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Call For Papers:International Symposium on High-Fidelity Computational Methods & Applications

Dec 14th ~16th, 2019 

Shanghai, China

Introduction & Objective

The original intention of organizing this symposium is to discuss recent advances of the high-fidelity methods and enhance deployment and industrial applications of the methods in complex fluid flows and related topics, which is enlightened by the 4th Nektar++ workshop 2019.

High-fidelity computational methods are emerging tools that underpin science and engineering. Due to the increasingly stringent precision requirements for industrial designs,  these methods have recently attracted even greater attention. This symposium will bring together world leading experts to discuss novel developments, new perspectives and industrial applications. The ultimate goal of the symposium is to expand the range of application of high-fidelity numerical tools in engineering practice.

During the symposium, a Nektar++ tutorial session will be run for the people who are interested in theories of spectral/hp element methods and parallel implementation of the methods. By the tutorial session, people will learn how to use Nektar++ to carry out high-fidelity high-efficient calculations and analyses for incompressible and compressible complex flows and how to write their own customized solvers by virtue of the Nektar++ hierarchical libraries.

Abstracts are invited on the research, application and deployment of high-fidelity methods with a particular interest in computational mathematics, aerodynamics and hydrodynamics.

Some Invited Speakers

Spencer J. Sherwin, FREng, Imperial College London

Pierre Sagaut, Aix-Marseille Université, France

Mike Kirby, University of Utah, USA

Joaquim Peiro, Imperial College London

David Moxey, University of Exeter, UK

Chris Cantwell, Imperial College London, UK

Bruno Carmo, University of São Paulo, Brazil

Sponsors

Imperial College London, UK

Journal of Hydrodynamics, China

Shanghai Jiao Tong University, China

State Key Laboratory of Aerodynamics, China

Science and Technology on Water Jet Propulsion Laboratory, China

Important Dates

Abstract Submission Deadline: Aug. 31, 2019
Abstract Acceptance Notification:    Sept. 15, 2019
Full paper submission (Optional):    Sept. 15, 2019
Paper review & acceptance: Sept. 30, 2019
Registration deadline: Nov. 30, 2019
Paper Presentation: Dec. 14-17, 2019

Papers dealing with any topics within the scope are all invited to be submitted online with an abstract up to 1000 words and figures can be included.

Registration Fee

Registration
Type:
EARLY BIRD
REGULAR
LATE
Before
Oct. 15, 2019
Oct. 16 to
Nov 30, 2019
After Dec. 1, 2019
Participant
600 USD,
3500RMB
700 USD,
4000 RMB
750 USD,
4500 RMB
Student
Participant
300 USD,
1500RMB
350 USD,
2000 RMB
375 USD,
2500 RMB
Accompany
-ing person
300 USD,
1500RMB
350 USD,
2000 RMB
400 USD,
2500 RMB

* Registration and submission should be done online. The website will be ready at the beginning of July. The website link will be mainly disseminated by Editorial board of JHD. Registration will not be completed until the full payment is received.

Conference Schedule

13rd Dec. (Friday), 2019

Registration, Reception, Meeting of executive committees

14th Dec. (Saturday), 2019

Opening ceremony, Invited lectures, Technical sessions, Banquet

15th Dec. (Sunday), 2019

Invited lectures, Technical sessions, Closing ceremony

16nd Dec. (Monday), 2019

Technical Tours

Contact

Hui XU

School of Aeronautics & Astronautics

Shanghai Jiao Tong University

Shanghai 200240, China

Department of Aeronautics

Imperial College London

Exhibition Rd, London SW7 2AZ

E-mail: dr.hxu@sjtu.edu.cn

Phone: +86 152 0219 2258

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第三届空化和多相流国际会议在上海举办

由上海大学、《水动力学研究与进展》编委会联合主办的第三届国际空化和多相流会议ISCM2019(The 3rd International Symposium of Cavitation and Multiphase Flow)于2019年4月19日~4月22日在上海顺利召开。来自美国加州大学欧文分校(University of California, Irvine)、美国密歇根大学(University of Michigan)、英国伦敦帝国理工大学(Imperial College London)、法国国家科学研究中心(French National Centre for Scientific Research)、德国马格德堡大学(University of Magdeburf)、瑞士联邦理工学院(EPFL-LMH, Switzerland)、瑞典查尔姆斯理工大学(Chalmers University of Technology)、新加坡国立大学(National University of Singapore)、法国国立高等技术学校(ENSAM, Lille, France)、意大利国家研究委员会罗马海洋工程研究所(National Research Council – Institute of Marine Engineering)、日本东北大学(Tohoku University)、日本大学(Nihon University)、日本早稻田大学(Waseda University)、日本九州大学(Kyushu University)、德国马克斯普朗克动力学与自组织研究所(Max Planck Institute for Dynamics and Self-Organization)、荷兰特温特大学(University of Twente)、西班牙加泰罗尼亚大学(Politech. Univ. of Catalunya)、德国凯泽斯劳滕大学(Kaiseslertern University)、斯洛文尼亚卢布尔雅那大学(University of Ljubljana)以及清华大学、江苏大学、上海大学、武汉大学、浙江大学、上海交通大学、华北电力大学、中国船舶科学研究中心、中国海洋设计研究院、浙江水利水电学院、西华大学、中国科学院大学、北京理工大学、北京控制工程研究所、北京航空航天大学、中国农业大学、中国矿业大学、哈尔滨工程大学、河海大学、兰州理工大学、青岛大学、汕头大学、浙江理工大学、上海理工大学、西安理工大学、西安航天动力研究所、西安建筑科技大学、厦门理工大学、扬州大学、台州学院、等国内高校研究所的近200名专家学者出席了此次研讨会。

空化和多相流是流体力学的一个重要课题,也是实现装备系统稳定性、安全可靠性的重要问题。ISCM2019会议旨在为国内外专家及青年学者搭建交流合作的平台,交流空化和多相流领域的最新研究成果及其应用,共同探索学术难题。同时,促进水动力学与重大工程/重要装备的相互融合与提高。

开幕式由上海大学上海市应用数学和力学研究所的陈红勋教授主持。ISCM2019会议联合主席,我国著名力学家、中国科学院院士李家春教授和中国工程院院士、中国船舶重工集团公司702所名誉所长吴友生教授先后致辞,并预祝本次国际研讨会取得圆满成功。

美国工程院院士、加利福尼亚大学Said Elghobashi教授、英国伦敦帝国理工大学Yannis Hardalupas教授、法国国家科学研究中心Pierre-Yves Lagrée教授、美国密歇根大学Steven Ceccio教授、德国马格德堡大学Claus-Dieter Ohl教授、瑞士联邦理工学院Mohamed Farhat教授、瑞典查尔姆斯理工大学Rickard Bensow教授、新加坡国立大学Khoo Boo Cheong教授、浙江大学林建忠教授、中国船舶科学研究中心彭晓星教授等10位知名学者,受组委会邀请做了大会报告。近30位国内外学者做了邀请报告。此外,为期三天的研讨会上,还设置了多场专题讨论,涉及水力机械内部空化多相流、空化及多相流数值计算与实验、空化多相流冲蚀及防冲蚀技术、空化与多相流诱导的流固耦合、空化流和多相流的多尺度模拟、空化产生的冲击波和微射流、气泡和汽泡的非线性振荡等,使得学者们在浓郁的气氛中得以充分的交流和研讨。

本次大会形式多样、内容丰富、讨论气氛活跃。在ISCM2019会议闭幕式上,水动力学编委会副主任、上海大学戴世强教授致辞,他向所有参会的国际专家和学者、组织者和工作人员表示由衷的感谢,祝愿ISCM会议能够薪火相传,吸引更多的国内外学者参与,推动国内外学者的合作与交流,促进力学学科的发展。

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JHD 2018年度影响因子再创新高

据科睿唯安(Clarivate Analytics)2019年6月20日发布的2018年度的全球期刊引证报告,Journal of Hydrodynamics (JHD)的两年影响因子再创新高,升至1.855,在134种国际力学类SCI期刊中的排名73位(前54.5%,Q3区,接近Q2);期刊2016-2017文章于2018年被SCI期刊引用410次(其中他刊引用占74.6%);历年文章总引频次1900次(其中他刊引用占88.8%)。影响因子、总引频次较去年分别提高18.7%、12.0%;排名比去年前进4位。2013年以来,JHD的影响因子、总被引频次均稳步提升!

图1 JHD 近五年影响因子

图2 JHD 近五年总被引频次

JHD于1989年创刊,随即被EI Compendex收录。2008年Science Citation Index Expanded (SCI-E)收录JHD 2004以来的文章。2006年起,JHD的电子版由Elsevier全球发行。2018年电子版由Springer发行(https://link.springer.com/journal/42241),并启用Editorial Manager投稿系统(http://ijhd.editorialmanager.com)。

JHD衷心感谢国内外水动力学界作者、审稿人、读者、编委一直以来对JHD的关注与支持,并期望海内外学者共同努力,把JHD发展推向更高的台阶。

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CONTENTS OF CHINESE JOURNAL OF HYDRODYNAMICS Vol.34 No.3 2019

 http://www.cnki.com.cn/Journal/A-A3-SDLJ-2019-03.htm

Contents

Numerical analysis of hydrodynamic loads on submerged plate in solitary wave with 2-D boundary integral element method
GENG Tian, LIU Hua (275)
Study of deformation characteristics and energy conversion during the process of droplet impacting on liquid surface
MA Hui-min, LIU Chang-gen, DONG Jiao-jiao (283)
Multi-objective optimization of ship wave-making resistance based on MOPSO
MIAO Ai-qin, WAN De-cheng (291)
Numerical study on micro-bubble drag reduction of axisymmetric bodies based on two-phase Euler model
ZHAO Xiao-jie, ZONG Zhi, JIANG Yi-chen, et al. (299)
Numerical investigation of the hydrodynamic interaction between two capsules in a shear flow
BAI Fan, SUN Ren (308)
Characteristics of starting pressure of gas flow in fractured shale porous media under irreducible water condition
SONG Fu-quan, SONG Xing-xing, LONG Yun-qian, et al. (317)
Numerical simulation of eigenvalues of wave nonlinear Schrödinger equation
ZHANG Xin-yu, WANG Xiao, CAI Feng, et al. (323)
Investigation of dynamic stall properties of the deformed oscillating airfoil
ZHANG Jun-wei, ZHANG Wei, XIA Peng, et al. (331)
Numerical prediction of hydrodynamic forces on a ship in oblique motion with large drift angle
WU Hai-hua, ZOU Zao-jian (339)
Characteristics of discharge of combined wave and surge overtopping under different revetment conditions of landward-side slope and the general estimation method
PAN Yi, LIU Ye, ZHOU Zi-jun, et al. (346)
Effect of gas volume fraction on performance of a gas-liquid two-phase centrifugal pump
YAN Si-na, LUO Xing-qi, FENG Jian-jun, et al. (353)
Study on hydrodynamic characteristic and efficiency of the Magnus cylindrical blade impeller
CHENG You-liang, LIU Xin, WANG Hui (361)
Study on a multi-level and modular model urban waterlogging model in Tianjin
CHEN Jing, LI Da-ming, HAO Ying, et al. (367)
Influence of Prandtl number on partition and perturbation growth of convective pattern
NING Li-zhong, ZHANG Ke, NING Bi-bo, et al. (377)
Numerical investigation on the large amplitude sloshing roof impact in a tank with SPH-FEM coupling algorithm
QIN Hao-ran, HUA Yuan, WANG Zhaung (384)
Numerical study on effect of guide vanes on flow field of the elbow bend with uniform section in water tunnel
CHEN Tong, SUN Jiao, SUN Kang-fu, et al. (395)
Research on the energy dissipation regime of bidirectional flow channel in drip irrigation emitter with PIV
WANG Xin-duan, BAI Dan, GUO Lin(401)
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CONTENTS OF JOURNAL OF HYDRODYNAMICS Vol.31 No.3 2019

 https://link.springer.com/journal/42241/31/3

CONTENTS

REVIEW ARTICLE

A review of transient flow structure and unsteady mechanism of cavitating flow
Biao Huang, Si-cong Qiu, Xiang-bin Li, Qin Wu, Guo-yu Wang(429)

ARTICLES

A Liutex based definition and identification of vortex core center lines
    Yi-sheng Gao, Jian-ming Liu, Yi-fei Yu, Chaoqun Liu(445)
Objective Omega vortex identification method
    Jian-ming Liu, Yi-sheng Gao, Yi-qian Wang, Chaoqun Liu(455)
Explicit formula for the Liutex vector and physical meaning of vorticity based on the Liutex-Shear decomposition
    Yi-qian Wang, Yi-sheng Gao, Jian-ming Liu, Chaoqun Liu(464)
Cavitation vortex dynamics of unsteady sheet/cloud cavitating flows with shock wave using different vortex identification methods
    Chang-chang Wang, Ying Liu, Jie Chen, Fu-yi Zhang, Biao Huang, Guo-yu Wang(475)
Comparative assessment and analysis of Rortex vortex in swirling jets
    Nan Gui, Liang Ge, Peng-xin Cheng, Xing-tuan Yang, Ji-yuan Tu, Sheng-yao Jiang(495)
Hydraulic resistance of river ice jams
Lin Fan, Ze-yu Mao, Hung Tao Shen(504)
Experimental investigation of combined vibrations for a hydrofoil-rod system at low Reynold numbers
Ren-feng Wang, Ke Chen, Francis Nobelesse, Yun-xiang You, Wei Li(512)
Numerical study of a guide-vane-augmented vertical darrieus tidal-current- turbine
    Zhen Liu, Zhi-meng Wang, Hong-da Shi, Heng-liang Qu(522)
An investigation on HOBEM in evaluating ship wave of high speed displacement ship
    Xi Chen, Ren-chuan Zhu, Ya-lan Song, Ju Fan(531)
A time domain three-dimensional sono-elastic method for ships’ vibration and acoustic radiation analysis in water
    Ming-song Zou, You-sheng Wu, Can Sima, Shu-xiao Liu(542)
Productivity analysis of a fractured horizontal well in a shale gas reservoir based on discrete fracture network model
    Yu-long Zhao, Nan-ying Li, Lie-hui Zhang, Rui-han Zhang(552)
Moving of a submarine under an ice cover in fluid of finite depth
    Alexandra V. Pogorelova, Vitali L. Zemlyak, Victor M. Kozin(562)
RANS feasibility study of using roughness to mimic transition strip effect on the crossflowseparation over a 6:1 prolate-spheroid
    Mojtaba M. Amiri, Marcelo A. Vitola, Sergio H. Sphaier, Paulo T. Esperança(570)
A direct coupling analysis method of hydroelastic responses of VLFS in complicated ocean geographical environment
Jun Ding, You-sheng Wu, Ye Zhou, Zhi-wei Li, Chao Tian, Xue-feng Wang,Zheng-wei Zhang,Xiao-long Liu(582)
Effects of air relief openings on the mitigation of solitary wave forces on bridge decks
    Sheng-chao Xiao, An-xin Guo(594)
Numerical simulation of hydrodynamic environment effects of the reclamation project of Nanhui tidal flat in Yangtze Estuary
    Di-fan Cao, Yong-ming Shen, Mei-rong Su, Chun-xue Yu(603)
Hydrodynamic improvement of a goose-head pattern braided reach in lower Yangtze River
Wen-hong Dai, Wei Ding(614)
Suppression of vortex-induced vibrations of a flexible riser by adding helical strakes
    Dong-yang Chen, Laith K. Abbas, Guo-ping Wang, Xiao-ting Rui, Wei-jie Lu(622)

LETTERS

Mathematical foundation of turbulence generation-From symmetric to asymmetric Liutex
    Jian-ming Liu, Yue Deng, Yi-sheng Gao, Sita Charkrit , Chaoqun Liu(632)
Application of the hybrid RANS/LES method on the hydraulic dynamic performance of centrifugal pumps
    Zheng-chuan Zhang, Hong-xun Chen, Zheng Ma, Qun Wei, Jian-wu He, Hui Liu, Chao Liu(637)