个人简介
主要学历:
1980.09-1984.06,在兰州铁道学院(现兰州交通大学)铁道工程系学习,获工学学士学位。
1988.09-1991.06,在兰州铁道学院(现兰州交通大学)土木工程系学习,获工学硕士学位。
1995.09-1998.07,在四川大学水利工程系学习,获工学博士学位。
学术经历:1984.07-1988.08,兰州铁道学院(现兰州交通大学)铁道工程系助教
1991.07-1995.08,兰州铁道学院(现兰州交通大学)土木工程系讲师、副教授
1999.10-2000.10,四川大学高速水力学国家重点实验室高级访问学者
2000.11-2001.12,美国Clarkson大学高级访问学者
1999.01-2002.11,中国海洋大学工程学院副教授
2016.08-2016.09,英国University of Bradford高级研究学者
2002.12-----今,中国海洋大学工程学院教授、博士生导师(2005)
学术成就、奖励及荣誉:已在植物河道动力学、海底管线冲刷与防护、侵蚀海岸生态修复、河口生态需水量等领域取得创新性研究成果。发表学术论文180余篇。科研成果曾获甘肃省教委科技进步二等奖2次、四川省科技进步三等奖1次、山东黄河河务局科技进步奖二等奖1次,以及天泰优秀人才二等奖1次等。
近期论文
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1. 拾兵、曹叔尤,植物治沙动力学,青岛海洋大学出版社,2000.11。
2. 拾兵、刘兴年、曹叔尤,泥沙输移矢量式及其应用,水利学报,1998年,第9期, 37-40.
3. 拾兵、曹叔尤等,植物因子与明渠推移质输沙率的关系,山地研究,1998,16(2):89-93.
4. 拾兵、贺如弘、于诰方,斜交桥渡的壅水及设计计算,水科学进展,2001, 12(2):201-205.
5. 拾兵、郭怀民、史宏达,植物带前壅水高度计算的迭代方法,水动力学研究与进展,2005,20(1):79-83.
6. 拾兵、李希宁等,黄河口滨海区生态需水量神经网络模型的建立,人民黄河,2005,27(10):70-71.
7. 拾兵、李希宁等,黄河口滨海区生态需水量神经网络模型的仿真,人民黄河,2005,27(10):74-75.
8. 拾兵、李希宁等,黄河口滨海区叶绿浓度与水文资料的聚类分析,人民黄河,2005,27(10):72-73.
9. 拾兵、李希宁等,黄河口滨海区生态需水量研究,人民黄河,2005,27(10):76-77.
10. 拾兵、王川源、尹则高, 淹没植物对河道糙率的影响, 中国海洋大学学报,2009年,39(2):295-298.
11. 拾兵、王燕、杨立鹏、陈举,基于仙农熵理论的河相关系,中国海洋大学学报, 2010, 40,(2):95-103.
12. 韩艳、拾兵*,任兴月、杨立鹏,导流板对海底管线防护功能的试验研究,四川大学学报(工程科学版),2010,42(2):100-106.
13. 拾兵、陈举、张芝永,植物根系对河道滩坡抗冲性影响的试验,水利水电科技进展,2012年,32(2):50-53.
[14] 拾兵,刘勇,薛旎云,张靖. 波浪作用下的泥沙尖点突变起动模式. 中国海洋大学学报,2013,43(10):102-105.
[15] 拾兵,潘光辉,于冬,阮雪景. 冰盖下水流紊动特性的试验研究. 中国海洋大学学报,2015,45(5):101-106.
[16] 拾兵, 于乾, 阮雪景, 黄修筠. 黄河下游冰动力输运的数值模拟研究. 水动力学研究与进展,2015,30(3):239-244.
[17] 拾兵*,于冬,赵恩金,赵多苍. 水位变化对近岸人工沙坝养滩效果影响的试验研究. 中国海洋大学学报,2018,48(1):104-110.
[18] 赵恩金,拾兵*,曹坤. 导流板对海底管线涡激振动的影响. 哈尔滨工程大学学报,2016,37(3):320-325.web
[19] 杨少鹏,拾兵*. 海底管线作用下沙质海床冲刷深度的计算. 哈尔滨工程大学学报,2018, 39(6):984-989.
[20] 杨少鹏,拾兵*. 海底管线冲刷悬空及其抑制技术研究综述. 海洋科学,2018, 42(3):121-130.
[21] 张志涛,拾兵*,王俊杰. 单排三角锥透空圆孔礁坝保滩促淤的试验研究. 水利水运工程学报,2020(3):61-67.
[22] 王俊杰,拾兵*,卢仲翰. 黄河入海径流量周期变化与东亚夏季风的关系研究. 海洋通报,2020,39(3):316-324.
[23] 王俊杰,拾兵*,巴彦斌. 近70年黄河入海水沙通量演变特征. 水土保持研究,2020,27(3):57-62,69.
[24] 杨少鹏,拾兵*,杨立鹏. 泥沙突变理论在海底管线冲刷中应用. 海洋工程,2020,38(1):156-162.
[25] SHI Bing, CAO Shuyou, et al. Vectorial Bedload Equations and River Width Dynamic Adjustment Modeling. J. of Sichuan University,2005, Vol.37:124-127.
[26] HAN Yan, SHI Bing*, REN Xingyue, and JING Xiaodong. Experimental Study on the Distribution of Velocity and Pressure near a Submarine Pipeline. J. Ocean Univ. China, 2009, Vol. 8, No. 4: 404-408.
[27] Lipeng Yang, Bing Shi, Yakun Guo. Calculation and experiment on scour depth for submarine pipeline with a spoiler. Ocean Engineering, 2012, Vol. 55: 191-198.
[28] Lipeng Yang, Yakun Guo, Bing Shi, Cuiping Kuang, Weilin Xu and Shuyou Cao. Study of scour around submarinepipeline with a rubber plate or rigid spoiler in wave conditions. Journal of Waterway, Port, Coastal, and Ocean Engineering, 2012, Vol. 138, No. 6: 484-490.
[29] ZHANG Jing; SHI Bing*; GUO Yakun; XU Weilin; YANG Kejun; ZHAO Enjin. Scour Development Around Submarine Pipelines due to Current Based on the Maximum Entropy Theory. Journal of Ocean University of China, 2016, 15(05): 841-846.
[30] ZHANG ZhiYong, SHI Bing*, GUO YaKun & YANG LiPeng. Numerical investigation on critical length of impermeable plate below underwater pipeline under steady current. Science China Technological Sciences,2013, Vol.56 No.5:1232-1240.
[31] Haicheng Zheng, Bing Shi∗, Qian Yu, Enjin Zhao. Numerical study of flow over periodically deforming circular cylinder. Computers and Fluids, 2016, 136: 348–353.
[32] Shaopeng Yang, Bing Shi*, Yakun Guo, Lipeng Yang. Investigation on scour protection of submarine piggyback pipeline. Ocean Engineering, 2019, 182: 442-450.
[33] Shaopeng Yang, Bing Shi, Yakun Guo. Investigation on scour scale of piggyback pipeline under wave conditions. Ocean Engineering, 2019, 182: 196-202.
[34] Junjie Wang, Bing Shi*, Xinying Pan, and Lanfang Liu. Multi-scale Characteristics of Precipitation and Its Relationship with ENSO and AO. Journal of Coastal Research, 2020, Special Issue No.104: 23-28.
[35] ZHAO Enjin, SHI Bing, QU Ke*, DONG Wenbin, and ZHANG Jing. Experimental and Numerical Investigation of Local Scour Around Submarine Piggyback Pipeline Under Steady Current. J. Ocean Univ. China (Oceanic and Coastal Sea Research), 2018, 17(2): 244-256.
[36] Zhiyong Zhang, Bing Shi. Numerical Simulation of local scour around underwater pipeline based on Fluent Software. Journal of Applied Fluid Mechanics, 2016, 9(2): 711-718.
[37] Guo, YK, Zhang, ZY and Shi, B. Numerical simulation of gravity current descending a slope into a linearly stratified environment. Journal of Hydraulic Engineering (ASCE), 2014, 140(12): 04014061-1-04014061-10.
[38] Lipeng Yang, Bing Shi, Yakun Guo. Study on dynamic angle of repose for submarine pipeline with spoiler on sandy seabed. Journal of Petroleum Exploration and Production Technology, 2012, 2: 229-236.
[39] Lipeng Yang, Bing Shi, Yakun Guo. Calculation on Dynamic Angle of Repose for Submarine Pipeline on Sandy Seabed. Applied Mechanics and Materials, 2012, Vo.137: 210-214.
[40] Duocang Zhao, Bing Shi, Lipeng Yang, Zhiyong Zhang. An Experiment Study on the Performance of Wave Dissipation of Artificial Sand Bar. Applied Mechanics and Materials, 2012, Vol. 226-228: 2299-2302.
[41活得] ZHU Yu-wei, Shi Bing. A Cell Balancing System Based on Charge Shuttling Method. Advanced Materials Research, 2014, Vols. 986-987: 1892-1896.
[42] ZHU Yu-wei, Shi Bing. Study on the Voltage Measurement in a Battery Manage System Based on LTC6802. Advanced Materials Research, 2014, Vols. 989-994: 3092-3095.
[43] Yuwei Zhu, Bing Shi. Study on Batch Plotting the Profiles of the Beach on the Coast. Advanced Materials Research, 2014, Vols. 998-999: 1386-1389もち
[44] Qian Yu, Bing Shi, and Yakun Guo. The Evolution Characteristics of Sandy Beach under the Action of Solitary and Regular Wave. Electronic Journal of Geotechnical Engineering, 2016, 21(23): 7223-7235.
[45] Enjin Zhao, Lin Mu*, and Bing Shi. Numerical Study of the Influence of Tidal Current on Submarine Pipeline Based on the SIFOM–FVCOMCoupling Model. Water, 2018, 10, 1814.
[46] WANG Junjie, SHI Bing, ZHAO Enjin, CHEN Xuguang, YANG Shaopeng. Synergistic effects of multiple driving factors on the runoff variations in the Yellow River Basin, China. Journal of Arid Land, 2021, 13(8): 835–857.
[47] Junjie Wang, Bing Shi, Enjin Zhao, Qingyun Yuan, Xuguang Chen. The long-term spatial and temporal variations of sediment load and their causes of the Yellow River Basin. Catena, 2022, 209: 105850.
[48] Shaopeng Yang, Yakun Guo, Bing Shi, Guoliang Yu, Lipeng Yang, Mingxi Zhang. Numerical investigation of the influence of the small pipeline on local scour morphology around the piggyback pipeline. Ocean Engineering, 2021, 240: 109973.
[49] Zhiyong Zhang, Yakun Guo, Yuanping Yang, Bing Shi and Xiuguang Wu. Scale Model Experiment on Local Scour around Submarine Pipelines under Bidirectional Tidal Currents. J. Mar. Sci. Eng. 2021, 9, 1421.
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