Propeller-shaft systems and hull stern coupling vibration is the most important factor for hull vibration and noise reduction. To find out the basic excitation mechanism has important significance to the recognition and efficient control of vibration and noise. According to the operating state of shafting, the factors such as operating conditions, alignment state, and exciting force which have an effect on shafting-base-hull coupling vibration are based on FEM rotor dynamic theory to analysis. Under the straight alignment, the oil and water film 8-dynamic coefficients are calculated by Reynolds equation for four shafting operating states, the stiffness and damping matrices of single multipoint support bearing are established, the FEM of shafting-base-hull is established. Based on this, alignment state effect on shafting-base-hull coupling vibration is analyzed by FEM power flow, according the result of system dynamic response. The result shows that different operating states can induce different internal stress, different bending deformation and then the change of bearing characteristic. With the corresponding, the power flow passed hull can change which induce system coupling vibration and cause different noise.
Key words
/
power flow oil dynamic coefficient coupling vibration
{{custom_keyword}} /
{{custom_sec.title}}
{{custom_sec.title}}
{{custom_sec.content}}
References
[1] 严新平,李志雄,刘正林等. 大型船舶推进系统与船体耦合动力学研究综述[J]. 船舶力学,2013,17 (4):439-447.
YAN Xinping,Li Zhixiong,Liu Zhenglin. Study on coupling dynamical theory for interaction of propulsion system and hull of large ships: a review[J]. Journal of Ship Mechanics,2013,17 (4):439-447.
[2] Leontopoulos C, Dovies P, Park K R. Shaft alignment analysis: Solving the reverse problem[J]. Proceedings of the Instituteof Marine Engineering, Science and Technology Part B: Journal of Marine Design and Operations, 2005(8B): 3-12.
[3] Larsen O C. Some considerations on shaft alignment of marine shaftings[J]. Norwegian Maritime Research, 1976, 4(2):19-32.
[4] 朱军超. 大型船舶轴承支撑状态对轴系振动的影响研究[D].武汉:武汉理工大学,2012.
ZHU Junchao. Research on Shafting Vibration of Large Vessel Based on the Bearing Support State. Wuhan: Wuhan University of Technology,2012.
[5] 石磊. 计入支承系统特性的船舶推进轴系动态校中研究[D].大连:大连理工大学,2010.
SHI Lei. Research on dynamic alignment of marine propulsion shafting considering supporting system characteristics[D]. Dalian:Dalian University of Technology, 2010.
[6] 李栋梁,谌勇,张志谊. 推力轴承油膜刚度对轴系-艇体结构耦合振动的影响研究[J].噪声振动与控制,2009,6:81-85.
Li Dongliang, Chen Yong, Zhang Zhiyi . Influence of thrust bearing’s oil filn stiffness on the coupled vibration of the shafting ship hull structure[J]. Noise and vibration control, 2009,6:81-85.
[7] 刘耀宗,王宁,孟浩. 基于动力吸振器的潜艇推进轴系轴向减振研究[J].振动与冲击,2009,28(5):184-187.
Liu Yaozong,Wang Ning,Meng Hao. Design of dynamic vibration absorbers to reduce axial vibration of propelling shafts of submarines [J]. Journal of Vibration and Shock,2009,28(5):184-187-135.
[8] 孟浩. 基于声子晶体理论的潜艇推进轴系纵向减振技术研究[D]. 长沙:国防科技大学,2007.
Meng Hao. Research on Axial Vibration Reduction of Submarine Propelling Shafts Based on Phononic Crystal Theory [D]. Changsha: National University of Defense Technology, 2007.
[9] 曹贻鹏. 推进轴系引起的艇体结构振动与辐射噪声控制研究[D]. 哈尔滨:哈尔滨工程大学,2008.
Cao Yipeng. Study on underwater structure vibration and radiated noise control caused by propeller exciting force[D]. Haerbin: Harbin Engineering University, 2008.
[10] 李良伟,赵耀,陆波,李天匀. 减小船舶轴系纵向振动的动力减振器参数优化[J]. 中国造船,2010,51(2):139-147.
Li Liangwei, Zhao Yao, Lu Bo, Li Tianyun. Optimization of Dynamic Absorber Parameters for Reducing Axial Vibration of Ship Shafting[J]. Shipbuilding of China, 2010,51(2):139-147.
[11] 赵广. 转子-联轴器-轴承-隔振器系统耦合动力学特性研究[D].哈尔冰:哈尔滨工业大学,2009.
ZHAO Guang. Study on coupled dynamics of rotor-coupling-bearing-isolator system[D]. Harbin:Harbin Institute of Technology, 2009.
[12] 杨德庆,罗放,陈静. 有限元功率流落差计算方法研究[J]. 噪声振动与控制,2009,6:127-131.
YANG Deqing,LUO fang,CHEN Jin. Power flow level difference finite element analysis[J].
Noise and vibration control, 2009,6:127-131.
[13] 张志谊,谌勇,李攀硕,李栋梁等.轴系-壳体耦合振动控制的试验研究[J]. 现代振动与噪声技术,2009,9:65-69.
Zhang Zhiyi, Chen Yong, Li Panshuo, Li Dongliang,etc. Research on the experiment of shaft-hull coupled vibration control[J]. Modern Vibration and Noise Technology, 2009,9:65-69.
{{custom_fnGroup.title_en}}
Footnotes
{{custom_fn.content}}
PDF(2646 KB)
