刚性阻振质量阻抑振动波的传递特性研究

Based on the principle of impedance mismatching,the performance of rigid vibration isolation mass in impeding vibration wave propagation was discussed from the perspective of wave approach.Based on FEM,the influence of its weight as well as the cross-section shape parameters on the isolation performance of rigid vibration isolation mass was studied through numerical simulation.The results show that rigid vibration isolation mass can effectively impede the propagation of the medium and high frequency vibration waves,and the heavier the vibration isolation mass,the better the isolation performance.For low frequency waves,the vibration isolation effect is not so obvious;for a rectangular vibration isolation mass,the isolation performance could be effectively improved by increasing the cross-section height and reducing the cross-section width.A useful reference was provided for the application of rigid vibration isolation masses to the vibration isolation and noise reduction of ship structure.     

Parameter optimization and parametric deviation influence for shock resistance of double-stage vibration isolation system with limiters北大核心CSCD

［Objectives］For marine nuclear power plants, the relative displacement of the pump supported by a vibration isolation system should be strictly restricted. In order to improve the shock resistance of a vibration isolation system with displacement limiters, the parameter optimization and parametric deviation influence are studied. ［Methods］The theoretical model of a double-stage vibration isolation system with typical limiter parameters is established, the analysis of the shock response characteristics of the system is carried out using the direct integration method, the optimal limiter parameters are obtained using a genetic algorithm, and the influence of parameter deviation on the shock resistance of the system is studied. ［Results］Limiter parameters significantly affect the shock response characteristics of the vibration isolation system. The optimal limiter parameters improve the shock resistance of the system, but parameter deviation has a great influence on shock resistance. Based on the influence of parameter deviation, a deviation control strategy is proposed in which the elastic parameter should have a positive deviation and the gap parameter a negative deviation. The simulation results show that the proposed strategy can effectively alleviate the shock resistance degradation caused by deviation.［Conclusions］The results of this study can be used to guide the design, manufacturing and variation control of limiters for vibration isolation systems. © 2022 Journal of Clinical Hepatology. All rights reserved.     

Numerical study of viscous wave-making resistance of ship navigation in still water

The prediction of a ship＇s resistance especially the viscous wave-making resistance is an important issue in CFD applications. In this paper, the resistances of six ships from hull 1 to hull 6 with different hull forms advancing in still water are numerically studied using the solver naoe-FOAM-SJTU, which was developed based on the open source code package OpenFOAM. Different components of the resistances are computed and compared while considering two speed conditions （12 kn and 16 kn）. The resistance of hull 3 is the smallest while that of hull 5 is the largest at the same speed. The results show hull 3 is a good reference for the design of similar ships, which can provide some valuable guidelines for hull form optimization.     

Experimental research on dynamic vibration absorber with negative stiffness for longitudinal vibration control of propulsion shafting system北大核心CSCD

［Objectives］In order to control the first longitudinal vibration mode of propulsion shafting systems, a dynamic vibration absorber with disc spring negative stiffness is proposed and its experimental verification carried out. ［Methods］A test bench is established for the propulsion shafting system containing a dynamic vibration absorber with negative stiffness. According to the first longitudinal vibration mode of the shafting, a dynamic vibration absorber with negative stiffness integrated into the thrust bearing is developed. Vibration transmission tests under different rotational speeds, static thrusts and negative stiffness are then carried out, and acceleration response data on the thrust bearing foundation and shafting is obtained. ［Results ］ The results show that the developed dynamic vibration absorber with negative stiffness can achieve vibration suppression of 7.8 dB for the thrust bearing foundation in the first longitudinal mode of the propulsion shafting with a mass ratio of 1.6%, and the vibration control effect of the negative stiffness dynamic vibration absorber is maintained at 3.3 dB when the natural frequency changes by 5% and the thrust changes by 40%. The vibration response on the thrust bearing foundation and shafting do not deteriorate even at non-optimal negative stiffness. ［Conclusions］This study shows that a dynamic vibration absorber with negative stiffness can effectively suppress vibration transmission at the first longitudinal mode of a shafting under different rotational speeds. © 2023 Authors. All rights reserved.     

阻振质量参数对动力舱段隔振性能影响规律研究

Rigid blocking masses are located in the typical base structure of a power cabin based on the impedance mismatch principle.By combining the acoustic-structural coupling method and statistical energy analysis,the full-band vibration and sound radiation reduction effect of vibration isolation masses located in a base structure was researched.The influence of the blocking mass’ cross-section size and shape parameters and the layout location of the base isolation performance was discussed.Furthermore,the effectiveness of rigid vibration isolation design of the base structure was validated.The results show that the medium and high frequency vibration and sound radiation of a power cabin are effectively reduced by a blocking mass.Concerning weight increment and section requirement,suitably increasing the blocking mass size and section height and reducing section width can result in an efficiency-cost ratio.     

Adaptive vibration isolation system for diesel engine

An active two-stage isolation mounting, on which servo-hydraulic system is used as the actuator (secondary vibration source) and a diesel engine is used as primary vibration source, has been built. The upper mass of the mounting is composed of a 495 diesel and an electrical eddy current dynamometer. The lower mass is divided into four small masses to which servo-hydraulic actuator and rubber isolators are attached. According to the periodical characteristics of diesel vibration signals, a multi-point adaptive strategy based on adaptive comb filtered algorithm is applied to active multi-direction coupled vibrations control for the engine. The experimental results demonstrate that a good suppression in the effective range of phase compensation in secondary path (within 100Hz) at different operation conditions is achieved, and verify that this strategy is effective. The features of the active system, the development activities carried out on the system and experimental results are discussed in the paper.     

Numerical Simulation of the Stokes Wave for the Flow around a Ship Hull Coupled with the VOF Model

The surface wave generated by flow around a ship hull moving near free surface of water is simulated numerically in this study. The three-dimensional implicit finite volume method(FVM) is applied to solve Reynolds averaged Navier-Stokes(RANS) equation. The realizable k-ε turbulence model has been implemented to capture turbulent flow around the ship hull in the free surface zone. The volume of fluid(VOF) method coupled with the Stokes wave theory has been used to determine the free surface effect of water. By using is a six degrees of freedom model, the ship hull’s movement is numerically solved with the Stokes wave together. Under the action of Stokes waves on the sea, the interface between the air and water waves at the same regular pattern and so does the pressure and the vertical velocity. The ship hull moves in the same way as the wave. The amplitude of the ship hull’s heave is less than the wave height because of the viscosity damping. This method could provide an important reference for the study of ships’ movement, wave and hydrodynamics.     

Application of fuzzy neural network to the nuclear power plant in process fault diagnosis

The fuzzy logic and neural networks are combined in this paper, setting up the fuzzy neural network (FNN) ; meanwhile, the distinct differences and connections between the fuzzy logic and neural network are compared. Furthermore, the algorithm and structure of the FNN are introduced. In order to diagnose the faults of nuclear power plant, the FNN is applied to the nuclear power plant, and the intelligence fault diagnostic system of the nuclear power plant is built based on the FNN . The fault symptoms and the possibility of the inverted U-tube break accident of steam generator are discussed. In order to test the system‘ s validity, the inverted U-tube break accident of steam generator is used as an example and many simulation experiments are performed. The test result shows that the FNN can identify the fault.     

Study of station and attitude maneuver of submergence rescue vehicle

It is an important control process to operate motion of an submergence rescue vehicle(SRV). Seeing that the motion of the submergence rescue vehicle is special, it is necessary to employ non-linear predictive control system. For this reason, continuous dynamic performance of the system, the logical components and the operative restraints are expressed as the non-linear equations of state with the inequality restraints, and the model principle of hybrid system is introduced. The conclusion shows that it comes true to exactly control position and attitude of the SRV by means of non-linear model predictive control. The test in a model basin has also proved that the above methods are efficient.     

Optimization of Wigley Hull Form in order to Ensure the Objective Functions of the Seakeeping Performance

The research performed in this paper was carried out to investigate the computational procedure to design seakeeping optimized ship hull form. To reach the optimized hull form, four stages should be done, which consists of： generate alternative hull form, seakeeping calculations, objective functions and optimization techniques. There are many parameters that may be determined in ship hull form optimization. This paper deals with developed strip theory for determining the seakeeping performance, genetic algorithm （GA） as optimization method, high order equations for curve fitting of the hull form and finally reaching to the minimum bow vertical motion in regular head waves. The Wigley hull is selected as an initial hull and carried to be optimized. Two cases are considered. For the first case, the only form coefficients of the hull （CB, CM, Cw, Cp） are changed and main dimensions （L, B, 7） are fixed. In the second case both hull form and main dimensions are varied simultaneously. Finally, optimized hull form and its seakeeping performances are presented. The results of optimization procedure demonstrate that the optimized hull forms yield a reduction in vertical motion and acceleration.     

聚氨酯夹层隔振特性及模型试验研究

The vibration isolation performances of typical hull structure with viscoelastic interlayer are analyzed ac-cording to wave theory, and the influences of interlayer Young's modulus and length on the vibration reduction are dis-cussed. The theoretical analysis shows that combination of polyurethane interlayer with blocking mass can enhance the vibra-tion isolation performance and expand isolation frequency band. In order to verify the effectiveness of polyurethane interlay-er, the model test of power cabin's vibration is carried out. The test data shows that the reduction of 20–1000 Hz variation acoustic level at hull shell is more than 5 dB.     

基座结构形式对艇体振动特性的影响研究

合理设计船体基座连接结构使其能够有效阻断振动波的传递,这对双层圆柱壳结构减振降噪具有重要的工程应用价值。基于波动理论,探索了有限尺度的"L"形和""形连接结构的波动特性,分析了结构边界对振动波传递的影响规律。以某一双层圆柱壳动力舱段为例,通过数值试验对比分析了不同基座结构连接形式对双层圆柱壳振动特性的影响规律。在此基础上开展了大尺度模型的振动试验测试,为基座连接结构声学设计提供了依据。试验结果表明:""形基座连接结构具有高传递损失特性,基座连接形式改进后双壳动力舱段10-1000Hz频段振动加速度级平均降低约3dB。     

船舶结构振动响应灵敏度分析

双层隔振系统已经大量地应用在舰船动力装置的减振降噪技术中,介绍了一种结构振动响应对双层隔振系统主要设计参数的灵敏度分析方法。首先利用有限元法分析在双层隔振系统设计状态下船舶结构的外表面振动速度响应,然后利用导出的灵敏度方程计算外表面振动速度响应对双层隔振系统设计变量的灵敏度,计算的灵敏度系数反映了设计参数的微小改变对其振动速度的影响,从而为结构的优化设计和模型修正提供理论基础,并为双层隔振系统的设计提供了有用的信息。     

舰船刚性阻振质量基座振动特性优化设计

基于结构动力学优化设计理论,研究了舰船刚性阻振质量基座结构形式的设计方法。在满足基座舱段总重量限制的约束条件下,分别建立了刚性阻振质量布置及截面尺寸优化设计模型,并进行了以基座舱段耐压壳体振动加速度为目标函数的动力学优化设计。通过优化分析,得到了在给定约束条件下减振效果最佳的刚性阻振质量截面尺寸和布置。研究结果表明,刚性阻振质量基座中阻振质量高度越大,基座舱段耐压壳体平均振动加速度级就越小。通过优化设计可以找到满足要求的结构,分析得到目标函数随设计变量的变化趋势,并对此优化方法的有效性进行验证。     

铺板连接结构减振设计分析

为控制机械振动向船体结构传递,基于不均质结构振动隔离原理,对铺板连接结构进行减振设计。采用有限元方法建立各设计方案的计算模型,进行激励源在铺板不同位置工况下的动响应分析,对比各方案的减振效果并开展缩比模型试验。分析结果表明,U形连接结构对抑制振动从铺板向圆柱壳体传递效果较好;适当减小连接板厚度,减振效果呈增加的趋势。缩比模型测试结果显示,U形连接结构在2 Hz～4 kHz频段有大于4dB的减振效果,仿真计算结果与试验结果吻合较好。     

船舶上层建筑振动的最优控制分析

本文讨论了最优控制理论在船舶上层建筑振动控制中的应用。文中将船体和上层建筑简化为相应的船体梁和上层建筑梁模型，并将上层建筑梁的振动响应处理为支承激励下的响应。用模态分析法得到船体梁和上层建筑梁的动力特性（固有频率和固有振型），再用模态（振型）叠加法得到受控前上层建筑顶端的稳态动力响应，接着根据最优控制理论，设定目标函数，求解Riccati方程，得到主动控制力，将其作用在上层建筑梁的顶部，用模态（振型）叠加法得到受控后上层建筑梁顶部的稳态动力响应。以一条50000吨的油船为算例进行数值仿真，受控后上层建筑顶部的稳态振动位移减小了30％，可见最优控制在船舶上层建筑的振动控制中是可行的和有效的。     

基座含阻振质量的动力舱段全频段声振特性数值研究

从工程应用的角度出发,将刚性阻振质量带引入动力舱段基座结构的刚性隔振设计中。联合应用声固耦合法和统计能量法,基于ABAQUS/VA ONE,对基座结构含阻振质量带的动力舱段减振降噪效果进行了全频段数值分析。数值研究了阻振质量截面尺寸、截面形状参数、布置位置对基座隔振特性的影响规律,验证了基座刚性阻振质量隔振设计的有效性,旨在为船舶结构声学设计提供参考。     

船舶结构气幕减振的模型试验研究

对船舶结构气幕减振的模型试验研究作了介绍和讨论。试验模型为铝质,平底,尖首,方尾,开口薄壁型船模,试验在循环水槽中进行,通过2种吃水,2种喷气孔径,5种喷气流量,2种水流速度的选择组合,研究了气幕对船模自由振动,强迫振动和振动阻尼的影响,试验结果表明,气幕对船舶结构的强迫振动响应有较大的抑制作用,有明显的降噪效果,气幕减振有重要的应用前景。     

船舶阻抗失配基座对平面弯曲波传递的阻抑特性

研究了船舶阻抗失配基座对平面弯曲波传递的阻抑特性.基于波动理论,根据不均质结构中波型转换、阻抗特性,推导并给出了振动波入射不同连接形式的船舶基座结构的透声系数及隔声量公式,归纳了隔振性能随基座板架厚度比及频率变化规律,讨论了基座连接结构处板架固定方式对隔振性能的影响.在理论分析基础上,构造含阻振质量的阻抗失配基座.数值结果表明阻抗失配基座显著增大了基座的输入机械阻抗,加剧了振动波在船体板架中的波形转换、散射和反射,显著提高了舰船基座结构的隔振效果.     

舰船结构气幕减振的模型试验研究

本文介绍和讨论了舰船结构气幕减振的模型试验研究。试验模型为铝质，平底，尖首，方尾、开口薄壁型船模，试验在循环水槽中进行，通过2种吃水，2种喷气孔径，6种喷气流量，2种水流速度的选择组合，研究气幕对船模自由振动，强迫振动和振动阻尼的影响，通过对试验结果的分析整理，得到了一些重要的结论，试验表明，气幕对舰船结构的强迫振动响应有较大的抑制作用，有明显的降噪效果；气幕减振有重要的应用前景。