A Comparative Study on the Nonlinear Interaction Between a Focusing Wave and Cylinder Using State-of-the-art Solvers: Part A

Sriram V; Agarwal Shagun; Yan Shiqiang; Xie Zhihua; Saincher Shaswat; Schlurmann Torsten; Ma Qingwei; Stoesser Thorsten; Zhuang Yuan; Han Bo; Zhao Weiwen; Yang Xiaotong; Li Z.; Wan Decheng; Zhang Yi; Teng Bin; Ning Dezhi; Zhang Ningbo; Zheng Xing; Xu Guochun; Gong Jiaye; Li Yunbo; Liao Kangping; Duan Wenyan; Hann Ronggui; Asnim Windiman; Sulaiman Zana; Zhou Zhongbing; Qin Jianmin; Li Yucheng; Song Zhiwei; Lou Xiaofan; Lu Lin; Yuan Changfu; Ma Yuxiang; Ai Congfang; Dong Guohai; Sun Hanbing; Wang Qiang; Zhai Zhi-Tao; Shao Yan-Lin; Lin Zaibin; Qian Ling; Bai Wei; Ma Zhihua; Higuera Pablo; Buldakov Eugeny; Stagonas Dimitris; Lopez Santiago Martelo; Christou Aristos; Lin Pengzhi; Li Yanyan; Lu Jinshu; Hong Sa Young; Ha Yoon-Jin; Kim Kyong-Hwan; Cho Seok-Kyu; Park Dong-Min; Laskowski Wojciech; Eskilsson Claes; Ricchiuto Mario; Engsig-Karup Allan P.; Cheng Lin; Zheng Jinhai; Gu Hanbin; Li Guangnian

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A Comparative Study on the Nonlinear Interaction Between a Focusing Wave and Cylinder Using State-of-the-art Solvers: Part A

机译：使用最先进的求解器的聚焦波和气缸非线性相互作用的比较研究：A部分

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摘要

This paper presents ISOPE's 2020 comparative study on the interaction between focused waves and a fixed cylinder. The paper discusses the qualitative and quantitative comparisons between 20 different numerical solvers from various universities across the world for a fixed cylinder. The moving cylinder cases are reported in a companion paper as part B (Agarwal, Saincher, et al., 2021). The numerical solvers presented in this paper are the recent state of the art in the field, mostly developed in-house by various academic institutes. The majority of the participants used hybrid modeling (i.e., a combination of potential flow and Navier-Stokes solvers). The qualitative comparisons based on the wave probe and pressure probe time histories and spectral components between laminar, turbulent, and potential flow solvers are presented in this paper. Furthermore, the quantitative error analyses based on the overall relative error in peak and phase shifts in the wave probe and pressure probe of all the 20 different solvers are reported. The quantitative errors with respect to different spectral component energy levels (i.e., in primary, sub-, and superharmonic regions) capturing capability are reported. Thus, the paper discusses the maximum, minimum, and median relative errors present in recent solvers as regards application to industrial problems rather than attempting to find the best solver. Furthermore, recommendations are drawn based on the analysis.

机译：本文介绍了对聚焦波和固定气缸之间的相互作用的Isope 2020比较研究。本文讨论了全世界各大大学的20个不同数值求解器之间的定性和定量比较。移动气缸壳体在伴侣纸上报告为B部分（Agarwal，Saincher等，2021）。本文提出的数值求解器是该领域最近的最新技术，主要由各种学术研究所内开发。参与者的大多数人使用混合建模（即，潜在流量和Navier-Stokes求解器的组合）。本文介绍了基于波探针和压力探针时间历史和光谱分量的定性比较，本文提出了层流，湍流和潜在流动溶剂之间的光谱分量。此外，报道了基于所有20个不同溶剂的波探针和压力探针中的峰值和相移的总体相对误差的定量误差分析。报道了关于不同光谱分量能级的定量误差（即，在主要，子和超声区域）捕获能力。因此，本文讨论了最近的求解器中存在的最大，最小和中值和中值误差，以便应用于工业问题，而不是试图找到最好的求解器。此外，基于分析绘制了建议。

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来源
《International Journal of Offshore and Polar Engineering》 |2021年第1期|1-10|共10页
作者
Sriram V; Agarwal Shagun; Yan Shiqiang; Xie Zhihua; Saincher Shaswat; Schlurmann Torsten; Ma Qingwei; Stoesser Thorsten; Zhuang Yuan; Han Bo; Zhao Weiwen; Yang Xiaotong; Li Z.; Wan Decheng; Zhang Yi; Teng Bin; Ning Dezhi; Zhang Ningbo; Zheng Xing; Xu Guochun; Gong Jiaye; Li Yunbo; Liao Kangping; Duan Wenyan; Hann Ronggui; Asnim Windiman; Sulaiman Zana; Zhou Zhongbing; Qin Jianmin; Li Yucheng; Song Zhiwei; Lou Xiaofan; Lu Lin; Yuan Changfu; Ma Yuxiang; Ai Congfang; Dong Guohai; Sun Hanbing; Wang Qiang; Zhai Zhi-Tao; Shao Yan-Lin; Lin Zaibin; Qian Ling; Bai Wei; Ma Zhihua; Higuera Pablo; Buldakov Eugeny; Stagonas Dimitris; Lopez Santiago Martelo; Christou Aristos; Lin Pengzhi; Li Yanyan; Lu Jinshu; Hong Sa Young; Ha Yoon-Jin; Kim Kyong-Hwan; Cho Seok-Kyu; Park Dong-Min; Laskowski Wojciech; Eskilsson Claes; Ricchiuto Mario; Engsig-Karup Allan P.; Cheng Lin; Zheng Jinhai; Gu Hanbin; Li Guangnian;
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作者单位

Indian Inst Technol Madras Madras Tamil Nadu India;

Indian Inst Technol Madras Madras Tamil Nadu India;

City Univ London London England;

Cardiff Univ Cardiff Wales;

Indian Inst Technol Madras Madras Tamil Nadu India;

Leibniz Univ Hannover Hannover Germany;

City Univ London London England;

UCL London England;

Shanghai Jiao Tong Univ Shanghai Peoples R China;

Shanghai Jiao Tong Univ Shanghai Peoples R China;

Shanghai Jiao Tong Univ Shanghai Peoples R China;

Shanghai Jiao Tong Univ Shanghai Peoples R China;

Shanghai Jiao Tong Univ Shanghai Peoples R China;

Shanghai Jiao Tong Univ Shanghai Peoples R China;

Dalian Univ Technol Dalian Peoples R China;

Dalian Univ Technol Dalian Peoples R China;

Dalian Univ Technol Dalian Peoples R China;

Harbin Engn Univ Harbin Peoples R China;

Harbin Engn Univ Harbin Peoples R China;

Ningbo Univ Ningbo Peoples R China;

Shanghai Maritime Univ Shanghai Peoples R China;

Shanghai Maritime Univ Shanghai Peoples R China;

Harbin Engn Univ Harbin Peoples R China;

Harbin Engn Univ Harbin Peoples R China;

Yantai CIMC Raffles Offshore Ltd Yantai Peoples R China;

City Univ London London England;

GustoMSC BV Schiedam Netherlands;

Dalian Univ Technol Dalian Peoples R China;

Dalian Univ Technol Dalian Peoples R China;

Dalian Univ Technol Dalian Peoples R China;

Dalian Univ Technol Dalian Peoples R China;

Dalian Univ Technol Dalian Peoples R China;

Dalian Univ Technol Dalian Peoples R China;

Dalian Univ Technol Dalian Peoples R China;

Dalian Univ Technol Dalian Peoples R China;

Dalian Univ Technol Dalian Peoples R China;

Dalian Univ Technol Dalian Peoples R China;

Harbin Engn Univ Harbin Peoples R China;

Harbin Engn Univ Harbin Peoples R China;

Harbin Engn Univ Harbin Peoples R China;

Tech Univ Denmark Lyngby Denmark;

Manchester Metropolitan Univ Manchester Lancs England;

Manchester Metropolitan Univ Manchester Lancs England;

Manchester Metropolitan Univ Manchester Lancs England;

Manchester Metropolitan Univ Manchester Lancs England;

Univ Auckland Auckland New Zealand;

UCL London England;

Cranfield Univ Cranfield Beds England|Univ Cyprus Nicosia Cyprus;

Cardiff Univ Cardiff Wales;

UCL London England;

Sichuan Univ Chengdu Peoples R China;

Zhejiang Ocean Univ Hangzhou Peoples R China;

Zhejiang Ocean Univ Hangzhou Peoples R China;

Korea Res Inst Ships & Ocean Engn Daejeon South Korea;

Korea Res Inst Ships & Ocean Engn Daejeon South Korea;

Korea Res Inst Ships & Ocean Engn Daejeon South Korea;

Korea Res Inst Ships & Ocean Engn Daejeon South Korea;

Korea Res Inst Ships & Ocean Engn Daejeon South Korea;

Tech Univ Denmark Lyngby Denmark;

Res Inst Sweden Stockholm Sweden;

Inria Bordeaux Sud Ouest Talence France;

Tech Univ Denmark Lyngby Denmark;

Hohai Univ Nanjing Peoples R China;

Hohai Univ Nanjing Peoples R China;

Ningbo Univ Ningbo Peoples R China;

Ningbo Univ Ningbo Peoples R China;

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正文语种 eng
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关键词
Comparative study; hybrid modeling; Navier-Stokes; potential flow; fixed cylinder; moving cylinder; validation;

机译：比较研究;混合模型;Navier-Stokes;潜在的流动;固定圆筒;移动气缸;验证;

A Comparative Study on the Nonlinear Interaction Between a Focusing Wave and Cylinder Using State-of-the-art Solvers: Part A

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