Full-Text Search:
Home|Journal Papers|About CNKI|User Service|FAQ|Contact Us|中文
《Journal of Shanghai Maritime University》 2009-04
Add to Favorite Get Latest Update

Wind load calculation of 7 500 t floating crane

DONG Dashan~1,WANG Sheng~(1,2),MEI Xiao~1(1.Logistics Engineering College,Shanghai Maritime Univ.,Shanghai 200135,China;2.Shanghai Waterway Engineering Design and Consulting Co.,Ltd.,Shanghai 200120,China)  
In order to study wind load effect on floating cranes,wind load of a floating crane,which is made by Shanghai Zhenhua Heavy Industry Co.,Ltd.with a hoisting ability of 7 500 tons,is calculated(under) the conditions of storm,sailing and working,using the method of Computational Fluid Dynamics(CFD).Comparing with the result that is calculated according to Design Standards for Cranes(GB/T 3811—2008),the result that is calculated according to Design Standards for Cranes is conservative,and the safety factor is too large.The result provides a reference for the floating crane design.
【Fund】: 交通运输部基金项目(2007329810050);; 国家科技支撑计划项目(2007BAF10B04)
【CateGory Index】: TH21
Download(CAJ format) Download(PDF format)
CAJViewer7.0 supports all the CNKI file formats; AdobeReader only supports the PDF format.
Chinese Journal Full-text Database 10 Hits
1 LI Yu-feng,CHEN Zhu-mei(Nanjing Research Institute of Electronics Technology,Nanjing 210013,China);Design of Hoisting Equipment for Radar[J];Electro-Mechanical Engineering;2009-03
2 DONG Da-shan,YU Hao(Logistics Engineering College,Shanghai Maritime University,Shanghai 200135,China);CFD wind loading analysis on twin-girder-structured cranes[J];Chinese Journal of Construction Machinery;2009-01
3 DAI Wen-ge(The 4th Engineering Company of the 13th Bureau Group of the Railway Building Corporation of China, Harbin,Heilongjiang,China 150008);The Design of the Diagonal Bridge Erector and the Technique for the Erection of 50-m Simple T-Girders[J];Traffic Engineering and Technology for National Defence;2004-04
4 LIU Xiang-yang (Department of Marine Architecture,Guangzhou Maritime College,Guangzhou 510330,China);The Design of a Crane for Bridge Suspending and Combining in the Construction of Exceeding High Cloverleaf Junction[J];Journal of Guangzhou Maritime College;2009-02
5 YE Jianyun~1,FANG Guoqing~2,LI Weibo~2,HUANG Chaosheng~1,JIN Hexiang~2,YE Jinqi~2,YU Hongzhi~2,WANG Hanwei~2(1.Zhejiang Electric Transformation & Transmission Engineering Co.,Hangzhou 310016,China;2.Zhejiang Construction Machinery Group Co.,Ltd.,Hangzhou 310014,China);Research on and Application of T2D750/22 Gin Pole with Double Rockers[J];Electric Power Construction;2011-07
6 NIE Jie1,WU Bing-zhao2,KANG Yue-wei1,ZHAI Qing-guang1(1.National Ocean Technology Center,Tianjin 300112,China;2.The Navigation Guarantee Department of the Chinese Navy Headquarters,Tianjin 300042,China);Study on Strength Checking Method to Primarily Arms of Marine Cranes[J];Ocean Technology;2009-04
7 ZHANG Zi-zhe(Taiyuan Heary Machine Group,Crane Branch,Taiyuan 030024,China);Design Features of Crane in Metallurgical[J];Mechanical Management and Development;2010-02
8 WANG Kai,ZHOU Shen-jie (School of Mechauical Engiueering,Shandong University,Jinan 250061,China);The Finite Element Analysis for the Lattice Boom of 80t Crawler-type crane[J];Machine Design and Research;2005-05
9 LU Kai-liang,QIU Hui-qing,SONG Jia-qiang,WANG Yu,MAO Fei(College of Mechanical Engineering,Tongji University,Shanghai 201804,China);Wheel pressure simulative calculation and actual measuring verification of 7500t floating crane turning support[J];Journal of Machine Design;2009-12
10 YAN Chun-li 1, LI Wei-min 1, LI Xue-guang 2, ZHANG Xi-dong 3 (1.Mechanical & Automobile Engineering Dept. of Liaoning Institute of Technology , Jinzhou 121001, China; 2.Dalian Fuel Pump Injection Equipment Factory, Dalian 1 16000, China; 3.;Mathematical Model Establishment in the Design of Arm of Elevating Fire Engine[J];Journal of Liaoning Institute of Technology;2001-05
©2006 Tsinghua Tongfang Knowledge Network Technology Co., Ltd.(Beijing)(TTKN) All rights reserved