Physica A: Statistical Mechanics and Its Applications, 2020, 555: 124402.(SCI) [15]Zhou J K, Qiu Xiang(*), Li J H, et al. The gap ratio effects on vortex evolution behind a circular cylinder placed near a wall[J]. Physics of Fluids, 2021, 33(3).(SCI) [16]高銓,邱翔(*),夏玉顯,李家驊,劉宇陸.基于LBM的壁湍流跨尺度能量傳遞結構統計[J].力學學報:1-12 [2021-03-25]. [17]Li J H(*), Xia Y X(*), Qiu Xiang, et al. An extended similarity in channel turbulence[J]. Journal of Hydrodynamics, 2021, 33: 782-786.(SCI) [18]Qiu Xiang, Yuan L L, Zhou X Q(*). MCMC Sampling Estimation of Poisson-Dirichlet Process Mixture Models[J]. Mathematical Problems in Engineering, 2021, 2021(1): 6618548.(SCI) [19]Li J H, Qiu Xiang, Shao Y, et al. Turbulent coherent structures in channel flow with a wall-mounted hemisphere[J]. AIP Advances, 2022, 12(3).(SCI) [20]楊奎,邱翔,李家驊,等.改進兩階段分解的熵變混合短期風速預測研究[J].計算機仿真,2022,39(02):457-461+466. [21]Qiu Xiang, Sun W L, Tao Y Z, et al. Large eddy simulation of structural characteristics in turbulent flow around a circular cylinder close to a wavy wall[J]. AIP Advances, 2022, 12(6).(SCI) [22]Yang K, Wang B F, Qiu Xiang, et al. Multi-step short-term wind speed prediction models based on adaptive robust decomposition coupled with deep gated recurrent unit[J]. Energies, 2022, 15(12): 4221.(SCI) [23]Zhou J K, Qiu Xiang, Li J H, et al. Vortex evolution of flow past the near-wall circular cylinder immersed in a flat-plate turbulent boundary layer[J]. Ocean Engineering, 2022, 260: 112011.(SCI) [24]邱翔,吳昊東,陶亦舟,等.近壁面圓柱繞流中尾流結構演化特性的實驗研究[J].力學學報,2022,54(11):3042-3057. [25]Liu Y L, Wang Y Z, Li J H, Tao Y Z, Qiu Xiang. Experimental study on the large-scale turbulence structure dynamics of a counterflowing wall jet[J]. Experiments in Fluids, 2022, 63(10): 159.(SCI) [26]Duan J S, Zhang J Y, Qiu Xiang. Exact solutions of fractional order oscillation equation with two fractional derivative terms[J]. Journal of Nonlinear Mathematical Physics, 2023, 30(2): 531-552.(SCI) [27]Li J H, Wang B F, Qiu Xiang, et al. The dynamics of cylinder-wake/boundary-layer interaction revealed by turbulent transports[J]. Physics of Fluids, 2022, 34(11).(SCI) [28]Li J H, Wang B F, Qiu Xiang, et al. Three-dimensional vortex dynamics and transitional flow induced by a circular cylinder placed near a plane wall with small gap ratios[J]. Journal of Fluid Mechanics, 2022, 953: A2.(SCI) [29]Zhang S, Xia Y X, Qiu Xiang, et al. Secondary vortical structures statistics of near-wake region in cylinder/wall interaction[J]. Acta Mechanica Sinica, 2023, 39(8): 322375.(SCI) [30]Liu Y L, Ding Z H, Tao Y Z, Qu J W, Xie X L, Qiu Xiang. Numerical study on compressible flow around a circular cylinder in proximity to the wall[J]. Physics of Fluids, 2023, 35(6).(SCI) [31]Liu Y L, Qi L M, Zhou J K, Li J H, Tao Y Z, Qiu Xiang. Experimental research on wake characteristics and vortex evolution of side-by-side circular cylinders placed near a wall[J]. Ocean Engineering, 2023, 285: 115268.(SCI) [32]Qiu Xiang, Liu H X, Li J H, et al. Evolution of vortex structure around a wall-mounted rough hemisphere[J]. Journal of Hydrodynamics, 2023, 35(3): 467-481.(SCI) [33]Liu Y L, Ma X C, Tao Y Z, Dong L Y, Ding X, Qiu Xiang. Numerical investigation on the impact of obstacles on phase transition in pedestrian counter-flow[J]. Physica A: Statistical Mechanics and its Applications, 2024, 635: 129499.(SCI) [34]Liu Y L, Wang Q, Zhou J K, Li J H, Qiu Xiang. The height ratio effects on the flow characteristics of a wall-mounted hemisphere immersed in the turbulent boundary layer[J]. Ocean Engineering, 2024, 310: 118592.(SCI) [35]Zhang L R, Li J H, Wang Y Z, Qiu Xiang(*), Fu Y, Liu Y L. Vortex dynamics induced by a finite wall-mounted cylinder with various corner shapes[J]. Physics of Fluids, 2024, 36(7).(SCI) [36]Zhou J K, Qiu Xiang, Li J H, et al. The experimental investigation on wake dynamics of flow around a circular cylinder with the splitter plate[J]. Journal of Fluids and Structures, 2024, 127: 104130.(SCI) [37]Ma Y P, Qiu Xiang, Xia Y X, et al. The modulation of the turbulent structures in channel flow with porous and rough wall[J]. Physics of Fluids, 2025, 37(2). [38]Tao Y Z, Qu J W, Gao S L, Qiu Xiang, Zhang X L, Liu Y L. Energy evolution in the Kármán vortex street of compressible flow around a circular cylinder[J]. Physics of Fluids, 2025, 37(2). 科研獎勵 (1)邱翔(3/5); 浮力驅動湍流的結構和輸運特性研究, 上海市, 自然科學, 省部二等獎, 2019(周全; 黃永祥; 邱翔;盧志明; 劉宇陸) (2)邱翔(1/1);上海市教育委員會,曙光學者,2019 授權發明專利 [1]邱翔,張加勝,李家驊,夏玉顯,張原勛. 一種基于555定時器組成的振動式防盜報警器[P].中國專利CN207097179U [2]李家驊,陳誠,李磊,王靜毅,邱翔,羅劍平,夏玉顯. 一種具有切換點火方式功能的燃燒裝置[P].中國專利CN107631296B [3]陳誠,羅劍平,邱翔,李家驊,夏玉顯,郭宇飛,邵誠卓,李姜華. 一種新能源汽車電池復合散熱裝置[P].中國專利CN109256605A [4]陳佳巖,李家驊,王靜毅,李磊,邱翔,夏玉顯,馬皓. 一種多功能滅火器充填裝置[P].中國專利CN111921138B | ||
社會學術團體兼職 | ||
流體力學專業委員會副主任及青年工作委員會副主任、中國空氣動力學會流動顯示專業委員會第八屆委員會委員、Journal of Hydrodynamics期刊編委 | ||
主要研究方向 | ||
實驗流體力學,流體機械,微流控技術 | ||
近3年指導研究生的就業情況 | ||
累計指導研究生36名,其中,在校生20名 | ||
