姓名

張劍高

性别

男

出生

年月

1991.11

職稱/職務

講師

導師

類别

碩導

研究領域

民航安全，應急救援與人員疏散

招生學科

交通運輸工程

聯系方式

zhang.jiangao@nuaa.edu.cn

一、教育背景

（1）2018.04-2022.03，日本大阪大學，物質創成專攻，博士，導師：岡野 泰則教授

（2）2014.09-2017.06，武漢科技大學，安全科學與工程，碩士，導師：姜學鵬教授

（3）2010.09-2014.06，武漢科技大學，資源環境與城鄉規劃管理，本科

二、工作經曆

（1）2022.05-至今，伟德国际1946bv官网，伟德国际1946bv官网，講師

（2）2022.05-至今，伟德国际1946bv官网，伟德国际1946bv官网，博士後

三、教學與科研

教學課程

機場管制，系統工程導論

研究方向

民航安全，民航應急救援與疏散，計算流體力學

研究項目

1.中國博士後科學基金面上項目（2023M731670），在研，主持；

2.江蘇省卓越博士後計劃，在研，主持；

3.日本學際大規模情報基盤共同利用・共同研究拠點（JHPCN）萌芽型共同研究課題(ID: EX21601)，結題，主持；

4.大阪大學次世代挑戦的研究者育成プロジェクト, 結題，主持。

論文專著教材及

專利軟著

論文

[1]J.-G. Zhang, Y. Okano*, and S. Dost. Effect of radiative heat transfer on thermal-solutal Marangoni convection in a shallow rectangular cavity with mutually perpendicular temperature and concentration gradients. Int. J. Heat Mass Transfer, 183: 1221024, 2022.  (SCI, Q1, Top)

[2] J.-G. Zhang, Y. Okano*, and S. Dost. Numerical simulation of Marangoni convection in a shallow rectangular cavity with a linear solutal boundary condition. Int. J. Heat Mass Transfer, 178: 121578, 2021.  (SCI, Q1, Top)

[3] J.-G. Zhang, A. Sekimoto*, Y. Okano, and S. Dost. Numerical simulation of thermal-solutal Marangoni convection in a shallow rectangular cavity with mutually perpendicular temperature and concentration gradients. Phys. Fluids, 32: 102108, 2020.  (SCI, Q1, Top, selected as Featured)

[4] L.-Y Wang, Y. Okano, and I. Horiguchi and J.-G. Zhang*. Bayesian optimization for favourable suspension culture of orbitally shaken bioreactors with a hollow cylinder wall. J. Chem. Eng. Japan, 56: 2247046, 2023.  (SCI, Q4)

[5] S. Quan, J.-M. Li, R.H. Li,J.-G. Zhangand X.-B. Gao. Study of urban logistics drone path planning model incorporating service benefit and risk cost. Drones, 6: 418, 2022.  (SCI, Q2)

[6] J.-G. Zhang. Numerical simulation of SiC crystal growth process by the Bottom Seeded Solution Growth method. 京都大學學術情報メディアセンター・センター共同研究報告, 19: 20, 2020.

[7] J.-G. Zhang. Numerical simulation of pure solutal Marangoni convention in a shallow rectangular cavity. 東京大學情報基盤センタースーパーコンピューティングニュース, 24: 4, 2022.  (Cover)

會議

[1] J.-G. Zhang, Y. Okano. Instabilities and pattern evolutions of thermal-solutal Marangoni flow in a rectangular cavity under the effect of radiative heat transfer. The 32nd International Symposium on Transport Phenomena (ISTP32), March 19-21 (2022), Tianjin, China.

[2] J.-G. Zhang, Y. Okano, and S. Dost. Effect of ambient temperature on thermal-solutal Marangoni convection in a shallow rectangular cavity with mutually perpendicular temperature and concentration gradients. The 8th Asian Symposium on Computational Heat Transfer and Fluid Flow (ASCHT2021), Sep. 23-26 (2021), Qingdao, China.

[3] J.-G. Zhang, A. Sekimoto, Y. Okano, and S. Dost. Numerical simulation of the transport phenomena occurring in the Bottom Seeded Solution Growth (BSSG) process of SiC. The 18th Asian Pacific Confederation of Chemical Engineering Congress (APCChE2019), Sep. 23-27 (2019), Sapporo, Japan.

[4] T. Yoshimura, T. Horiuchi, J.-G. Zhang, A. Sekimoto, Y. Okano, H. Khodamoradi, T. Ujihara, and S. Dost. A numerical simulation study for the effect of RF-coil position in the Bottom Seeded Solution Growth (BSSG) process of SiC. The 8th International Symposium on Bifurcations and Instabilities in Fluid Dynamics (BIFD2019), July, 16-19 (2019), Ireland.

[5] J.-G. Zhang, Y. Okano. Numerical simulation of thermal-solutal Marangoni convection in a shallow rectangular cavity with the effect of radiative heat transfer under zero gravity. The 32st Annual Meeting of The Japan Society of Microgravity Application (JAMSAC-33), Oct.13-15 (2021), Online, Japan.

[6] J.-G. Zhang, A. Sekimoto, Y. Okano. Numerical simulation of thermal-solutal Marangoni convection in a shallow rectangular cavity with mutually perpendicular temperature and concentration gradients. The 32st Annual Meeting of The Japan Society of Microgravity Application (JAMSAC-32), Oct.4-7 (2020), Online, Japan.

其他教學科研标志性工作

4. 榮譽獎項

1. 獲得日本大阪大學基礎工學研究科博士後期課程獎學金（Σ奨學金）。

2. 日本國内會議發表兩次獲獎。

3. 連續3年成功申報“京都大學超級計算機共同研究制度「若手・女性研究者奨勵枠」”項目及1次“東京大學情報基盤中心「若手・女性利用者推薦」”項目。

五、其他（社會兼職等）