Journal is indexed in following databases:



2022 Journal Impact Factor - 0.6
2022 CiteScore - 1.7



HomePage
 




 


 

ISSN 2083-6473
ISSN 2083-6481 (electronic version)
 

 

 

Editor-in-Chief

Associate Editor
Prof. Tomasz Neumann
 

Published by
TransNav, Faculty of Navigation
Gdynia Maritime University
3, John Paul II Avenue
81-345 Gdynia, POLAND
www http://www.transnav.eu
e-mail transnav@umg.edu.pl
Measurement of Maximum Vibration After the Addition of the Gorger Construction to Evaluate the Side Deck Girder Construction Planning in the Ship Engine Room
1 Diponegoro University, Semarang, Java, Indonesia
ABSTRACT: The greatest vibration occurs in the engine room, but all other parts of the ship also experience vibrations because it is propagating. Even though there are methods to reduce these vibrations such as engine beds, they can only reduce the damaging effects and cannot completely eliminate the vibrations themselves. The method used in this research is to compare the measurement of good vibrations in the conditions before the addition of construction and after the addition of construction for later comparison with numerical calculation data. The purpose of this study is to obtain the maximum vibration value in the conditions after the addition of the gorger construction before the addition of the side deck girder construction as a means of evaluating the side deck girder construction planning in the ship engine room ship 2000 DWT. The result consideration of adding construction becomes one or the alternative in providing reinforcement so that it can reduce the vibration that occurs. From analyze results after addition of a sized T profile FB 180 x 8 mm FP 75 x 10 mm, which ranges from 28 - 29 m/s2 for the x-axis vibration value, while for vibrations on the y-axis the maximum is 10-11 m/s2, and on the maximum z-axis. at 20-21 m/s2, this analyze vibration is based on the time between 0 - 15 seconds or per 15 second interval, able to reduce percentage of vibration in the ship engine room area is 34.91%.
REFERENCES
Tillig F., Ringsberg J. W., “Design, operation and analysis of wind-assisted cargo ships,” Ocean engineering, vol. 211, pp. 107603, 2020. - doi:10.1016/j.oceaneng.2020.107603
Qian J., Chen L., “Random vibration of SDOF vibro-impact oscillators with restitution factor related to velocity under wide-band noise excitations,” Mechanical Systems and Signal Processing, vol. 147, pp. 107082, 2021. - doi:10.1016/j.ymssp.2020.107082
Guo H. P., Zou Z. J., Wang F., Liu Y., “Numerical investigation on the asymmetric propeller behavior of a twin-screw ship during maneuvers by using RANS method,” Ocean Engineering, vol. 200, pp. 107083, 2020. - doi:10.1016/j.oceaneng.2020.107083
Ortolani F., Capone A., Dubbioso G., Pereira F. A., Maiocchi A., Di Felice F., “Propeller performance on a model ship in straight and steady drift motions from single blade loads and flow field measurements,” Ocean Engineering, vol. 197, pp. 106881, 2020. - doi:10.1016/j.oceaneng.2019.106881
Zheng H., Liu G. R., Tao J. S., Lam K. Y., “FEM/BEM analysis of diesel piston-slap induced ship hull vibration and underwater noise,” Applied Acoustics, vol. 62, no. 4, pp. 341-358, 2001. - doi:10.1016/S0003-682X(00)00046-3
Zambon A., Moro L., Biot M., “Vibration analysis of super-yachts: Validation of the Holden Method and estimation of the structural damping,” Marine Structures, vol. 75, pp. 102802, 2021. - doi:10.1016/j.marstruc.2020.102802
Chitrakar P., Baawain M. S., Sana A., Al-Mamun A., “Current status of marine pollution and mitigation strategies in arid region: a detailed review,” Ocean Science Journal, vol. 54, no. 3, pp. 317-348, 2019. - doi:10.1007/s12601-019-0027-5
Eskandarian M., Liu P., “A novel maneuverable propeller for improving maneuverability and propulsive performance of underwater vehicles,” Applied Ocean Research, vol. 85, pp. 53-64, 2019. - doi:10.1016/j.apor.2019.01.026
Baltzer J., Maurer N., Schaffeld T., Ruser A., Schnitzler J. G., Siebert U., “Effect ranges of underwater noise from anchor vibration operations in the Wadden Sea,” Journal of Sea Research, vol. 162, pp. 101912, 2020. - doi:10.1016/j.seares.2020.101912
Guo J., Huang S., Nikolay T., Li M., “Vibration damping of naval ships based on ship shock trials,” Applied Acoustics, vol. 133, pp. 52-57, 2018. - doi:10.1016/j.apacoust.2017.12.009
Li D. Q., Hallander J., Johansson T., “Predicting underwater radiated noise of a full scale ship with model testing and numerical methods,” Ocean Engineering, vol. 161, pp. 121-135, 2018. - doi:10.1016/j.oceaneng.2018.03.027
Wang F., Lu Y., Lee H. P., Ma X., “Vibration and noise attenuation performance of compounded periodic struts for helicopter gearbox system,” Journal of Sound and Vibration, vol. 458, pp. 407-425, 2019. - doi:10.1016/j.jsv.2019.06.037
Zhu H., Geng G., Yu Y., Xu L., “Probabilistic analysis on parametric random vibration of a marine riser excited by correlated Gaussian white noises,” International Journal of Non-Linear Mechanics, vol. 126, pp. 103578, 2020. - doi:10.1016/j.ijnonlinmec.2020.103578
Zhang B., Xiang Y., He P., Zhang G. J., “Study on prediction methods and characteristics of ship underwater radiated noise within full frequency,” Ocean Engineering, vol. 174, pp. 61-70, 2019. - doi:10.1016/j.oceaneng.2019.01.028
Li L., Gu X., Sun S., Wang W., Wan Z., Qian P., “Effects of welding residual stresses on the vibration fatigue life of a ship's shock absorption support,” Ocean Engineering, vol. 170, pp. 237-245, 2018. - doi:10.1016/j.oceaneng.2018.10.011
Bai Y., Jin W. L, “Ship Vibrations and Noise Control”, in Marine Structural Design, 2nd ed., Oxford: Butterworth-Heinemann, pp. 259-273, 2015. - doi:10.1016/B978-0-08-099997-5.00014-9
Borelli D., Gaggero T., Rizzuto E., Schenone C., “Onboard ship noise: Acoustic comfort in cabins,” Applied Acoustics, vol. 177, pp. 107912, 2021. - doi:10.1016/j.apacoust.2021.107912
Cinquemani S., Braghin F., “Decentralized active vibration control in cruise ships funnels,” Ocean Engineering, vol. 140, pp. 361-368, 2017. - doi:10.1016/j.oceaneng.2017.06.008
Soni T., Das A. S., Dutt J. K., “Active vibration control of ship mounted flexible rotor-shaft-bearing system during seakeeping,” Journal of Sound and Vibration, vol. 467, pp. 115046, 2020. - doi:10.1016/j.jsv.2019.115046
Liu H., Lian Z., Gong Z., Wang Y., Yu G., “Thermal comfort, vibration, and noise in Chinese ship cabin environment in winter time,” Building and Environment, vol. 135, pp. 104-111, 2018. - doi:10.1016/j.buildenv.2018.02.041
Citation note:
Sugeng S., Utomo B., Said S.D., Yusim A.K., Windyandari A., Khristyson S.F., Afrizal L., Jatmiko A.B., Sanjiwo Z.Z.: Measurement of Maximum Vibration After the Addition of the Gorger Construction to Evaluate the Side Deck Girder Construction Planning in the Ship Engine Room. TransNav, the International Journal on Marine Navigation and Safety of Sea Transportation, Vol. 16, No. 2, doi:10.12716/1001.16.02.16, pp. 337-340, 2022

Other publications of authors:


File downloaded 121 times








Important: TransNav.eu cookie usage
The TransNav.eu website uses certain cookies. A cookie is a text-only string of information that the TransNav.EU website transfers to the cookie file of the browser on your computer. Cookies allow the TransNav.eu website to perform properly and remember your browsing history. Cookies also help a website to arrange content to match your preferred interests more quickly. Cookies alone cannot be used to identify you.
Akceptuję pliki cookies z tej strony