喬守旭,男,博士,哈爾濱工程大學核科學與技術學院核科學與技術副教授,博士生導師。
基本介紹
- 中文名:喬守旭
- 學位/學歷:博士
- 職業:教師
- 專業方向:核反應堆熱工水力與安全
- 職務:碩士生導師
- 任職院校:任職院校
- 職稱:哈爾濱工程大學核科學與技術學院核科學與技術講師
個人經歷,研究方向,主講課程,學術成果,
個人經歷
教育經歷2013.08 - 2017.10,美國賓州州立大學(PSU),核工程,博士
2010.09 - 2013.06,西安交通大學(XJTU),動力工程及工程熱物理,碩士
工作經歷2018.04 - 至今 哈爾濱工程大學核學院 棒束通道兩相流相界面濃度輸運研究 副教授
2017.10 - 2018.03 PSU全球核安全中心,美國核管會棒束傳熱項目(RBHT) 研究人員
2014.18 - 2017.09 PSU核工程系 先進兩相流實驗室 兩相流相界面濃度輸運模型研究 博士研究
2013.08 - 2014.07 PSU核工程系 先進兩相流實驗室 兩相流流型研究 博士研究
2011.07 - 2013.06 XJTU動力工程多相流國家重點實驗室 穩壓器波動管實驗研究與數值模擬研究 碩士課題
2010.08 - 2011.06 XJTU動力工程多相流國家重點實驗室 核反應堆壓力容器承壓熱衝擊研究 碩士課題
社會兼職美國核學會會員International Journal of Heat and Mass Transfer、International Journal of Multiphase Flow、Annals of Nuclear Energy等國際權威期刊審稿人
研究方向
1. 核反應堆熱工水力與安全
2. 先進燃料特性研究
3. 兩相流測量與建模
4. 兩相流相界面輸運研究
5. 兩相流數值模擬
6. 先進單相流與兩相流測量
7. 兩相流測量技術研發
主講課程
博士研究生、碩士研究生及本科畢業設計,核反應堆熱工水力與核動力裝置性能與設備方向,單相-多相流,流動與傳熱,雷射診斷技術(PIV、LIF等),海洋條件下核反應堆系統適應性,RELAP5分析及核安全分析,理論分析、實驗研究與數值仿真。
本科生授課課程雙語傳熱學 研究生授課課程Fundamentals of Thermal-Fluid Sciences
學術成果
承擔項目:
1. 2020.01 - 2022.12 棒束通道兩相流相界面濃度輸運研究,國家自然科學基金青年基金項目,25萬元,負責人
2. 2020.01 - 2023.12 反應堆嚴重事故分析程式研發,國家重點研發計畫,26萬元,子課題負責人
3. 2020.01 - 2021.12 環形燃料組件定位格架交混特性研究,黑龍江省博士後特別資助,20萬元,負責人
4. 2019.01 – 2020.12 海洋條件對反應堆熱工水力參數測量的影響研究,黑龍江省博士後基金,10萬元,負責人
5. 2019.01 - 2020.12 環形燃料兩相流行為特性實驗研究與模型研究,國家博士後基金,8萬元,負責人
6. 2018.08 - 2020.07 ***反應堆自然循環分析技術,核反應堆系統設計技術重點實驗室基金,40萬元,負責人
7. 2018.08 - 2020.07 海洋條件對並聯迴路自然循環特性試驗的測量技術,中廣核研究院有限公司,87.45萬元,負責人
8. 2019.12 - 2020.12 COSINE熱工程式取證第三方評估與支持,國家電投集團科學技術研究院有限公司,70萬元,負責人
9. 2018.01 - 2020.12 壓水堆燃料組件瞬態熱工水力行為實驗研究,國家重點研發計畫,452萬元,主要參與人
已結題
10. 2019.01 - 2019.12 環形燃料組件兩相流流型與兩相壓降研究,中央高校基本科研業務費,10萬元,負責人
11. 2018.01 - 2018.12 反應堆堆芯兩相流相界面結構輸運特性研究,中央高校基本科研業務費,10萬元,負責人
12. 2018.07 - 2019.06 壓水堆流致振動試驗,中國原子能科學研究院,10萬元,負責人
專利成果[1] 喬守旭, 王海軍, 顧紅芳, 張磊, 羅毓珊, 2015, 一種核電站穩壓器波動管結構[P]. CN 102760500 A.
出版著作美國核管會報告
Final Report on Advanced Instrumentation Development
期刊論文:
SCI論文(第一作者):
[1] Qiao Shouxu, Kim Seungjin, Air-water two-phase bubbly flow across 90° vertical elbows. Part I: Experiment[J]. International Journal of Heat and Mass Transfer, 2018, 123: 1221–1237.
[2] Qiao Shouxu, Kong Ran, Kim Seungjin, Air-water two-phase bubbly flow across 90° vertical elbows Part II: Modeling[J]. International Journal of Heat and Mass Transfer, 2018, 123: 1238–1252.
[3] Qiao Shouxu, Kim Seungjin, On the prediction of two-phase pressure drop across 90° vertical elbows[J]. International Journal of Multiphase Flow, 2018, 109: 242–258.
[4] Qiao Shouxu, Kim Seungjin, Interfacial area transport across a 90° vertical-upward elbow in air–water bubbly two-phase flow[J]. International Journal of Multiphase Flow, 2016, 85: 110–122.
[5] Qiao Shouxu, Mena Daniel, Kim Seungjin, Inlet effects on vertical-downward air–water two-phase flow[J]. Nuclear Engineering and Design, 2017, 312: 375–388.
[6] Qiao Shouxu, Gu Hongfang, Wang Haijun*, Luo Yushan, Wang Dasheng, Liu Pan, Wang Qingli, Mao Qing, Experimental investigation of thermal stratification in a pressurizer surge line. Ann. Nucl. Energy, 2014, 73: 211–217.
[7] Qiao Shouxu, Wang Haijun, Gu Hongfang, Luo Yushan, Zhang Lei, and Wei Xiong, Experimental study on boiling heat transfer and two-phase frictional pressure drop characteristics of glycol-water solution in a vertical porous surface tube, AIP Conference Proceedings. 2013, 390–399.
SCI論文(其它排序):
[1] Kong Ran, Qiao Shouxu, Kim Seungjin*, Bajorek Stephen, Tien Kirk, Hoxie Chris, Interfacial area transport models for horizontal air-water bubbly flow in different pipe sizes. 2018, International Journal of Multiphase Flow, 106, 46–59.
[2] Lu Cihang, Kong Ran, Qiao Shouxu, Larimer Joshua, Kim Seungjin*, Bajorek Stephen, Tien Kirk, Hoxie Chris (2018). Frictional pressure drop analysis for horizontal and vertical air-water two-phase flows in different pipe sizes. Nuclear Engineering and Design, 332(September 2017), 147–161.
[3] Jin Yue, Miller Douglas, Qiao Shouxu, Rau Adam, Kim Seungjin, Cheung Fan-Bill, Bajorek Stephen, Tien Kirk, Hoxie Chris, 2018, Uncertainty analysis on droplet size measurement in dispersed flow film boiling regime during reflood using image processing technique, Nucl. Eng. Des. 326, 202–219.
[4] Cai Bonan, Gu Hongfang, Weng Yu, Qin Xingchen, Wang Yanyan, Qiao Shouxu, Wang Haijun*, 2017. Numerical investigation on the thermal stratification in a pressurizer surge line. Ann. Nucl. Energy 101, 293–300.
[5] Zhang Lei, Wang Haijun*, Gu Hongfang, Qiao Shouxu, Shi Xiaobao, Luo Yushan, 2013. Experimental investigations on flow instabilities in a forced circulation loop at near-critical and supercritical pressures, AIP Conference Proceedings., pp. 312–319.
[6] Zheng Liu, Jianjun Wang*, Sichao Tan**, Shouxu Qiao, Hu Ding, 2019. Multi-objective optimal design of the nuclear reactor pressurizer, International Journal of Advanced Nuclear Reactor Design and Technology.
通訊作者論文:
[1] Du Weian, Liu Yusheng, Yuan Hongsheng, Qiao Shouxu*, Tan Sichao*. Experimental investigation on natural convection and thermal stratification of IRWST using PIV measurement [J]. International Journal of Heat and Mass Transfer, 2019, 136: 128–145.
[2] Li Xing, Qi Peiyao, Zhao Tingjie, Qiao Shouxu*, Tan Sichao*, LIF study of temporal and spatial fluid mixing in an annular downcomer[J]. Annals of Nuclear Energy, 2019, 126: 220–232.
[3] Qi Peiyao, Li Xing, Li Xin, Qiao Shouxu*, Tan Sichao*, Chen Yitung. Experimental study on the resistance characteristics of the rod bundle channel with spacer grid under low-frequency pulsating flows[J]. Annals of Nuclear Energy, 2019, 131: 80–92.
[4] Qi Peiyao, Li Xing, Li Xin, Qiao Shouxu*, Tan Sichao*, Du Sijia, Chen Yitung. Experimental investigation of the turbulent flow in a rod bundle channel with spacer grids[J]. Annals of Nuclear Energy, 2019, 130: 142–156.
[5] Zeng Chen, Tan Sichao*, Qiao Shouxu*, Zhao Fulong, Meng Tao. A simplified method for calculating the heat rejection from a rectangle droplet sheet. International Journal of Heat and Mass Transfer, 2019, 132: 762–771.
EI論文:
[1] 喬守旭, 王海軍*, 顧紅芳, 張磊, 羅毓珊, 2013. 管型對波動管熱分層現象的影響分析, 原子能科學技術. 2013, 53: 1689–1699
[2] 王大勝, 劉攀, 王海軍, 喬守旭, 黃炳臣, 2015, 穩壓器波動管不同布置方式對熱分層現象的影響.原子能科學技術49, 1232-1236
國際會議論文(第一作者):
[1] Qiao Shouxu, Mena Daniel, Kim Seungjin*, Interfacial area transport through vertical-downward elbows in air-water two-phase flow[C], Proceedings of 2016 ANS Winter Meeting, November 6-10, Las Vegas, NV USA.
[2] Qiao Shouxu, Mena Daniel, Kim Seungjin*, Effects of 90° vertical elbows on two-phase flow parameters[C], Proceedings of International Topical Meeting on Advances in Thermal Hydraulics 2016 (ATH16), June 12-16, New Orleans, LA, USA.
[3] Qiao Shouxu, Mena Daniel, Kim Seungjin*, Interfacial area transport through vertical elbows in air-water two-phase flow[C], Proceedings of 2015 ANS Winter Meeting, November 8-12, Washington, D.C., USA.
[4] Qiao Shouxu, Mena Daniel, Kim Seungjin*, Inlet effects on vertical-downward air-water two-phase flow[C], Proceedings of the 16th International Topical Meeting on Nuclear Reactor Thermal Hydraulics (Nureth-16), August 30-September 4, 2015, Chicago, IL, USA.
會議論文(其它排序):
[1] Beck Faith, Jin Yue, Mohanta Lokanath, Qiao Shouxu, Rau Adam, Miller Douglas, Cheung Fan-Bill, S., Effects of period and flow rate on liquid entrainment and the droplet field under forced oscillatory reflood conditions, The 17th International Topical Meeting on Nuclear Reactor Thermal Hydraulics (NURETH-17), Sep. 3-8, 2017, Qujiang, Xi'an, China.
[2] Mena Daniel, Qiao Shouxu, and Kim Seungjin*, Characterization of the effects of 90-degree vertical-upward and vertical-downward elbows in bubbly two-phase flow, Proceedings of 2016 International Topical Meeting on Nuclear Thermal Hydraulics, Operation and Safety (NUTHOS-11), Oct. 9-13, Gyeongju, Korea.
[3] 王世傑, 王海軍, 邊計蓮, 顧紅芳, 耿珣珣, & 喬守旭. (2014). 穩壓器波動管熱紋震盪實驗研究. 2014年中國工程熱物理學會.
