• Journal of Advanced Marine Engineering and Technology
• /
• 제18권2호
• /
• pp.113-121
• /
• 1994

Since two oil shocks in 1970s, all of engine makers have persevered in their efforts to reduce specific fuel consumption and to increase engine power rate as much as possible in marine diesel engines. As a result, the maximum pressure in cylinders of these engines has been continuously increased. It causes direct axial vibration. The axial stiffness of crank shaft is low compared to old types of engine models by increasing the stroke/bore ratio and its major critical speed might occur within engine operation range. An axial damper, therefore, needs to be installed in order to reduce the axial vibration amplitude of the crankshaft. Usually the main critical speed of axial vibration for the propulsion shafting system with a 4-8 cylinder engine exists near the maximum continuous revolution(MCR). In this case, when the damping coefficient of the damper is increased within the allowance of the structural strength, its stiffness coefficient is also increased. Therefore, the main critical speed of axial vibration can be moved beyond the MCR. It has the same function as a conventional detuner. However, in the case of a 9-12 cylinder engine, the main critical speed of axial vibration for the propulsion shafting system exists below the MCR and thus the critical speed cannot be moved beyond the MCR by using an axial damper. In this case, the damping coefficient of an axial damper should be adjusted by considering the range of engine revolution, the location and vibration amplitude of the critical speed, the fore and aft vibration of the hull super structure. It needs to clarify the dynamic characteristics of the axial vibration damper to control the axial vibration appropriately. Therefore authors suggest the calculation method to analyse the dynamic characteristics of axial vibration damper. To confirm the calculation method proposed in this paper, it is applied to the propulsion shafting system of the actual ships and satisfactory results are obtained.

• 한국소음진동공학회논문집
• /
• 제26권4호
• /
• pp.365-374
• /
• 2016

The underwater radiated noise can be reduced by decreasing the structure borne noise of the on-board equipment. Therefore, the structure borne noise of the onborad installed equipment is strongly restricted by ROK navy with MIL-Std 740-2. Usually, the vibration transmissibility from the equipment to the hull of the ship is dependent on its mount characteristics. Even though the double mount structure is proper to apply for ship board application rather than single mount, it is not widely applied due to the weight and volume resriction of the ship. Therefore, in this research, the base using sandwitch panel which can act as double mount structure is suggested and its noise reduction capacity is verified with analytic calculation as well as experiment.

• Journal of Advanced Marine Engineering and Technology
• /
• 제18권5호
• /
• pp.56-67
• /
• 1994

The installation methods of diesel engines in ships would be largely classified into two groups : one is the direct mounting system fixing engine directly into double bottom of the hull, and the other is the resilient mounting system having vibration absorbers between engine and ship body such as rubber plate to prevent shocks or vibration transmission. The direct mounting system is generally used for large-sized low speed diesel engines, because the resilient mounting system has difficulties in reducing the natural frequency of engine itself under normal speed. On the contrary, the resilient mounting system is often used for medium or high speed engines for marine propulsion and generator that have light weight and high revolution speed. Recently, it is even applied to engines having relatively low speed(300-400rpm) for fishing boats. Although many researches for the resilient mounting system have been carried out, many problems in applying these results directly to marine vessels because most of these have been used for automobiles. Up to now we have had to depend on the professional foreign company in design and the supply of parts for the resilient mounting system of marinediesel engines utterly. In preseut study, the exciting forces of engines effecting to resilient mounting were examined, and patterns of vibration and evaluation procedure for force transmission from resilient mounting to the body of hull were established. Also, these results were applied to the analysis of free and forced vibration for the rubber-type resilient mounting systems of marine diesel engines. Besides, after changing the various design parameters, such as locations, angles, dynamic characteristics and the number of resilient mountings, the influences on resilient mounting system were also examined.

• 소음진동
• /
• 제11권1호
• /
• pp.82-88
• /
• 2001

In a transmission or geared rotor system a coupled phenomenon of lateral and torsional vibrations may occur due to the gear meshing effect. Particularly, in high speed or low vibration and low noise applications of geared rotor systems a coupled rotordynamic analysis is required to precisely predict their dynamic characteristics. In this paper a generalized finite element model of a gear pair element is developed, which actively couples the lateral and torsional vibrations due to the gear meshing effect. In the modeling the generalized forces due to the transmission error. geometrical eccentricities. and unbalances in the gear system are also considered. Then. using the developed gear pair element model a coupled unforced rotordynamic analysis is performed with a prototype 800 RT turbo-chiller rotor-bearing system having a hull-pinion speed increasing gear. Results show that the torsional vibration characteristics experience some changes due to the gear meshing and lateral dynamic coupling effect, but that they have no adverse effect and the lateral ones have no practical changes in an operating speed range.

• 한국소음진동공학회:학술대회논문집
• /
• 한국소음진동공학회 2009년도 춘계학술대회 논문집
• /
• pp.504-508
• /
• 2009

To obtain high power, diesel engines continuously increase combustion pressure and mean effective pressure each cylinder, and the excitation sources and noisy sources are increased, too. Moreover, to reduce the costs, shipyards make hull structures weaker than before. As above reasons, it is more difficult to control the vibration phenomenon nowadays. In this study, it was investigated why diesel generator sets reached the vibration allowable limits during the FAT and heavy vibration phenomenon of diesel generator sets using ODS test during onboard tests. Also, it is found out the stiffness of deck and common bed using the test result of their structural impedance. To find out the vibratory characteristics of diesel generator sets, MODAL tests were carried out. From the sensitivity analysis after above tests, it was selected points to be reinforced and studied troubleshooting to solve heavy vibration phenomenon of diesel generator sets.

• 한국해양공학회지
• /
• 제25권5호
• /
• pp.58-63
• /
• 2011

Underwater vehicles such as UUVs (Unmanned Underwater Vehicles) and ROVs (Remotely Operated Vehicles) use sonar to detect their underwater environment or other underwater vehicles. The underwater vehicles designed recently have an electrical power system with high rotational speed. This system can generate high frequency vibrations above 10 kHz, and these vibrations can cause bad (negative) effects on the performance of the sonar. In many previous investigations, numerical analyses have been used for high frequency vibration problems. In this study, an experimental analysis was carried out, and a circular cylindrical shell was considered as the hull structure of an underwater vehicle. Frequency transfer functions for the circular cylindrical shell were identified using an experimental vibration analysis in the air and in a fully-submerged condition. We compare the frequency transfer functions in the air and water to obtain hydro-elastic effects. It is found that the dynamic characteristics of the circular cylindrical shell are changed by varying the response position.

• 한국소음진동공학회논문집
• /
• 제19권9호
• /
• pp.922-927
• /
• 2009

The transducers used in active sonar on surface ships are packed in a specific geometry in the array drum in order to meet the requirements such as the source level, directional beam pattern, etc. This paper describes the acoustic characteristics of the cylindrical array which is based on a 64 vertical staves arrangement, each stave composed 5 independent transducers. Firstly, the single transducer on the rigid baffle in the water is analyzed with the Finite Element Method. From the result of the FE analysis nodal velocities on the radiation surface is calculated and used with the boundary conditions of the transducers mounted on the array drum. Then the acoustic pressure is calculated in the field points using the Boundary Element Method and the other acoustic informations, the source level, beam pattern, near field and far-field distance, were acquired.

• 대한조선학회지
• /
• 제27권3호
• /
• pp.89-99
• /
• 1990

선박의 운항경제성을 개선하기 위해서는 저항이 작고 추진성능은 우수한 선형의 개발이 요구된다. 흔히, 저저항 특성을 갖는 선미선형은 추진효율이 떨어지는 경우가 많고, 반대로 추진효율이 좋은 선형은 저항이 큰 경우가 많아서 결과적으로 소요마력이 작은 선형의 개발은 어려운 과제로 되어 있다. 비대선형에 있어서는 저항 특히, 점성저항이 작은 것으로 알려진 소위 'Buttock-flow type'의 선미형상을 기본으로 하고, 여기에 추진기 앞쪽(Run부)은 추진효율이 높은 재래 선미형상(U-type 또는 Hogner type)과 같이 만들어 저저항 및 고추진효율의 특성을 함께 갖는 선미선형의 개발을 시도하였다. 최초의 모형시험 결과는 이와같은 시도가 선미선형 설계의 한 접근 방법이 될 수 있음을 보여주었으며, 첫 시험결과에 고무되어 계속적으로 이러한 선미선형의 개량에 주력한 결과로, 저저항 고추진 효율을 갖는 선미선형의 개발에 어느정도 성공을 거두었다. 더하여, 이러한 선형은 추진기 주변의 반류분포가 균일하여 우수한 캐비테이션 및 진동 특성도 함께 가질 수 있고, 종래의 '바-지 선형'에 비하여 기관실 이중저의 상면적(床面積)이 넓어, 보다 경제적인 배치가 가능하다는 것도 확인되었다.

• 대한조선학회논문집
• /
• 제55권1호
• /
• pp.37-44
• /
• 2018

To understand the dynamic characteristics of the vessel with hydroelastic response, it is very important to estimate the dynamic modal parameters such as mode shapes, natural frequency, and damping ratio. These dynamic modal parameters of full scale ship are a priori unknowns, hence to be estimated directly based upon the full scale measurement data. In this paper, dynamic modal parameters were extracted by signal processing of acceleration and strain data measured from a large container ship whose loading capacity is 9400TEU. The mode shapes of the vibrating hull were identified using the proper orthogonal decomposition and the vibration response of hull was decomposed into its modal magnitudes. Natural frequencies of specific modes were derived via Fourier transform of these modal magnitude. Also, the free decay signal of the vibrating hull was obtained through the random decrement technique and the damping ratio was estimated with accuracy.

• 대한조선학회지
• /
• 제27권1호
• /
• pp.35-44
• /
• 1990

근년에 이르러 에너지 절약형선(節約型船) 개발이 촉진됨에 따라 디이젤엔진이 대구경(大口徑) 장행정(長行程) 소수(小數)실린더 저회전수화(低回轉數化)함으로써 불균형(不均衡)모멘트가 커져서 특히 중형선(中型船)에 대해 저진동수영역(低振動數領域)의 선체진동(船體振動) 방진설계(防振設計)가 주요과제로 대두되고 있다. 자동차운반선(自動車運搬船)의 경우 구조적(構造的) 특성(特性) 및 선형기하학적(船型幾何學的)인 특성(特性)이 일반상선(一般商船)과는 매우 다르다. 본 논문에서는 선체상하진동(船體上下振動), 선체수평(船體水平) 비틂연성진동(聯成振動)에 대하여 보유추(類推)이론에 의거한 해석방법의 정립을 위하여 전기 특성을 고려한 적정한 모델링방법, 부가수질량(附加水質量) 및 동 중심(中心), 부가수질량(附加水質量) 극관성(極慣性) 모멘트, 단면(斷面)의 전단계수(剪斷係數) 등의 적정한 산정방법, 수평(水平) 비틂거동(擧動)의 연성도(聯成度), modal해석(解析) 즉 mode중 첩법에 의한 강제진동응답(强制振動應答)의 계산 등에 관하여 실선(實船)에 대한 수치실험적(數値實驗的) 계산예(計算例)를 통해 일련의 고찰을 거쳐 합리적인 해석방법을 제시하였다.