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NOISE AND VIBRATION DAMPING FOR YACHT INTERIOR

Year 2016, Volume: 2 Issue: 2, 166 - 170, 19.12.2016
https://doi.org/10.22531/muglajsci.283641

Abstract

Vibration damping and sound insulation are essential for all vehicles. Because moving parts and external factors such as wind, tracks, etc. can cause vibration and noise. Wave which is a dynamic force, drive system and HVAC systems are the main vibration and noise generators in a vessel. These all can affect comfort level on board yachts. Different types of isolators and absorbers such as sylomer®, cork panels, etc. are used to reduce these effects. Comfort level on board yachts can be increased using these types of materials. Otherwise, discomfort of passenger and crew may increase. These materials not only reduce structure-borne and air-borne noise and vibrations from waves, air, engines, pumps, generators and HVAC systems but also protect vibration sensitive interior or fittings. Noise and vibration evaluation is an important issue for this reason. And, measurement tools must be used not only to minimize this problem but also fulfill the regulations such as “comfort class”. Besides, providing quiet and low vibration increases the costs too. From this point of view, this study aims to explain clearly how noise and vibration damping can be done in a yacht.

References

  • Thiel, R., “Control Sound and Vibration on Your Boat”, Power and Motoryacht, October, 2013.
  • Boote, D., Pais, T., McCartan, S., “Vibration Analysis of Large Yacht Structures”, Association Technique Maritime et Aeronautique, p. 11. Paris, May 2014.
  • Boote, D., Beck, R., Blake, J., Flay¸ R., Hage, A., Jeong, H.K., Keuning, L., Miller, P., Sutherland, L., Yan, R. “Yacht Design”, 18th International Ship and Offshore Structures Congress, Volume 2, 09-13 Sep. 2012, Rostock, Germany, p.331-396.
  • Fricke, W. and Bronsart, R., “International Ship and Offshore Structures Congress (ISSC) 2012 in Rostock/Germany”, Ships and Offshore Structure, 7(4), p.351-355, 2012.
  • Wijngaarden, H.C.J.. “Prediction of Propeller-Induced Hull-Pressure Fluctuations”, PhD thesis, Technische Universiteit Delft, NL, 2011.
  • Lee, S.K., Liao, L. Wang, S., “Propeller-Induced Hull Vibration-Analytical Methods”, 2nd International Ship Noise and Vibration Conference, June 28, 2006, p. 127-139.
  • Asmussen, I., Menzel, W., Mumm, H., “Ship Vibration”, Germanischer Lloyd Technology, p. 1-52, 2001.
  • Carlton, J.S. and Vlasic, D., “Ship Vibration and Noise: Some Topical Aspects”, 1st International Ship Noise and Vibration Conference, June 20-21, 2005, p.1-11.
  • Fricke, W. and Bronsart, R., “Dynamic Response”, 18th International Ship and Offshore Structures Congress, Volume 1, 09-13 Sep. 2012, p.213-283.
  • Fricke, W. and Bronsart, R., “Impulse Pressure Loading and Response Assessment”, 18th International Ship and Offshore Structures Congress, Volume 2, 09-13 Sep. 2012, p.275-329.
  • Storhaug, G., Choi, B.K., Moan, T., Hermundstad, O.A., “Consequence of Whipping and Springing on fatigue for a 8600 TEU Container Vessel in Different Trades Based on Model Tests”, Practical Design of Ships and Floating Structures, 2, p.1-8, 2010.
  • Storhaug, G., Malenica, S., Choi, B.K., Zhu, S., Hermundstad, O.A., “Consequence of Whipping and Springing on fatigue and extreme loading for a 13000 TEU Container Vessel Based on Model Tests”, Practical Design of Ships and Floating Structures, 19-24 Sept, 2010.
  • Storhaug, G., Derbanne, Q., Choi, B.K., Moan, T., Hermundstad, O.A., “Effect of Whipping on fatigue and extreme loading of a 13000 TEU Container Vessel in BOW Quartering Seas Based on Model Tests”, International Conference on Ocean, Offshore and Arctic Engineering, 2011, p. 293-302..
  • Cao, Y., Li, L., Zhang, W., “Vibration Characteristics of Shell-shafting Coupled System Induced by Propeller Exciting Force”, Advanced Materials Research, V. 199-200, p. 773-779, 2011.
  • Juras, K., “On Acoustical Designing of Small Vessels”, IX International Maritime Association of the Mediterranean (IMAM) Congress, 2000, p.
  • Metin, A., “Noise Predictions in Mega Yachts”, Msc Thesis, 126p, İstanbul Technical University, Graduate School of Natural and Applied Sciences, Istanbul, Turkey, 2010.
  • Zhou, R., Croker, M., “Sound Transmission Loss of Foam-filled Honeycomb Sandwich Panels Using Statistical Energy Analysis and Theoretical and Measured Dynamics Properties”, Journal of Sound and Vibration, 329(6), p.673-686. 2010.
  • Cha, S., and Chun, H., “Insertion Loss Prediction of Floating Floors Used in Ship Cabins”, Applied Acoustics, 69(10), p. 913-917. 2008.
  • Song, J., Hong, S.Y., Joo, W.H., “Analysis of Structure-borne Noise in Ship cabins Using a Floating Floor with an Inserted Viscoelastic Layer”, Journal of Marine Science and Technology, 14(1), p.127-135, 2009.
  • Anon, “Noise Control Materials”, Machine Design, Nov., 15, 2002, [Online] http://machinedesign.com/basics-design/noise-control-materials
  • Moon, S.J., Kwak,J .S., Chung, J.H., Jib, Y.J., Yoon, J.S., Choi, S.B., Lee, H.Y., Jung, W.J., and Ki, D.J., “A Study on the Hybrid Mount Against Vibration and Shock for Naval Ships”, Shock and Vibration, 17, 269-283, 2010.
  • Baker, C. and Mc Sweeney, K., “Setting a Standard for Luxury and Comfort”, Design, Construction and Operation of Super and Mega Yachts Conference, 2009, p. 177.
  • Lalangas, P.A. and Yannoulis, P.L., “Design and Construction of a 25-M High Speed Aluminium Motor Yacht”, SNAME Transactions, Vol. 91, pp 89-124, 1983.
  • Akyıldız, H. and Ürker E., “Megayatlarda Donatım”, Boat Builder Turkey, Temmuz/Ağustos,(27), 2011.
  • http://www.mp-marine.com/Images/Sole_Firring1a.jpg
  • Bolmsvik, A. and Brandt, A., “Damping Assessment of Light Wooden Assembly With and Without Damping Material”, Engineering Structures, 49, p.434-447, 2013.
  • Yıldırım, B., “Determination of Annoyance of Noise in Yachts, Required Acoustical Conditions, Application Alternatives for Sample Projects and Comparisons”, Msc Thesis, 117p, İstanbul Technical University, Graduate School of Natural and Applied Sciences, Istanbul, Turkey, 2010.
  • Aydın, M., “The Structural Analysis of Turkish Yacht Furniture Manufacturing Sector in Marmara Region”, Msc Thesis, 160p, Istanbul University, Graduate School of Natural and Applied Sciences, Istanbul, Turkey, 2012.
  • Arslan, B., “Interior Design Process and Criterias of Motoryachts”, Msc Thesis, 355p, İstanbul Technical University, Graduate School of Natural and Applied Sciences, Istanbul, Turkey, 2010.
  • Thiel, R., “Inexpensive Noise Reduction on Your Boat”, Power and Motoryacht, July 2015.

YAT İÇMEKANI İÇİN GÜRÜLTÜ VE TİTREŞİM SÖNÜMLEMESİ

Year 2016, Volume: 2 Issue: 2, 166 - 170, 19.12.2016
https://doi.org/10.22531/muglajsci.283641

Abstract

Titreşim sönümlemesi ve ses yalıtımı tüm
taşıtlar için gereklidir. Çünkü hareketli parçalar ve rüzgar, zemin, vd. gibi
dış etkenler titreşime ve gürültüye neden olabilirler. Dinamik bir kuvvet olan
dalga, tahrik ve iklimlendirme sistemleri deniz taşıtlarındaki temel titreşim
ve gürültü üreteçleridir. Bunların hepsi yat üzerindeki konfor seviyesini
etkileyebilir. Sylomer®, mantar panel, vd., değişik tipte izolasyon malzemeleri
ve soğurucular, bu etkileri azaltmak için kullanılmaktadır. Aksi durumda yolcu
ve mürettebat konforu azalabilir. Bu malzemeler sadece dalga, hava, motor,
pompa, jeneratör ve iklimlendirme sistemlerinden kaynaklanan yapı ve hava
kaynaklı gürültü ve titreşimleri düşürmez aynı zamanda titreşime duyarlı iç
mekân ve donanımları da korur. Gürültü ve titreşim ölçümü bu sebeplerden dolayı
önemli bir konudur. Ve ölçüm aletleri sadece bu sorunu en aza indirmek için
değil aynı zamanda “Klas” gereksinimlerini karşılamalıdır. Bunun yanında, daha
sessiz ve titreşimsiz bir ortam sağlamak maliyeti arttırır. Bu bakış açısıyla
bu çalışma bir yatta gürültü ve titreşim sönümlemesinin nasıl yapıldığını
anlaşılır şekilde açıklamayı amaçlamaktadır.

References

  • Thiel, R., “Control Sound and Vibration on Your Boat”, Power and Motoryacht, October, 2013.
  • Boote, D., Pais, T., McCartan, S., “Vibration Analysis of Large Yacht Structures”, Association Technique Maritime et Aeronautique, p. 11. Paris, May 2014.
  • Boote, D., Beck, R., Blake, J., Flay¸ R., Hage, A., Jeong, H.K., Keuning, L., Miller, P., Sutherland, L., Yan, R. “Yacht Design”, 18th International Ship and Offshore Structures Congress, Volume 2, 09-13 Sep. 2012, Rostock, Germany, p.331-396.
  • Fricke, W. and Bronsart, R., “International Ship and Offshore Structures Congress (ISSC) 2012 in Rostock/Germany”, Ships and Offshore Structure, 7(4), p.351-355, 2012.
  • Wijngaarden, H.C.J.. “Prediction of Propeller-Induced Hull-Pressure Fluctuations”, PhD thesis, Technische Universiteit Delft, NL, 2011.
  • Lee, S.K., Liao, L. Wang, S., “Propeller-Induced Hull Vibration-Analytical Methods”, 2nd International Ship Noise and Vibration Conference, June 28, 2006, p. 127-139.
  • Asmussen, I., Menzel, W., Mumm, H., “Ship Vibration”, Germanischer Lloyd Technology, p. 1-52, 2001.
  • Carlton, J.S. and Vlasic, D., “Ship Vibration and Noise: Some Topical Aspects”, 1st International Ship Noise and Vibration Conference, June 20-21, 2005, p.1-11.
  • Fricke, W. and Bronsart, R., “Dynamic Response”, 18th International Ship and Offshore Structures Congress, Volume 1, 09-13 Sep. 2012, p.213-283.
  • Fricke, W. and Bronsart, R., “Impulse Pressure Loading and Response Assessment”, 18th International Ship and Offshore Structures Congress, Volume 2, 09-13 Sep. 2012, p.275-329.
  • Storhaug, G., Choi, B.K., Moan, T., Hermundstad, O.A., “Consequence of Whipping and Springing on fatigue for a 8600 TEU Container Vessel in Different Trades Based on Model Tests”, Practical Design of Ships and Floating Structures, 2, p.1-8, 2010.
  • Storhaug, G., Malenica, S., Choi, B.K., Zhu, S., Hermundstad, O.A., “Consequence of Whipping and Springing on fatigue and extreme loading for a 13000 TEU Container Vessel Based on Model Tests”, Practical Design of Ships and Floating Structures, 19-24 Sept, 2010.
  • Storhaug, G., Derbanne, Q., Choi, B.K., Moan, T., Hermundstad, O.A., “Effect of Whipping on fatigue and extreme loading of a 13000 TEU Container Vessel in BOW Quartering Seas Based on Model Tests”, International Conference on Ocean, Offshore and Arctic Engineering, 2011, p. 293-302..
  • Cao, Y., Li, L., Zhang, W., “Vibration Characteristics of Shell-shafting Coupled System Induced by Propeller Exciting Force”, Advanced Materials Research, V. 199-200, p. 773-779, 2011.
  • Juras, K., “On Acoustical Designing of Small Vessels”, IX International Maritime Association of the Mediterranean (IMAM) Congress, 2000, p.
  • Metin, A., “Noise Predictions in Mega Yachts”, Msc Thesis, 126p, İstanbul Technical University, Graduate School of Natural and Applied Sciences, Istanbul, Turkey, 2010.
  • Zhou, R., Croker, M., “Sound Transmission Loss of Foam-filled Honeycomb Sandwich Panels Using Statistical Energy Analysis and Theoretical and Measured Dynamics Properties”, Journal of Sound and Vibration, 329(6), p.673-686. 2010.
  • Cha, S., and Chun, H., “Insertion Loss Prediction of Floating Floors Used in Ship Cabins”, Applied Acoustics, 69(10), p. 913-917. 2008.
  • Song, J., Hong, S.Y., Joo, W.H., “Analysis of Structure-borne Noise in Ship cabins Using a Floating Floor with an Inserted Viscoelastic Layer”, Journal of Marine Science and Technology, 14(1), p.127-135, 2009.
  • Anon, “Noise Control Materials”, Machine Design, Nov., 15, 2002, [Online] http://machinedesign.com/basics-design/noise-control-materials
  • Moon, S.J., Kwak,J .S., Chung, J.H., Jib, Y.J., Yoon, J.S., Choi, S.B., Lee, H.Y., Jung, W.J., and Ki, D.J., “A Study on the Hybrid Mount Against Vibration and Shock for Naval Ships”, Shock and Vibration, 17, 269-283, 2010.
  • Baker, C. and Mc Sweeney, K., “Setting a Standard for Luxury and Comfort”, Design, Construction and Operation of Super and Mega Yachts Conference, 2009, p. 177.
  • Lalangas, P.A. and Yannoulis, P.L., “Design and Construction of a 25-M High Speed Aluminium Motor Yacht”, SNAME Transactions, Vol. 91, pp 89-124, 1983.
  • Akyıldız, H. and Ürker E., “Megayatlarda Donatım”, Boat Builder Turkey, Temmuz/Ağustos,(27), 2011.
  • http://www.mp-marine.com/Images/Sole_Firring1a.jpg
  • Bolmsvik, A. and Brandt, A., “Damping Assessment of Light Wooden Assembly With and Without Damping Material”, Engineering Structures, 49, p.434-447, 2013.
  • Yıldırım, B., “Determination of Annoyance of Noise in Yachts, Required Acoustical Conditions, Application Alternatives for Sample Projects and Comparisons”, Msc Thesis, 117p, İstanbul Technical University, Graduate School of Natural and Applied Sciences, Istanbul, Turkey, 2010.
  • Aydın, M., “The Structural Analysis of Turkish Yacht Furniture Manufacturing Sector in Marmara Region”, Msc Thesis, 160p, Istanbul University, Graduate School of Natural and Applied Sciences, Istanbul, Turkey, 2012.
  • Arslan, B., “Interior Design Process and Criterias of Motoryachts”, Msc Thesis, 355p, İstanbul Technical University, Graduate School of Natural and Applied Sciences, Istanbul, Turkey, 2010.
  • Thiel, R., “Inexpensive Noise Reduction on Your Boat”, Power and Motoryacht, July 2015.
There are 30 citations in total.

Details

Subjects Engineering
Journal Section Journals
Authors

Murat Aydın

Tuğba Yılmaz Aydın This is me

Ergün Güntekin

Publication Date December 19, 2016
Published in Issue Year 2016 Volume: 2 Issue: 2

Cite

APA Aydın, M., Yılmaz Aydın, T., & Güntekin, E. (2016). NOISE AND VIBRATION DAMPING FOR YACHT INTERIOR. Mugla Journal of Science and Technology, 2(2), 166-170. https://doi.org/10.22531/muglajsci.283641
AMA Aydın M, Yılmaz Aydın T, Güntekin E. NOISE AND VIBRATION DAMPING FOR YACHT INTERIOR. Mugla Journal of Science and Technology. December 2016;2(2):166-170. doi:10.22531/muglajsci.283641
Chicago Aydın, Murat, Tuğba Yılmaz Aydın, and Ergün Güntekin. “NOISE AND VIBRATION DAMPING FOR YACHT INTERIOR”. Mugla Journal of Science and Technology 2, no. 2 (December 2016): 166-70. https://doi.org/10.22531/muglajsci.283641.
EndNote Aydın M, Yılmaz Aydın T, Güntekin E (December 1, 2016) NOISE AND VIBRATION DAMPING FOR YACHT INTERIOR. Mugla Journal of Science and Technology 2 2 166–170.
IEEE M. Aydın, T. Yılmaz Aydın, and E. Güntekin, “NOISE AND VIBRATION DAMPING FOR YACHT INTERIOR”, Mugla Journal of Science and Technology, vol. 2, no. 2, pp. 166–170, 2016, doi: 10.22531/muglajsci.283641.
ISNAD Aydın, Murat et al. “NOISE AND VIBRATION DAMPING FOR YACHT INTERIOR”. Mugla Journal of Science and Technology 2/2 (December 2016), 166-170. https://doi.org/10.22531/muglajsci.283641.
JAMA Aydın M, Yılmaz Aydın T, Güntekin E. NOISE AND VIBRATION DAMPING FOR YACHT INTERIOR. Mugla Journal of Science and Technology. 2016;2:166–170.
MLA Aydın, Murat et al. “NOISE AND VIBRATION DAMPING FOR YACHT INTERIOR”. Mugla Journal of Science and Technology, vol. 2, no. 2, 2016, pp. 166-70, doi:10.22531/muglajsci.283641.
Vancouver Aydın M, Yılmaz Aydın T, Güntekin E. NOISE AND VIBRATION DAMPING FOR YACHT INTERIOR. Mugla Journal of Science and Technology. 2016;2(2):166-70.

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