师资队伍

教师名录

时钟

船舶与海洋工程系

办公电话:+86_21_62933027
电子邮件:zshi@sjtu.edu.cn
通讯地址:200030_上海市华山路1954号_交通大学海洋工程楼406室
个人主页:Portrait of John Z. Shi taken on 10_October_2010 Shanghai

§ 引子

●......a mind forever Voyaging through strange seas of Thought, alone.
William Wordsworth (1770-1850) had imagined Newton, The Prelude/Book III, ‘Residence at Cambridge’, 1805

● ......a well-written Life is almost as rare as a well-spent one.
Thomas Carlyle (1795-1881) in his Jean Paul Friedrich Richter (1827), Essays by Thomas Carlyle (1872, page 1), London

简介

● b. Friday_31st_December_MCMLXV, 江苏省泗阳人/Siyang, Jiangsu

教育与学位(most recent first)

● 1992: Doctor of Philosophy (Ph.D.), University of Wales, U.K., Supervisor: Henry Francis Lamb
○ 1988: Advanced Level Certificate of English, Lake School of English in Oxford, U.K.
● 1986: Bachelor of Science (B.Sc.), University of Nanjing, China

§ 经历与职位(most recent first)

Career

● 06.01.2009: Distinguished Professor, School of Naval Architecture, Ocean and Civil Engineering, Shanghai Jiao Tong University, China
● 18.02.2000: Doctoral Supervisor, School of Naval Architecture and Ocean Engineering, Shanghai Jiao Tong University, China
● 31.12.1998: Full Professor, School of Naval Architecture and Ocean Engineering, Shanghai Jiao Tong University, China
● 01.1996–12.1998: Associate Professor, Ship Hydrodynamics Laboratory, Department of Naval Architecture and Ocean Engineering, Shanghai Jiao Tong University, China
● 10.1993–10.1995: Postdoctoral Fellow, Institute of Estuarine and Coastal Research, East China Normal University, Shanghai, China, Supervisor: Chen Jiyu (1921-2017)

Visiting Positions

● 20.09.2019–20.12.2019: Senior Visitor, Emmanuel College, University of Cambridge, U.K.
● 20.09.2019–20.12.2019: Visiting Fellow, Wolfson College, University of Cambridge, U.K.
● 20.09.2019–20.12.2019: CSC Senior Research Fellow, G.K. Batchelor Laboratory, Department of Applied Mathematics and Theoretical Physics, University of Cambridge, U.K., Host: Stuart Bruce Dalziel
● 15.09.2018–01.10.2018: Visitor, State Key Laboratory for Turbulence and Complex Systems, Peking University, China, Host: Cun-Biao Lee
● 01.09.2012– 30.11.2012: CSC Senior Visiting Fellow, G.K. Batchelor Laboratory, Department of Applied Mathematics and Theoretical Physics, University of Cambridge, U.K., Host: Paul Frederick Linden
● 01.09.2012– 30.11.2012: Visitor, the programme Multiscale Numerics for the Atmosphere and Ocean, Isaac Newton Institute for Mathematical Sciences, University of Cambridge, U.K., Host: John Toland
● 15.09.2002–15.12.2002: Visiting Scientist, Institute for Coastal Research, GKSS Research Centre, Geesthacht, Germany, Host: Jens Kappenberg
● 08.11.2001–08.02.2002: Visiting Professor, Ocean Modeling and Prediction Laboratory, College of Marine Science, University of South Florida, St. Petersburg, U.S.A., Host: Mark Edward Luther
● 10.10.2000–10.01.2001: Visiting Professor, Fluid Mechanics Laboratory, Faculty of Civil Engineering and Geosciences, Delft University of Technology, The Netherlands, Host: Johan Christian Winterwerp
● 09.1992–08.1993: Visiting Scientist, Department of Geography, University of Reading, U.K., Host: Jocelyne Marie Ragody Hughes
● 05.1992–08.1992: Visiting Scientist, Postgraduate Research Institute for Sedimentology, University of Reading, U.K., Hosts: John Robert Laurence Allen and Kenneth Pye
● 12.1991–03.1992: Visiting Research Assistant, Institute of Estuarine and Coastal Studies, University of Hull, U.K., Host: John S. Pethick

§ Inspirational and Motivational Quotes

● The chief aim of all investigations of the external world should be to discover the rational order and harmony which has been imposed on it by God and which He revealed to us in the language of mathematics.
Johannes Kepler (1571-1630)
in Mathematical Thought from Ancient to Modern Times (Kline 1972, page 231), Oxford University Press

● ...the most diverse phenomena are subject to a small number of fundamental laws which are reproduced in all the acts of nature.
Jean Baptiste Joseph Fourier (1768–1830)
in The Analytical Theory of Heat (Fourier 1878, page 1) translated by Alexander Freeman, Cambridge University Press

● It seems to be one of the fundamental features of nature that fundamental physical laws are described in terms of a mathematical theory of great beauty and power, needing quite a high standard of mathematics for one to understand it. You may wonder: Why is nature constructed along these lines? One can only answer that our present knowledge seems to show that nature is so constructed. We simply have to accept it. One could perhaps describe the situation by saying that God is a mathematician of a very high order, and He used very advanced mathematics in constructing the universe. Our feeble attempts at mathematics enable us to understand a bit of the universe, and as we proceed to develop higher and higher mathematics we can hope to understand the universe better.
Paul Adrien Maurice Dirac (1902–1984)
in The Evolution of the Physicist’s Picture of Nature (Dirac 1963, page 53, paragraph 3), Scientific American

§ A Voyage through Turbulence: in search of the great (turbulent) ocean of truth

My first scientific publication came out in 1991. Over the years, it had seemed to myself and others that each of my scientific investigations was aimed in a different direction. I now feel that this apparent disorder was misleading: it hid a strong unity of purpose. The fundamentals of physics and applied mathematics, in particular turbulence and turbulent mixing, are at the core of my scientific learning, thinking and research.

● The von Kármán-Prandtl universal logarithmic law
My earliest interest in turbulence, mainly the turbulent boundary layer and the von Kármán-Prandtl universal logarithmic law in the wall-region of wall-bounded turbulent shear flow, started in December 1991, when I conducted a laboratory flume study of the vertical structure of unidirectional flow within and above a saltmarsh canopy at the University of Hull, England. In 1992, I did the second similar work, i.e. a laboratory flume study of vegetated flow structures, at the University of Reading, England. Results show an interesting feature, i.e. a reversal of the flow velocity gradient, resulting in a secondary flow velocity maximum in the lower part of the canopy. In 2000, I understood that this secondary flow velocity maximum is caused by the interfacial waves due to the flexibilities of canopies. However, the physics of this secondary flow velocity maximum is still unclear.

● The zero-equation turbulence model (Prandtl's mixing length hypothesis)
My interest in turbulence, mainly eddy viscosity and Prandtl's mixing length hypothesis, was stimulated in 1999, when I was learning how to model vertical profiles of current velocity and suspended sediment concentration in tidal estuaries at Shanghai Jiao Tong University, China.

● The Kolmogorov-Obukhov scaling laws
I first learned about the Kolmogorov-Obukhov energy spectrum, E(k){proportional_to}k{sup -5/3}, when I was attending the IUTAM Summer School on “Statistical and Hierarchical Structures in Turbulence”, in Room 434, Department of Mechanical and Engineering Science, State Key Laboratory for Studies of Turbulence and Complex Systems, Peking University, China, on 3-9 August 2001. I was extremely happy to restudy the Kolmogorov-Obukhov scaling laws for the local structure of developed turbulent flow after I came back to Shanghai from Cambridge, England, in 2014. In December 2017, I surprisingly learned from William Kenneth George that K41 is wrong. In the fall of 2018, I learned from Qian Jian about the finite Reynolds number effect of turbulence which accounts for K62's anomalous scaling. In June and August 2019, I surprisingly learned from Robert Antonia that it is K62 that is fundamentally flawed and it is a pity that Kolmogorov felt the need to correct K41.

● The two-equation turbulence model (mainly the k-ε model of turbulence)
My interest in the two-equation turbulence model, mainly the k-ε model of turbulence, became manifest in 2002, when I was learning about modeling of the wave and current boundary layer structure at Shanghai Jiao Tong University, China.

● The statistical mechanics of homogeneous, isotropic turbulence
I became interested in the statistical mechanics of homogeneous, isotropic turbulence in November 2012, when I carried out laboratory experiments on oscillating grid generated turbulence and turbulent mixing in a mean shear-free stably-stratified two-layer fluid at The G.K. Batchelor Laboratory, Department of Applied Mathematics and Physics (DAMTP), University of Cambridge, England.

● Rapid Distortion Theory (RDT)
I became interested in rapid distortion theory (RDT) after I came back to Shanghai from Cambridge, England, when I was learning how to theoretically study the effect of the density interface on the turbulence in a mean shear-free stably-stratified two-layer fluid in September 2015.

● Vortex (a major component of turbulent flow)
I became interested in vorticity in 2016 when I was learning about the flow structure within the curved tidal channel at Shanghai Jiao Tong University, China.

Luckily, I have been doing what I have most wanted to do.

§ Research Interests (most recent first)

● The Fundamentals of Turbulence
○ the pre-factors for Kolmogorov’s turbulence energy spectra at finite high Re

● Environmental Fluid Mechanics
○ the structure of oscillating grid generated inhomogeneous turbulence
○ the decay of oscillating grid generated turbulence
○ turbulence at a non-turbulent/turbulent interface
○ the fractal geometry of oscillating grid generated turbulence at a density interface
○ oscillating grid generated turbulent mixing
in a mean shear-free stably-stratified two-layer fluid

● Environmental Hydraulics
○ hydraulics of vegetated river mean flow
○ the vertical structure of flow within/above a vegetation canopy

● Coastal Oceanography
○ water wave propagation over an uneven bottom
○ the interaction of water waves and currents
○ dispersion, mixing, stratification, and circulation in a river plume/a tidal estuary
○ the vertical structure of the turbulent boundary layer under combined wave and current
○ the turbulent boundary layer of unidirectional tidal flow within/above a salt marsh canopy
○ the physical processes of fine sediment (or non-cohesive sediment) in estuaries and coastal waters

国际学术期刊服务(most recent first)

● Associate Editor
○ 09.2014–12.2020: Journal of Hydro-environment Research, Elsevier
○ 01.2008–12.2019: International Journal of Sediment Research, Elsevier

● Co-Guest Editor of Special Issue
○ 10.2013–05.2015: Environmental Fluid Mechanics, Springer

● Editorial Board
○ 09.2017–12.2020: International Journal of Ocean and Coastal Engineering, World Scientific
○ 01.2015–12.2020: Environmental Fluid Mechanics, Springer
○ 11.2002–12.2017: Geo–Marine Letters, Springer
○ 01.2002–12.2007: International Journal of Sediment Research, IRTCES


§ 中文學術期刊服務

编__委

○ 2000.04–2004.03: 《海洋科学

§ 國際學術會議服務(most recent first)

Member of the Organizing Committee

○ the 7th IAHR Symposium on River, Coastal and Estuarine Morphodynamics, 6-8 September 2011, Tsinghua University, Beijing, China
○ Session Co-Organizer (with Keith MacHutchon and Shi-Sen Li), Coastal Engineering, the 29th International Conference on Ocean, Offshore and Arctic Engineering (OMAE2010), June 6- 11, 2010, Shanghai, China
○ the Seventh International Conference on Tidal Environments (TIDALITES2008), 25-27 September 2008, Qingdao, China

● Member of the International Scientific Committee

○ the 14th International Symposium on River Sedimentation (14th ISRS), September 16-19, 2019, Chengdu, China
○ the IAHR 8th International Symposium on Environmental Hydraulics, June 4-7, 2018, the University of Notre Dame, Notre Dame, Indiana, U.S.A.
○ the 35th International Association of Hydro-Environment Engineering and Research (IAHR2013) World Congress, September 8-13, 2013, Chengdu, China
○ the International Workshop on Next Generation of Nautical Traffic Model, 21-24 September 2012, Shanghai, China

● Session Chair

○ Session Hydraulic Structures 1, 10:00-12:00 Wednesday, June 6, 2018, the IAHR 8th International Symposium on Environmental Hydraulics, June 4-7, 2018, the University of Notre Dame, Notre Dame, Indiana, U.S.A.
○ Session 7B: Open Channel Flows, Lecture Hall 7, the Auditorium Building, the 4th International Symposium on Shallow Flows, 26-28 June 2017, Eindhoven, The Netherlands
○ (with Jianhun Tao) for Session S11-2 Computational Fluid Dynamics, 14:00-18:00 Monday 26 May 2015, Room E of Howard Johnson Kanda Plaza Qingdao, the 7th International Conference on Fluid Mechanics, 24-27 May 2015, Qingdao, China
○ Technical Session 2/Sub-Theme E2, the 35th International Association of Hydro-Environment Engineering and Research (IAHR2013) World Congress, Thursday, September 12, 2013, Chengdu, China
○ (with Keith MacHutchon and Shi-Sen Li), Coastal Engineering, the 29th International Conference on Ocean, Offshore and Arctic Engineering (OMAE2010), June 6- 11, 2010, Shanghai, China
○ (with Sam S.Y. Wang) for Parallel Session Research Technologies for Estuarine Engineering_2; the Second International Conference on Estuaries and Coasts, November 28-30, 2006, Guangzhou, China
○ (with C.T. Chan) for Session C_1 Simulation Techniques in Estuary; the First International Conference on Estuaries and Coasts, November 9-11, 2003, Hangzhou, China
○ Poster Session_3; the Seventh International Conference on Nearshore and Estuarine Cohesive Sediment Transport Processes (INTERCOH2003), October 1-4, 2003, the Virginia Institute of Marine Science, Gloucester Point, Virginia,U.S.A.
○ Session C_1; International Conference on Tidal Dynamics and Environment, 8-13 August 2002, Hangzhou, China
○ (with Hans-Erwin Minor) for Theme D_10 Hydraulics of Rivers, Water Works and Machinery; the XXIXth International Hydraulic Engineering and Research Association Congress (IAHR2001), 16-21 September 2001, Beijing, China
○ (with Romke Bijker) for Theme E_7 Hydraulics for Maritime Engineering; the XXIXth International Hydraulic Engineering and Research Association Congress (IAHR2001), 16-21 September 2001, Beijing, China

Note: most recent first

○ 项目批准号: 国家留学基金管理委员会/国家公派高级研究学者项目/留金发[2019]53号
项目名称: 稳定分层流混合
资助金额: X 万元
起止年月: 2019.09.20-2019.12.20
访问单位: 英国The University of Cambridge

● 项目批准号: 海洋工程国家重点实验室自主研究课题(GKZD010071/021)
项目名称: 小尺度海洋湍流
资助金额: X 万元
起止年月: 2017.07-2018.03

● 项目批准号: 海洋工程国家重点实验室自主研究课题(GKZD010068/012)
项目名称: 浮力效应对分层海洋湍流、混合与垂向扩散的影响
资助金额: X 万元
起止年月: 2016.04-2016.12

● 项目批准号: 海洋工程国家重点实验室自主研究课题(GKZD010065/004)
项目名称: 海洋水体中湍流混合的基础研究
资助金额: X 万元
起止年月: 2015.05-2015.12

○ 项目批准号: 国家留学基金管理委员会/国家公派高级研究学者项目/留金发[2011]3008号
项目名称: 稳定分层无平均剪切二层流中湍流与混合的实验研究
资助金额: X 万元
起止年月: 2012.09-2012.11
访问单位: 英国The University of Cambridge

● 项目批准号: 海洋工程国家重点实验室自主研究课题(GKZD010056/009)
项目名称: 波浪在不平海底床上传播的数学模型
资助金额: X 万元
起止年月: 2011.12-2012.12

● 项目批准号: 国家自然科学基金(水利科学50679040)
项目名称: 潮汐河口羽状流动力学的初步研究-以长江河口为例
资助金额: X 万元
起止年月: 2007.01-2009.12

● 项目批准号: 国家杰出青年科学基金(海洋科学40225014)
项目名称: 河口海岸学
资助金额: X 万元
起止年月: 2003.01-2006.12

§ PROLOGUE

Papers to which my scientific contribution was not substantial appear in [00J], [00J'], [00j] and unnumbered, they are included solely to keep the publication list complete. From 1990 to 2004, “Zhong Shi”, “Z. Shi” and “Shi Zhong” were used for my English name; as of 2005, “John Z. Shi” has been used.

§ 甲輯_英文科學期刊論文目錄

● Papers in International Journals (most recent first)

[46J] John Z. Shi

John Robert Lawrence Allen FRS, FSA (25 October 1932-18 October 2020): a personal tribute.

Geological Magazine: in press

https://doi.org/10.1017/S0016756821000856, accepted 21 July 2021; proof 31 August 2021


[45J] John Z. Shi 2021

Qian Jian (1939-2018) and his contribution to small-scale turbulence studies.

Physics of Fluids 33 (4), 041301

https://doi.org/10.1063/5.0043566


[00] John Z. Shi 2021 

Qian Jian and His Contribution to Small-Scale Turbulence Studies.

http://arxiv.org/abs/2101.00368

 

[44J] John Z. Shi 2021
George Keith Batchelor
s interaction with Chinese fluid dynamicists and inspirational influence: a historical perspective.
Notes and Records of the Royal Society
75 (3): 461-502.


[43Ja] Xiang Pu, John Z. Shi, Guo-Dong Hu 2017a

Corrigendum to The effect of stratification on the vertical structure of the tidal ellipse in the Changjiang River estuary, China. Journal of Hydro-environment Research 15C (2017): 75-94.
Journal of Hydro-environment Research 16 (C): 71.

[43J] Xiang Pu, John Z. Shi, Guo-Dong Hu 2017
The effect of stratification on the vertical structure of the tidal ellipse in the Changjiang River estuary, China.
Journal of Hydro-environment Research 15 (C): 75-94.

[42J] Xiang Pu, John Z. Shi, Guo-Dong Hu 2016
Analyses of intermittent mixing and stratification within the North Passage in the Changjiang (Yangtze) River estuary, China: a three-dimensional model study.
Journal of Marine Systems 158 (C): 140-164.

[41J] Xiang Pu, John Z. Shi, Guo-Dong Hu, Long-Bing Xiong 2015
Circulation and mixing along the North Passage in the Changjiang River estuary, China.
Journal of Marine Systems 148 (C): 213-235.

[40J] Hubert Chanson and John Z. Shi 2015
Environmental hydraulic engineering: a perspective.
Environmental Fluid Mechanics 15 (3): 627-631.

[39J] John Z. Shi, Yan-Hong Li, Jocelyne M.R. Hughes and Ming Zhao 2013
Hydrological characteristics of vegetated river flows: a laboratory flume study.
Hydrological Sciences Journal 58 (5): 1047-1058.

[38J] John Z. Shi 2011
Tide-induced fine sediment resuspension in the well-mixed Hangzhou Bay, East China Sea, China.
Earth and Environmental Science Transactions of the Royal Society of Edinburgh 102 (1): 25-34.

[37J] John Z. Shi, Li-Feng Lu 2011
A short note on the dispersion, mixing, stratification and circulation within the plume of the partially-mixed Changjiang River estuary, China.
Journal of Hydro-environment Research 5 (2): 111-126.

[36J] John Z. Shi, Hong-Long Zhang 2011
Note on a 2DH finite element model of tidal flow of the North Passage of the partially-mixed Changjiang River estuary, China.
Journal of Hydro-environment Research 5 (1): 49-62.

[35J] John Z. Shi, Li-Feng Lu and Ya-Nan Liu 2010
The hydrodynamics of an idealized estuarine plume along a straight coast: a numerical study.
Environmental Modeling & Assessment 15 (6): 487-502.

[34J] John Z. Shi, Hong-Qiang Zhou, Hua Liu and Yong-Gang Zhang 2010
Two-dimensional horizontal modeling of fine sediment transport at the South Channel-North Passage of the partially-mixed Changjiang River estuary, China.
Environmental Earth Sciences 61 (8): 1691-1702.

[33Ja] John Z. Shi 2019
Corrigendum to “Tidal resuspension and transport processes of fine sediment within the river plume in the partially-mixed Changjiang River estuary, China: A personal perspective” [Geomorphology 121(3–4): 133–151].
Geomorphology 328C: 242.

[33J] John Z. Shi 2010
Tidal resuspension and transport processes of fine sediment within the river plume in the partially-mixed Changjiang River estuary, China: a personal perspective.
Geomorphology 121 (3-4): 133-151.

[32J] John Z. Shi, Wen-Jun Gu, Dian-Zhi Wang 2008
Wind wave-forced fine sediment erosion during the slack water periods in Hangzhou Bay, China.
Environmental Geology 55 (3): 629-638.

[31J] Ying-Zhong Liu, John Z. Shi 2008
A theoretical formulation for wave propagations over uneven bottom.
Ocean Engineering 35 (3-4): 426-432.

[30J] John Z. Shi, Yun Wang 2008
The vertical structure of combined wave-current flow.
Ocean Engineering 35 (1): 174-181.

[29J] Li-Feng Lu and John Z. Shi 2007
The dispersal processes within the tide-modulated Changjiang River plume, China.
International Journal for Numerical Methods in Fluids 55 (12): 1143-1155.

[28Ja] Ying-Zhong Liu, John Z. Shi, Will Perrie 2017
Corrigendum to ‘A theoretical formulation for modeling 3D wave and current interactions in estuaries. Advances in Water Resources 30 (8): 1737-1745.’
Advances in Water Resources 108C: 328.

[28J] Ying-Zhong Liu, John Z. Shi, Will Perrie 2007
A theoretical formulation for modeling 3D wave and current interactions in estuaries.
Advances in Water Resources 30 (8): 1737-1745.

[27J] John Z. Shi and Li-Feng Lu 2007
A model of the wave and current boundary layer structure.
Hydrological Processes 21 (13): 1780-1786.

[26J] John Z. Shi, Mark E. Luther and Stephen Meyers 2006
Modeling of wind wave-induced bottom processes during the slack water periods in Tampa Bay, Florida.
International Journal for Numerical Methods in Fluids 52 (11): 1277-1292.

[25J] Shen-Liang Chen, Guo-An Zhang, Shi-Lun Yang, John Z. Shi 2006
Temporal variations of fine suspended sediment concentration in the Changjiang River estuary and adjacent coastal waters, China.
Journal of Hydrology 331 (1-2): 137-145.

[24J] Zi-Dan Zhao, Ji-Jian Lian, John Z. Shi 2006
Interactions among waves, current, and mud: numerical and laboratory studies.
Advances in Water Resources 29 (11): 1731-1744.

[23J] John Z. Shi, S.Y. Zhang, L.J. Hamilton 2006
Bottom fine sediment boundary layer and transport processes at the mouth of the Changjiang Estuary, China.
Journal of Hydrology 327 (1-2): 276-288.

[22J] S.S. Li and John Z. Shi 2006
Algorithms for automatic generating interior nodal points and Delaunay triangulation using advancing front technique.
Communications in Numerical Methods in Engineering 22 (5): 467-474.

[00J] Dai-Du Fan, Yan-Xia Guo, Ping Wang, John Z. Shi 2006
Cross-shore variations in morphodynamic processes of an open-coast mudflat in the Changjiang Delta: with an emphasis on storm impacts.
Continental Shelf Research 26 (4): 517-538.

[00J] S.L. Yang, Z. Shi, H.Y. Zhao, P. Li, S.B. Dai and A. Gao 2004
Effects of human activities on the Yangtze River suspended sediment flux into the estuary in the last century.
Hydrology and Earth System Sciences 8 (6): 1210-1216.

[21J] H.Q. Cheng, R. Kostaschuk and Z. Shi 2004
Tidal currents, bed sediments and bedforms at the South Branch and the South Channel of the Changjiang (Yangtze) Estuary, China: implications for the ripple-dune transition.
Estuaries 27 (5): 861-866.

[20J] Z. Shi and H.J. Zhou 2004
Controls on settling velocities of mud flocs in the Changjiang Estuary, China.
Hydrological Processes 18 (15): 2877-2892.

[19J] Z. Shi 2004
Behavior of fine suspended sediment at the North Passage of the Changjiang Estuary, China.
Journal of Hydrology 293 (1-4): 180-190.

[00J] Shi-Lun Yang, Carl T. Friedrichs , Zhong Shi, Ping-Xing Ding, Jun Zhu and Qing-Ying Zhao 2003
Morphological response of tidal marshes, flats and channels of the outer Yangtze River mouth to a major storm.
Estuaries 26 (6): 1416-1425.

[18J] Zhong Shi, Hua-Jun Zhou, Stephen L. Eittreim, Johan C. Winterwerp 2003
Settling velocities of fine suspended particles in the Changjiang Estuary, China.
Journal of Asian Earth Sciences 22 (3): 245-251.

[17J] Z. Shi, S.S. Li and O.S. Petersen 2003
A vertically moving grid finite element modeling of tidal flow in the Changjiang Estuary, China.
International Journal for Numerical Methods in Fluids 43 (2): 115-127.

[16J] Z. Shi and R. Kirby 2003
Observations of fine suspended sediment processes in the turbidity maximum at the North Passage of the Changjiang Estuary, China.
Journal of Coastal Research 19 (3): 529-540.

[15J] Z. Shi and J.M.R. Hughes 2002
Laboratory flume studies of microflow environments of aquatic plants.
Hydrological Processes 16 (16): 3279-3289.

[14J] Z. Shi, L.J. Hamilton and E. Wolanski 2000
Near-bed currents and suspended sediment transport in saltmarsh canopies.
Journal of Coastal Research 16 (3): 909-914.

[13Ja] Z. Shi, L.J. Hamilton and L.F. Ren 2001
Acoustic profiling of fine suspension concentration in the Changjiang Estuary - Reply.
Estuaries 24 (1): 136-137.

[13J] Z. Shi, L.F. Ren, L.J. Hamilton 1999
Acoustic profiling of fine suspension concentration in the Changjiang Estuary.
Estuaries 22 (3A): 648-656.

[12J] Z. Shi 1998
Acoustic observations of fluid mud and interfacial waves, Hangzhou Bay, China.
Journal of Coastal Research 14 (4): 1348-1353.

[11J] L.J. Hamilton, Z. Shi and S.Y. Zhang 1998
Acoustic backscatter measurements of estuarine suspended cohesive sediment concentration profiles.
Journal of Coastal Research 14 (4): 1213-1224.

[10J] Z. Shi, L.F. Ren, S.Y. Zhang, J.Y. Chen 1997
Acoustic imaging of cohesive sediment re-entrainment and resuspension in the Changjiang Estuary, East China Sea.
Geo-Marine Letters 17 (2): 162-168.

[09J] Z. Shi, L.F. Ren, H.L. Lin 1996
Vertical suspension profile in the Changjiang Estuary.
Marine Geology 130 (1-2): 29-37.

[08J] Z. Shi and J.Y. Chen 1996
Morphodynamics and sediment dynamics on intertidal mudflats in China (1961-1994).
Continental Shelf Research 16 (15): 1909-1926.

[07J] Z. Shi, J.S. Pethick, F. Burd, B. Murphy 1996
Velocity profiles in a saltmarsh canopy.
Geo-Marine Letters 16 (4): 319-323.

[06Ja] John Z. Shi, John S. Pethick and Kenneth Pye 2018
Corrigendum to: Shi, Z., Pethick, J.S. and Pye, K. 1995 Flow structure in and above the various heights of a saltmarsh canopy: a laboratory flume study. Journal of Coastal Research, 11 (4): 1204-1209.
Journal of Coastal Research 34 (1): 254.

[06J] Z. Shi, J.S. Pethick and K. Pye 1995
Flow structure in and above the various heights of a saltmarsh canopy: a laboratory flume study.
Journal of Coastal Research 11 (4): 1204-1209.

[05J] Z. Shi, H.F. Lamb, R.L. Collin 1995
Geomorphic change of saltmarsh tidal creek networks in the Dyfi Estuary, Wales.
Marine Geology 128 (1-2): 73-83.

[04J] Z. Shi 1993
Recent saltmarsh accretion and sea level fluctuations in the Dyfi Estuary, central Cardigan Bay, Wales, U.K.
Geo-Marine Letters 13 (3): 182-188.

[03Ja] John Z. Shi 2018
Corrigendum to: Shi, Z. 1992 Application of the 'Pejrup Approach' for the Classification of the Sediments in the Microtidal Dyfi Estuary, West Wales, U.K. Journal of Coastal Research, 8 (2), 482-491.
Journal of Coastal Research 34 (1): 254.

[03J] Zhong Shi 1992
Application of 'Pejrup Approach' for the classification of the sediments in the microtidal Dyfi Estuary, West Wales, U.K.
Journal of Coastal Research 8 (2): 482-491.

[02J] Zhong Shi and H.F. Lamb 1991
Post-glacial sedimentary evolution of a microtidal estuary, Dyfi Estuary, West Wales.
Sedimentary Geology 73 (3-4): 227-246.
[Corrigendum: for microtidal read mesotidal]

[01J] Zhong Shi 1991
Tidal bedding and tidal cyclicities within the intertidal sediments of a microtidal estuary, the Dyfi River Estuary, West Wales, U.K.
Sedimentary Geology 73 (1-2): 43-58.
[Corrigendum: for microtidal read mesotidal]

● Papers in Other English Journals (most recent first)

[01J’] John Z. Shi, Chen Li, Xi-Ping Dou 2010
Three-dimensional modeling of tidal circulation within the North and South Passages of the partially-mixed Changjiang River estuary, China.
Journal of Hydrodynamics B22 (5) Supplement 1: 656-661.

[00J’] Zhang Hong-sheng, Zhao Hai-jun and Shi Zhong 2007
A finite-difference approach to the time-dependent mild-slope equation.
China Ocean Engineering 21 (1): 65-76.

[00J’] Zhao Zi-Dan, You Tao, Shi Zhong 2005
Wave height distribution for spilling waves inside and outside the surf zone.
Transactions of Tianjin University 11 (5): 365-370.

[00J’] Li Shao-wu, Li Chun-ying, Shi Zhong and Gu Han-bin 2005
An improved nearshore wave breaking model based on the fully nonlinear Boussinesq equations.
China Ocean Engineering 19 (1): 61-71.

● Miscellaneous Articles in International Journals (most recent first)

[14M] John Z. Shi

Qian Jian.

Physics Today:
https://physicstoday.scitation.org/do/10.1063/PT.6.4o.20181231a/full/

[13M] John Z. Shi 2018

Chen Jiyu (1921-2017).

Journal of Coastal Research 34 (3): 766-768.

[12M] John Z. Shi and Hong-Wei Fang 2014

Professor Zhao-Yin Wang, Ph.D., M.ASCE Editor-in-Chief of the International Journal of Sediment Research (January 1998 – December 2013).

International Journal of Sediment Research 29 (1): 133–134.

[11M] John Z. Shi 2011

Estuaries: Monitoring and Modeling the Physical System by Jack Hardisty.

Journal of Coastal Research 27 (3): 604-606.

[10M] John Z. Shi 2010

Jurjen Anno Battjes Elected Foreign Associate of the National Academy of Engineering of the United States 2009.

Journal of Coastal Research 26 (3): 588-589.

[09M] John Z. Shi 2010

Estuaries: Dynamics, Mixing, Sedimentation and Morphology by David Prandle.

Journal of Coastal Research 26 (3): 586-587.

[08M] John Z. Shi 2010

Review of An Introduction to Ocean Turbulence by S.A. Thorpe 2007.

Environmental Earth Sciences 59 (8): 1827-1828.

[07M] John Z. Shi 2010

Review of Cohesive Sediments in Open Channels: Erosion, Transport, and Applications by Emmanuel Partheniades.

Journal of Hydraulic Engineering 136 (4): 272-273.

[06M] John Z. Shi 2010

Review of Numerical Modeling of Water Waves by Pengzhi Lin.

Journal of Hydro-environment Research 4 (1): 55-57.

[05M] John Z. Shi 2009

Sediment and Ecohydraulics by Tetsuya Kusuda, Hiroyuki Yamanishi, Jeremy Spearman, Joseph Z. Gailani.

Journal of Hydro-environment Research 3 (3): 160-162.

[04M] John Z. Shi 2009

Estuarine and Coastal Fine Sediment Dynamics by Jerome P.-Y. Maa, Lawrence P. Sanford, David H. Schoellhamer.

Journal of Coastal Research 25 (5): 1173-1174.

[03M] John Z. Shi 2009

The Environment in Asia Pacific Harbours by Eric Wolanski.

Journal of Coastal Research 25 (4): 1065-1066.

[02M] John Z. Shi 2009

The Dynamics of Coastal Models by Clifford J. Hearn.

Journal of Coastal Research 25 (4): 1064-1065.

[01M] John Z. Shi 2009

Ren Mei-e (1913-2008).

Journal of Coastal Research 25 (2): 526-527.
[See also: Obituary: Professor Ren Mei-e (1913-2008), B.Sc. (Nanjing), Ph.D. (Glasgow).

Estuarine, Coastal and Shelf Science 82 (2): 169-170.]

§ 乙輯_合編輯的國際期刊特刊
● Co-Edited Special Issue of International Journal (SI refers to Special Issue)

[01SI] Hubert Chanson and John Z. Shi 2015
Environmental Hydraulic Engineering.
Environmental Fluid Mechanics 15 (3): 627-693.

§ 丙輯_英文科學會議論文目錄
● Papers in Proceedings of International Conferences (most recent first)
[Some of them were further developed and later elaborated in international journals.]

[21C] John Z. Shi, Zhi-Bin Chen and Yun Wang 2016
The vertical structure of the turbulent boundary layer under combined wave and current.
Proceedings of The Second Conference of Global Chinese Scholars on Hydrodynamics (CCSH’2016), November 11-14, 2016. Wuxi, China, China Ocean Press, Beijing, pp. 102-107.

[20C] John Z. Shi and Shuang Zhang 2016
Turbulent mixing across a shear free density interface in a stably stratified fluid.
In: S.G. Sajjadi and H.J.S. Fernando (Eds.),
Proceedings of the Institute of Mathematics and its Applications (IMA) Conference on Turbulence, Waves and Mixing (In Honour of Lord Julian Hunt’s 75th Birthday), King’s College, Cambridge, U.K., pp. 33-36.

[19Ca] John Z. Shi and Shuang Zhang 2015
Corrigendum to Laboratory Experiment on Turbulent Mixing and Fractal Dimension of a Density Interface in a Stably Stratified Fluid: [Procedia Engineering 126 (2015) 103 – 107].
Procedia Engineering 126: 745-746.

[19C] John Z. Shi and Shuang Zhang 2015
Laboratory experiment on turbulent mixing and fractal dimension of a density interface in a stably stratified fluid.
Procedia Engineering 126 (C): 103-107.

[18C] J.Z. Shi, Y.-H. Li, J.M.R. Hughes and M. Zhao 2010
Laboratory measurement and analysis of hydraulic parameters in vegetated river flows.
In: G.C. Christodoulou and A.I. Stamou (Eds.), Environmental Hydraulics, Taylor & Francis Group, London, pp. 221-226.

[17C] John Z. Shi and Hong-Long Zhang 2009
A 2HD finite element model of tidal flow of the North Passage of the Changjiang River estuary, China.
Proceedings of the 3rd International Conference on Estuaries and Coasts; 14-16 September 2009, Tohoku University, Sendai, Japan; Volume 1, pp. 134-141.

[16C] John Z. Shi and Li-Feng Lu 2009
A numerical study of the dispersion, mixing, stratification, and circulation within the plume of the Changjiang River estuary, China: influences of combined tidal constituents and steady winds.
Proceedings of the 33rd International Association of Hydraulic Engineering & Research (IAHR) Biennial Congress: Water Engineering for a Sustainable Environment, 9-14 August 2009, Vancouver, Canada; pp. 4759-4766.

[15C] Li-Feng Lu and John Z. Shi 2006
On the dispersion of the tide-modulated Changjiang River plume, China: a numerical study.
Proceedings of the 2nd International Conference on Estuaries and Coasts, November 28-30, 2006, Guangzhou, Volume II, Guangdong Economy Publishing House, China: pp. 1072-1079.

[14C] John Z. Shi, Li-Feng Lu, Ya-Nan Liu 2006
Factors affecting the evolution of the river plume in an idealized tidal estuary.
Proceedings of the 2nd International Conference on Estuaries and Coasts, November 28-30, 2006, Guangzhou, Volume I, Guangdong Economy Publishing House, China: pp. 196-203.

[13C] John Z. Shi, L.F. Lu 2006
A simple numerical model of the coastal wave and current boundary layer structure.
In: Agustin Sanchez-Arcilla (Ed.),
Proceedings of the 5th International Conference on Coastal Dynamics 2005, Barcelona, Spain, 4-8 April 2005, ASCE, New York, USA, ISBN 0784408556, CD-ROM.

[12C] L.F. Lu, S.W. Li, Z. Shi 2005
k-epsilon turbulence modeling of tidal bore in an idealized estuary.
In: Joseph H.W. Lee and Kit M. Lam (Eds.),
Environmental Hydraulics and Sustainable Water Management. Volume 1. Environmental Hydraulics.
Proceedings of the 4th International Symposium on Environmental Hydraulics and 14th Congress of the Asia and Pacific Division of the International Association of Hydraulic Engineering and Research, December 15-18, 2004, Hong Kong, China. A.A. Balkema Publishers, Leiden, The Netherlands: pp. 517-523.

[11C] Z. Shi 2004
Fine sediment processes in the Changjiang River estuary, China.
Proceedings of the 9th International Symposium on River Sedimentation, October 18-21, 2004, Yichang, China, Volume I, Tsinghua University Press, Beijing, China: pp. 386-393.

[10C] Z. Shi, S. Meyers & M.E. Luther 2003
Modeling of wind wave-induced bottom currents and fine sand transport in Tampa Bay, Florida, USA.
Proceedings of the International Conference on Estuaries and Coasts, November 9-11, 2003, Hangzhou, Zhejiang University Press, China: pp. 865-871.

[09C] Hanbin Gu, Shaowu Li, Zhong Shi 2003
A numerical model of nearshore irregular wave based on fully nonlinear Boussinesq equations.
Proceedings of the Thirteenth International Offshore and Polar Engineering Conference, Volume III, May 25-30, 2003, Honolulu, Hawaii, USA: pp. 320-324.

[08C] S.S. Li, Zhi-Xia Zhu, Z. Shi 2003
Automatic triangulation of estuarine arbitrary planar domain with special reference to the Changjiang Estuary.
Proceedings of the Thirteenth International Offshore and Polar Engineering Conference, Volume II, May 25-30, 2003, Honolulu, Hawaii, USA: pp. 296-302.

[07C] Z. Shi 2002
Dynamics of the turbidity maximum in the Changjiang Estuary, China.
In: J.C. Winterwerp and C. Kranenburg (Eds.),
Fine Sediment Dynamics in the Marine Environment.
Proceedings of the 6th International Conference on Nearshore and Estuarine Cohesive Sediment Transport Processes (INTERCOH2000), Elsevier.
Proceedings in Marine Science 5 (C): 655-669.

[06C] Zhong Shi, Shi-sen Li 2002
Two-dimensional vertical finite element modeling of tidal flow in the Yangtze River estuary.
Proceedings of the 4th International Conference on Nonlinear Mechanics, August 13-16, 2002, Shanghai, China, Shanghai University Press: pp. 956-961.

[05C] Z. Shi 2001
Modeling concentration profiles of cohesive sediment in the Changjiang Estuary.
Proceedings of the XXIX International Association of Hydraulic Engineering and Research Congress, September 16-21, 2001, Theme E, Tsinghua University Press, Beijing, China: pp. 445-453.

[04C] S.S. Li and Z. Shi 2001
2 DV FEM modeling of estuarine tidal flow.
Proceedings of the XXIX International Association of Hydraulic Engineering and Research Congress, September 16-21, 2001, Theme E, Volume 1, Tsinghua University Press, Beijing, China: pp. 326-333.

[03C] Z. Shi and J.M.R. Hughes 2001
Turbulent structure of open-channel flow over aquatic plants: a laboratory flume study.
Proceedings of the XXIX International Association of Hydraulic Engineering and Research Congress, September 16-21, 2001, Theme D, Tsinghua University Press, Beijing, China: pp. 310-318.
[Corrigendum: for ‘Turbulent’ read ‘The vertical’]

[02C] Shuying Zhang, Zhong Shi and Yunwu Li 1998
Acoustic observations of suspended sediments in the Changjiang Estuary.
Proceedings of the 16th International Congress on Acoustics, June 20-26, 1998, Seattle, Washington, USA: 1047-1048.

[01C] Z. Shi 1995
The morphological change of saltmarsh tidal creek network in the Dyfi Estuary, Wales.
Proceedings of International Conference 'Coastal Change 95' Bordomer-IOC, Bordeaux, France: pp. 448-450.

§ 丁輯_英文科學報告目錄
● List of International Presentation (including Conference, Congress, Meeting, Seminar, Summer School, Symposium, Workshop)[most recent first; asterisk/Presenter]

[87P] John Z. Shi 2019
George Keith Batchelor’s interaction with Chinese fluid dynamicists and inspirational influence: a historical perspective.
In: Room MR15, Center for Mathematical Sciences, University of Cambridge, U.K., 13:00-14:00 p.m., Friday 29 November 2019.

[86P] John Z. Shi, Xiang Pu, Cong-Ying Shao, Wei Li, Guo-Dong Hu and Zheng-Xiang Wang 2019
Coastal processes: with special reference to physical processes in the Changjiang River estuary, China.
In: Lecture Room LT908, Department of Mathematics and Statistics, University of Strathclyde, 26 Richmond Street, Glasgow G1 1XH, U.K., 3:30-4:30 p.m., Wednesday 13 November 2019.

[85P] John Z. Shi and Zhao-Hui Li 2019
Interaction between turbulence and a non-turbulent/turbulent density interface
in a mean shear-free stably stratified two-layer fluid: an extended theoretical approach.
in Room MR12, Centre for Mathematical Sciences, 1:00-2:00 p.m., Tuesday 22 October 2019, at Institute of Theoretical Geophysics Seminar, Department of Applied Mathematics and Theoretical Physics, University of Cambridge, England

[84P] John Z. Shi*, Xiang Pu, Cong-Ying Shao, Wei Li, Guo-Dong Hu and Zhen-Xiang Wang 2019 (Keynote Speaker, K7)
Circulation, turbulence, mixing and stratification in the Changjiang River estuary, China: implications for sedimentation.
in Wufu Hall, Wangjiang Hotel, Chengdu, Sichuan, China, 10:50:11:10 a.m., 18 September 2019, at the 14th International Symposium on River Sedimentation, Chengdu, China, 16-19 September 2019.

[83P] Shi, John Z. and Li, Zhao-Hui 2019 (submitted Abstract)
A numerical study of the interaction between turbulence and a mean-shear free density interface.
17th European Turbulence Conference (ETC 2019), Torino, Italy, 3-6 September 2019.

[82P] John Z. Shi 2019 (Invited Lecturer)
A short voyage through turbulence: a historical and personal perspective.
2019 International Summer School on Naval Architecture, Ocean Engineering and Mechanics, Shanghai Jiao Tong University, China, 22 July to 2 August 2019.
Ruth Mulan Chu Chao Building A200, Session 22, 15:20-16:50 Tuesday 20 July 2019.

[81P] John Z. Shi*, Xiang Pu, Guo-Dong Hu 2019 (Invited)
The possible effect of the stratification on the vertical structure of the tidal ellipse in estuarine waters: the Ekman approach vs the Stokes approach.
at Session P1-Physics of Estuaries and Coastal Seas, The Fourth Xiamen Symposium on Marine Environmental Sciences (XMAS), Conference Hall, 10:10-10:30 a.m. (20 min), Monday 07 January 2019, Xiamen University, China.

§ 戊輯_中文科學期刊論文目錄

● Papers in Chinese Journals (most recent first)

[41ja] __ 2021

作者更正:稳定分层二层流室内实验早期格栅湍流结构.

《实验力学》36 (4): 479.


[41j] 邓莹莹、时__ 2021

稳定分层二层流室内实验早期格栅湍流结构.

《实验力学》36 (2): 205-222.

 

[40j] __钟、熊龙兵、倪智慧、李__ 2019

潮汐河口环流、湍流、混合与层化的物理学.

《海岸工程》 38 (1): 1-31.

 

[39j] 李兆辉、时__ 2018

稳定分层二层流非湍流/湍流层无平均剪切密度界面处的湍流.

《计算物理》 35 (6): 15-32.

 

[38j]   祥、时  钟、胡国栋 2018

长江河口北槽的周期性层化对潮流椭圆垂向结构的影响.

《海洋科学进展》36 (3): 352-362.

 

[37j] __为、时__钟、浦__祥、胡国栋 2017

长江河口北槽弯道环流的涡度研究.

《海洋与湖沼》48 (4): 682-694.

 

[36j] 邵聪颖、浦__祥、时__钟、胡国栋、王真祥 2016

长江河口北槽弯道横向次生流、混合与层化.

《海洋工程》34 (3): 80-98.

 

[35j] __爽、时__ 2015

稳定分层流密度界面处湍流混合与分形结构.

《力学学报》47 (4): 547-556.

 

[34j] 熊龙兵、浦__祥、时__钟、胡国栋、施慧燕 2014

潮汐应变对长江口北槽枯季湍流混合与层化的影响.

《海洋工程》32 (4): 41-57.

 

[33j] 彭延建、刘应中、时__ 2014

波浪在不平坦海岸底床上传播的平面二维数学模型.

《中国港湾建设》1 : 8-13.

 

[32j] __霞、胡国栋、时__钟、徐海东、施慧燕 2013

长江口南支南港北槽枯季水体中混合、层化与潮汐应变.

《水运工程》9: 79-88, 94.

 

[31j] 倪智慧、陈__辉、董礼先、时__钟、王殿志、翟__ 2012

长江口外羽状流水体中的垂向混合、层化的观测与分析.

《上海交通大学学报》 46 (11):1862-1873.

 

[30j] 彭延建、刘应中、时__ 2010

波浪在缓变海底上传播的一个简单数学模型.

《海洋通报》29 (3): 302–309.

 

[00j] 李孟国、李文丹、时__钟、李世森 2008

田湾核电站海域潮流泥沙数值模拟研究.

《泥沙研究》2: 16–23.

 

[29j] 张洪龙、刘亚男、卢丽锋、时__ 2007

一个概化的潮汐河口羽状流动力学的初步研究.

《海洋通报》26 (1): 3–11.

 

[00j] 李孟国、李文丹、时__ 2006

非缓坡非均匀流场中多向不规则波传播数学模型的建立.

《水道港口》 27 (5): 279–283.

 

[00j] 李孟国、时__ 2006

如东海域太阳沙人工岛陆岛通道实体堤合理长度潮流数模研究.

《水运工程》9: 5–9.

 

[00j] 李孟国、李文丹、时__ 2006

综合考虑多种变形因素的近岸规则波传播数学模型.

《海洋湖沼通报》3: 6–12.

 

[00j] 李孟国、时__ 2006

黄岛电厂取水工程潮流泥沙数值模拟.

《海岸工程》25 (2): 13–21.

 

[00j] 李孟国、时__钟、李文丹 2006

综合考虑多种变形因素的近岸多向不规则波传播数学模型—I. 模型的建立.

《水动力学研究与进展》21 (4): 444–450.

 

[00j] 李孟国、时__ 2006

江苏如东海域西太阳沙人工岛工程潮流数学模型研究.

《中国港湾建设》3: 1–4.

 

[00j] 李孟国、秦崇仁、时__ 2006

近岸多向不规则波传播变形的数学模型.

《天津大学学报》39 (3): 289–294.

 

[00j] 李孟国、时__ 2005

江苏如东西太阳沙及烂洋海域潮流泥沙数值模拟.

《海洋通报》24 (6): 9–16.

 

[00j] 李绍武、李春颖、谷汉斌、时__ 2005

一种改进的近岸波浪破碎数值模型.

《水科学进展》16 (1): 3641.

 

[00j] 李孟国、时__钟、范文静 2005

瓯江口外洞头岛北岙后涂围垦工程潮流数值模拟研究.

《海洋通报》24 (1): 1–7.

 

[28j] __钟、翟__强、李艳红 2004

河口研究新进展16届河口研究联合会会议综述.

《海洋科学》28 (12): 7074.

 

[00j] 陈晓宏、张__蕾、时__ 2004

珠江三角洲河网区水位特征空间变异性研究.

《水利学报》10: 3642.

 

[27j] __ 2004

长江口北槽细颗粒悬沙絮凝体的沉降速率的近似估算.

《海洋通报》23 (5): 51–58.

 

[00j] 王殿志、张庆河、时__ 2004

渤海湾风浪场的数值模拟.

《海洋通报》23 (5): 10–17.

 

[00j] 李绍武、卢丽锋、时__ 2004

河口准三维涌潮数学模型.

《水动力学研究与进展》19 (4): 407–415.

 

[00j] 李孟国、时__钟、范文静 2004

潮流数学模型在兴化湾深水航道研究中的应用.

《水运工程》7: 59–62.

 

[00j] 李孟国、时__钟、吴以喜 2004

温州中心渔港防波堤工程潮流数学类比及底床冲淤计算.

《中国港湾建设》3: 20–23.

 

[26j] __钟、周凌红、王殿志、卢丽锋 2004

河口和海岸海物理海洋学进展11PECS02会议综述.

《海洋科学进展》22 (2): 240–246.

 

[25j] 程和琴、时__钟、Kostaschuk R.、董礼先 2004

长江口南支-南港沙波的稳定域.

《海洋与湖沼》35 (3): 214–220.

 

[00j] 程和琴、蒋智勇、时__ 2003

长江口南槽非均匀细颗粒泥沙起动流速的近似估算.

《泥沙研究》5: 37–40.

 

[24j] __钟、李艳红  2003

含植物河流平均流速分布的实验研究.

《上海交通大学学报》37 (8): 12441260.

 

[00j] 李艳红、周华君、时__ 2003

山区河流平面二维流场的数值模拟.

《水科学进展》14 (4): 424429.

 

[23j] __钟、李世森 2003

垂向二维潮流数值模型及其在长江口北槽的应用.

《海洋通报》22 (3): 1–8.

 

[00j] 李孟国、时__钟、秦崇仁 2003

伶仃洋三维潮流输沙的数值模拟.

《水利学报》4: 51–57.

 

[22j] __ 、王__云、汪有军、江__ 2002

长江口南部水域次级羽状锋的特性.

《海洋通报》21 (6): 18.

 

[21j] 李世森、时__钟、朱志夏 2002

长江口北槽水域Delaunay三角剖分.

《上海交通大学学报》36 (11): 16971702.

 

[20j] __钟、李世森、李艳红 2002

近岸与河口粘性泥沙输移过程6INTERCOH综述.

《泥沙研究》3: 74–80.

 

[19j] __ 2001

杭州湾深水航道浮泥的观测.

《海洋通报》20 (6): 4050.

 

[18j] 杨世伦、时__钟、赵庆英 2001

长江口潮沼植物对动力沉积过程的影响.

《海洋学报》23 (4): 7580.

 

[17j] 李世森、时__钟、刘应中 2001

河口潮流垂向二维有限元数学模型.

《海洋科学》25 (9): 39–44.

 

[16j] __ 2001

海岸盐沼冠层水流平均流速分布的实验研究.

《海洋工程》19 (3): 51–59.

 

[15j] __ 2001

长江口水动力过程的研究进展 (1979–1999).

《海洋科学》25 (6): 54–57.

 

[14j] 刘应中、时__ 2001

河口波流相互作用的数学模型.

《海洋科学》25 (5): 42–46.

 

[00j] 李世森、朱志夏、秦__岭、时__ 2000

任意平面区域的自动三角剖分.

《天津大学学报》33 (5): 592–598.

 

[13j] __ 2000

河口海岸底部边界层和细颗粒泥沙过程.

《海洋科学》24 (11): 26–30.

 

[12j] __ 2000

长江口细颗粒泥沙过程.

《泥沙研究》6: 72–81.

 

[11j] __钟、周洪强 2000

长江口北槽口外悬沙浓度垂线分布的数学模拟.

《海洋工程》18 (3): 57–62.

 

[10j] __钟、朱文蔚、周洪强 2000

长江口北槽口外细颗粒悬沙沉降速度.

《上海交通大学学报》34 (1): 18–23.

 

[09j] __钟、陈伟民 2000

长江口北槽最大浑浊带泥沙过程.

《泥沙研究》1: 28–39.

 

[08j] __钟、凌鸿烈 1999

长江口细颗粒悬沙浓度垂向分布.

《泥沙研究》2: 59–64.

 

[j07] __钟、杨世伦、缪__ 1998

海岸盐沼泥沙过程现场实验研究.

《泥沙研究》4: 28–35.

 

[06j] __钟、张叔英、Hamilton L.J. 1998

河口近底细颗粒悬沙运动的声散射观测.

《声学学报》23 (3): 221–228.

 

[05j] __钟、周洪强 1997

长江口深水航道北槽口外悬沙浓度垂向分布.

《上海交通大学学报》 31 (11): 3035.

 

[04j] __ 1997

海岸盐沼植物单向恒定水流流速剖面.

《泥沙研究》3: 8288.

 

[03j] __钟、陈吉余、虞志英 1996

中国淤泥质潮滩沉积研究的进展.

《地球科学进展》11 (6): 555561.

 

[02j] __钟、陈吉余 1995

盐沼的侵蚀、堆积和沉积动力.

《地理学报》50 (6): 562567.

 

[01j] __钟、Pye K.、陈吉余 1995

潮滩盐沼物理过程的研究进展综述.

《地球科学进展》10 (1): 1930.


● miscellaneous articles in Chinese Journals (most recent first)

[04m] __ 2019

纪念钱俭博士.

《力学学报》51 (1): 289-291.

 

[03m] __ 2016

纪念恽才兴先生.

《海洋工程》34 (1): 124.

 

[02m] __ 2000

海岸河口高潮滩盐沼边界层沉积动力研究.

《海洋科学》7: 56.

 

[01m] __ 2000

长江口底部边界层细颗粒泥沙过程.

《海洋科学》4: 56.


§ 己辑_中文科学专著

[01b] 时__钟 2013

《河口海岸细颗粒泥沙物理过程》.

上海: 上海交通大学出版社, xv+334 pp.
http://www.jiaodapress.com.cn[资源下载: 河口海岸细颗粒泥沙物理过程 参考文献2013-12-04]


庚輯_中文會議論文
[under construction]

§ 辛輯_中文科學報告目錄
● 中文科學報告(包括參會)(including Conference, Congress, Meeting, Seminar, Symposium, Workshop)
[most recent first; *Presenter
]

[43p] John Z. Shi* 2019
Cambridge Fluid Mechanics: a personal perspective.
16:00-17:00, 12 September 2019, Room 412, Block 7 Chuangyuan, 創園7棟412報告廳,
南方科技大學力學與航空航天系特邀報告97期.
(it was presented in English)

[42p] John Z. Shi* 2019
George Keith Batchelor’s interaction with Chinese fluid dynamicists and inspirational influence: a historical perspective.
in 103A, 杭州國際博覽中心, 08:30-08-45, 2019.08.28
中國力學大會、第9屆全國力學史與方法論學術研討會,中國力學學會、浙江大學主辦,2019.08.26-28.

[41p] John Z. Shi* and Zhao-Hui Li 2019
The physics of interaction between turbulence and a non-turbulent/turbulent density interface in a mean shear-free stably stratified two-layer fluid.
第二屆湍流新思維研討會.
前湖酒店305会议室,2019.08.12, 13:40, 南昌大學高等研究院,江西省南昌市,2019.8.12-14.

[40p] John Z. Shi* (時__鐘) 2019
Some Thoughts on Turbulence and a Tribute to Cambridge Fluid Mechanics.
北京航空航天大學陸世嘉講堂特邀報告,新主樓D120, 2019.07.10, 2:30-5:30.
(it was presented in English)

[39p] John Z. Shi* (時__鐘) 2019
A Short Voyage through Turbulence: A Personal Perspective.
上海應用技術大學機械工程學院第一學科樓A301室,2019.06.20上午10:00.
(it was presented in English)

[38p] John Z. Shi* (時__鐘), Ying-Ying Deng (鄧瑩瑩) 2019 (特邀报告)
On the pre-factors for Kolmogorov’s turbulence energy spectra at finite high Re: a dipole space-filling approach.
at 11:33-11:45 a.m., 2019.01.28, 海南省海口市華彩華邑酒店報告廳.
“湍流结构的生成演化及作用机理”重大研究计划2018年度交流会暨迎新春流体力学研讨会, 2019.01.26-28.
(consider a couple of international participants (Masato Nagata 永田雅人) there, it was presented in English)



_中文随笔目录

 

Cogito, ergo sum. [I am thinking, therefore I exist.] René Descartes (1596 – 1650)

 

Essays in Chinese Journal and Newspaper (most recent first)

 

[19e] __ 2021 剑桥三一语丝. 《世界科学》 2: 59-61.

 

[18e] __ 2011 想象力比知识更重要 浅议青年学生思维能力的培养. 《世界科学》 8: 52-55.

 

[17e] __ 2007 人性与人生语丝. 《上海交大报思源湖副刊》2007108日第3154.

 

[16e] __ 2006 家即是我工作的地方 写在诺贝尔逝世110周年纪念日. 《上海交大报思源湖副刊》20061211日第2874.

: Home is where I work 写在诺贝尔逝世110周年纪念日. 《世界科学》12: 42-45.

 

[15e] __ 2006 尊重历史、重塑老交大的人文精神灵魂. 《上海交大报》20061106日第282期第3.


§ 课__程

● Teaching Courses for Undergraduate Students
○ 河口海岸动力学(Estuarine and Coastal Dynamics)(英文)
○ SP166_海洋科学(Ocean Science)(英文)
○ SP271_湍流(Turbulence)(英文)

● Teaching Courses for M.Sc. Students
○ X010507_河口海岸动力学(Estuarine and Coastal Dynamics)(英文)
○ X010508_数学模型(Mathematical Models)(英文)

● Teaching Courses for Ph.D. Students
○ NA6043_海洋湍流(Ocean Turbulence)(英文)

§ 本科生毕业论文指导
● B.Eng. Thesis Supervision (most recent first)
[Note: Participation in Research Program (PRP)]

[01PRP] 陈汇元 2017 海洋湍流的室内实验资料分析. 上海交通大学第31期PRP(T010PRP31027),not approved yet

[23BEng] 余__泽 2017 二层稳定分层流无剪切密度界面处湍流的分形几何学. 上海交通大学本科毕业设计论文, xx+93 pp+I.

[22BEng] 陈志斌 2010 波浪、潮流共同作用下湍流边界层的数值模拟. 上海交通大学本科毕业设计论文, 7+V+vii+43 pp.

[21BEng] 陈__辉 2010 河口海岸水体的混合过程: 以长江口外、浙江海岸海为例. 上海交通大学本科毕业设计论文,ii+xi+67 pp.

[20BEng] 曹智星 2004 杭州湾西湖底泥分布. 上海交通大学本科毕业设计论文,vii+36 pp.

[19BEng] 刘亚男 2004 河口羽状流的平面二维数值模拟. 上海交通大学本科毕业设计论文,viii+43 pp.

[18BEng] 焦颖颖 2004 德国Elbe河口潮流和盐度特征. 上海交通大学本科毕业设计论文,viii+37 pp.

[17BEng] 袁__梦 2004 杭州西湖波浪数值模拟的初步研究. 上海交通大学本科毕业设计论文,viii+77 pp.

[16BEng] 雷德超 2003 二维浅水方程有限体积法求解. 上海交通大学本科毕业设计论文,viii+36 pp.

[15BEng] 姜文闻 2003 中国、欧洲与美国港口对比. 上海交通大学本科毕业设计论文,vii+46 pp.

[14BEng] 张元亮 2003 絮凝沉降速度对泥沙分布的影响. 上海交通大学本科毕业设计论文,v+37 pp.

[13BEng] 王__斌 2003 杭州湾波浪、潮流作用下细颗粒泥沙输移过程的观测. 上海交通大学本科毕业设计论文,vii+49 pp.

[12BEng] 田红星 2003 杭州湾风浪数值模拟. 上海交通大学本科毕业设计论文,viii+45 pp.

[11BEng] 顾文俊 2003 杭州湾风浪掀沙数值模拟. 上海交通大学本科毕业设计论文,vii+41 pp.

[10BEng] 沈__竹 2001 《河口海岸动力学》多媒体教学软件的制作. 上海交通大学本科毕业设计论文,?+?? pp.

[09BEng] 郭晋挺 2001 河口潮流三维有限元数学模型. 上海交通大学本科毕业设计论文,?+?? pp.

[08BEng] 江__鲲 2000 长江口南部水域羽状锋的特性. 上海交通大学本科毕业设计论文,?+?? pp.

[07BEng] 顾剑扬 2000 杭州湾深水航道浮泥运动的观测和分析. 上海交通大学本科毕业设计论文,?+?? pp.

[06BEng] 蔡宇初 2000 任意平面区域的三角剖分及在长江口北槽中的应用. 上海交通大学本科毕业设计论文,vii+48 pp.

[05BEng] 郑东升 2000 长江口北槽细颗粒泥沙絮凝过程和絮凝体沉降速率. 上海交通大学本科毕业设计论文,?+?? pp.

[04BEng] 陈伟民 1999 长江口北槽最大浑浊带泥沙过程. 上海交通大学本科毕业设计论文,?+?? pp.

[03BEng] 傅__键 1998 长江口深水航道北槽水动力悬沙运动. 上海交通大学本科毕业设计论文,?+?? pp.

[02BEng] 杨海生 1998 长江口水动力泥沙运动初步研究. 上海交通大学本科毕业设计论文,?+?? pp.

[01BEng] 张锐强 1997 长江口深水航道北槽悬沙浓度垂线分布. 上海交通大学本科毕业设计论文,v+21 pp.

§ 硕士、博士研究生学位论文与博士后研究指导

● M.Sc. Thesis Supervision (most recent first)

[15MSc] 李兆辉 2018 无平均剪切稳定分层二层流非湍流/湍流层密度界面处的湍流. 上海交通大学硕士学位论文, v+XVI+117 pp.

[14MSc] 李__为 2017 长江河口北槽弯道环流的涡度研究: 资料分析与数学模拟. 上海交通大学硕士学位论文, XV+88 pp.

[13MSc] 邵聪颖 2016 长江河口北槽弯道横向次生流、混合与层化: 资料分析与数学模拟. 上海交通大学硕士学位论文, X+84 pp.

[12MSc] 张__爽 2015 稳定分层流密度界面处湍流混合与分形维度. 上海交通大学硕士学位论文, XII+87 pp.

[11MSc] 熊龙兵 2014 长江河口环流与湍流混合: 数学模拟与理论计算. 上海交通大学硕士学位论文, XIII+122 pp.

[10MSc] 李__霞 2013 长江口北槽枯季湍流混合、层化与潮汐应变: 资料分析与数学模拟. 上海交通大学硕士学位论文, XVII+90 pp.

[09MSc] 倪智慧 2012 长江口北槽潮汐环流的分析与三维数值模拟. 上海交通大学硕士学位论文, XVII+101 pp.

[08MSc] 彭延建 2010 波浪在不平坦底床上传播的数学模型. 上海交通大学硕士学位论文, XI+80 pp.

[07MSc] 李__琛 2006 潮汐河口水动力过程的初步研究. 上海交通大学硕士学位论文, viii+58 pp.

[06MSc] 张洪龙 2006 平面二维水流有限元数学模型及其在长江口北槽潮流场模拟中的应用. 上海交通大学硕士学位论文, vi+62 pp.

[05MSc] 周凌红 2005 黄海和东海近岸区重点水域流况的ADCP观测. 上海交通大学硕士学位论文, viii+80 pp.

[04MSc] 翟__强 2004 海岸波浪、潮流边界层结构. 上海交通大学硕士学位论文, vii+53 pp.

[03MSc] 汪有军 2002 长江口潮流垂向二维有限元数值模拟. 上海交通大学硕士学位论文, iii+50 pp.

[02MSc] 王__云 2002 海岸波流底部边界层的数值模拟. 上海交通大学硕士学位论文, iv+52 pp.

[01MSc] 周洪强 1999 长江口水动力、泥沙过程初步研究. 上海交通大学硕士学位论文, iii+50 pp.

● Ph.D. Thesis Supervision

[02D] 浦__祥 2017 长江河口重力环流、潮汐应变、混合与层化. 上海交通大学博士学位论文, viii+XXVII+252 pp.

[01D] 卢丽锋 2008 长江河口羽状流扩散与混合过程的数值模拟. 上海交通大学博士学位论文, VII+xiv+221 pp.

● Postdoctoral Research Supervision

[01PD] 李世森 2001 (co-supervised with Professor Liu, Ying-Zhong) 河口潮流有限元的数学模型. 上海交通大学博士后研究报告, vii+96 pp.

The SJTU Postgraduate Tutor Web:
http://yzb.sjtu.edu.cn/admission/manual/showDoctorTutorInfo.ahtml?tutorNum=06126

N/A

(○) 荣誉 (●) 奖励 (most recent first)

○ 2019: 英国剑桥大学伊曼纽尔学院高级访问学者(Senior Visitor at Emmanuel College, Cambridge, U.K.)
○ 2019: 英国剑桥大学沃尔夫森学院客座院士(Visiting Fellow at Wolfson College, Cambridge, U.K.)
○ 2019: 上海交通大学2018年度教工考核优秀
○ 2009: 上海交通大学特聘教授
○ 2006: 上海交通大学“我与上海交大”征文二等獎
○ 2004.02–2016.03: 第五、六届教育部科学技术委员会学部委员
○ 2003: 上海市科学技术委员会上海市青年科技启明星计划(跟踪)
● 2002: 国家自然科学基金委员会国家杰出青年科学基金
● 2001: 上海交通大学2000年度教工考核优秀
● 2000: 上海交通大学1999年度教工考核优秀奖
○ 2000: 1999年上海交通大学大众杰出青年教师
○ 1999: 上海市教育委员会1999年上海高校优秀青年教师
● 1999: 上海交通大学1998年度教工考核优秀奖
● 1999: 上海交通大学第三届横山亮次优秀论文奖贰等奖
● 1999: 1998年度国家教育部科技进步奖(基础类)贰等奖
○ 1998: 国家教育部跨世纪优秀人才培养计划
● 1997: 上海市科学技术协会第七届青年优秀科技论文二等奖
○ 1995: 国家教育委员会资助优秀年轻教师基金
○ 1994: 上海市科学技术委员会上海市青年科技启明星计划
● 1987: 中英友好奖学金计划(Sino-British Friendship Scholarship Scheme)

[Last update: Monday_06_September_2021_by John Z. Shi_Shanghai_China]

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