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Düşey Yüzlü Duvar Önünde Pervane Jetinin Neden Olduğu Oyulma

Year 2022, , 679 - 690, 31.07.2022
https://doi.org/10.29137/umagd.1090579

Abstract

Gemilerin seyir ve manevraları sırasında deniz tabanında meydana gelebilecek oyulmalar, önlem alınmadığı takdirde ciddi sorunlara neden olabilir. Oluşacak oyulmaların tahmini liman yapılarının stabilitesi için büyük önem taşımaktadır. Bu çalışmada, düşey yüzlü bir duvar önünde oluşan oyulma deneysel olarak incelenmiştir. Bu amaçla, 3.2x2.0x1.0 m ölçülere sahip deney tankının tabanına ortalama elek çapı d50= 0.24 mm ve özgül kütlesi ρ=2650 kg/m3 olarak belirlenen kuvars kumu serilmiştir. Deneylerde 0.06 m çaplı pirinçten imal edilmiş bir pervane kullanılmıştır. Pervane kendi ekseni ile polikarbon esaslı düşey yüzlü bir duvar arasında 4 farklı konumda yerleştirilmiş ve 3 farklı dönüş hızında çalıştırılmıştır. Hız ölçümleri Akustik Doppler prensibi ile çalışan ADVP kullanılarak elde edilmiştir. Düşey yüzlü duvar ile pervane ekseni arasındaki mesafenin ve pervane dönüş hızının oyulma mekanizması üzerindeki etkilerine dair bulgular literatürdeki çalışmalarla karşılaştırılmıştır.

Supporting Institution

Kırıkkale Üniversitesi Bilimsel Araştırma Projeleri Koordinasyon Birimi, Türkiye Bilimsel ve Teknolojik Araştırma Kurumu (TÜBİTAK)

Project Number

Proje No: 2018/074, Proje No: 218M428

Thanks

Bu çalışma Kırıkkale Üniversitesi Bilimsel Araştırma Projeleri Koordinasyon Birimi (Proje No: 2018/074) ve Türkiye Bilimsel ve Teknolojik Araştırma Kurumu (TÜBİTAK) (Proje No: 218M428) tarafından desteklenmiştir.

References

  • Blaauw, H. G., and van de Kaa, E. J. (1978). “Erosion of bottom and sloping banks caused by the screw race of manoeuvring ships.” Delft Hydraulics Laboratory, Delft, Netherlands, 1–12.
  • Cui, Y., Lam, W. H., Zhang, T., Sun, C., Robinson, D., & Hamill, G. (2019). Temporal model for ship twin-propeller jet induced sandbed scour. Journal of Marine Science and Engineering, 7(10), 339.
  • Cui, Y., Lam, W. H., Ong, Z. C., Ling, L., Siow, C. L., Robinson, D., & Hamill, G. (2020). Experimental Scours by Impinging Twin-Propeller Jets at Quay Wall. Journal of Marine Science and Engineering, 8(11), 872.
  • Fuehrer, M., Römisch, K., (1977). Propeller jet erosion and stability criteria for bottom protection of various constructions. In: Proceedings of P.I.A.N.C, Bulletin No.58.
  • Hamill, G. A. (1987). “Characteristics of the screw wash of a manoeuvring ship and the resulting bed scour,” Ph.D. thesis, Queen’s University of Belfast, 1987.
  • Hamill, G. A., Johnston, H. T. ve Stewart, D. P., (1999). “Propeller Wash Scour Near Quay Walls”, Journal of Waterway, Port, Coastal and Ocean Engineering, 125(4):15616, 1999.
  • Hong, J. H., Chiew, Y. M., & Cheng, N. S. (2013). Scour caused by a propeller jet. Journal of Hydraulic Engineering, 139(9), 1003-1012.
  • Llull, T., Mujal-Colilles, A., & Gironella, X. (2021). Twin propeller time-dependent scouring processes. Physical experiments. Ocean Engineering, 236, 109461.
  • P.I.A.N.C, (2015). The World Association for Waterborne Transport Infrastructure, “Guidelines for Protecting Berthing Structures from Scour Caused by Ships”. Report No.180, Belgium.
  • Römisch K., (1975). Der propellerstrahl als erodierendes element bei anund ablegenamovem von schiffen, Seewirtschaft Berlin, Vol.7, Part 7.
  • Sarker, A., Flow Measurement Around Scoured Bridge Piers Using Acoustic-Doppler Velocimeter (ADV), Flow Measurement and Instrumentation, 9, 217-227, 1998.
  • Tan, R. İ., & Yüksel, Y. (2018). Seabed scour induced by a propeller jet. Ocean Engineering, 160, 132-142.
  • Verhey, H. J. (1983). “The stability of bottom and banks subjected to the velocities in the propeller jet behind ships.” Delft Hydraulics Laboratory, Netherlands.
  • Wei, M., Chiew, Y. M., & Cheng, N. S. (2020). Recent advances in understanding propeller jet flow and its impact on scour. Physics of Fluids, 32(10), 101303.
  • Yuksel, Y., Tan, R. I., & Celikoglu, Y. (2019). Determining propeller scour near a quay wall. Ocean Engineering, 188, 106331.

Scour Induced by Propeller Water Jet in front of a Vertical Wall

Year 2022, , 679 - 690, 31.07.2022
https://doi.org/10.29137/umagd.1090579

Abstract

Scours that may occur on the sea floor during the navigation and maneuvers of ships can cause serious problems if precautions are not taken. The estimation of the scours to occur is of great importance for the stability of the port structures. In this study, scour in front of a vertical wall was investigated experimentally. For this purpose, quartz sand with an average sieve diameter of d50= 0.24 mm and a specific mass of ρ= 2650 kg/m3 was laid on the bottom of the 3.2x2.0x1.0 m test tank. A propeller made of brass with a diameter of 0.06 m was used in the experiments. The propeller was placed in 4 different positions between its axis and the polycarbon-based vertical wall and operated at 3 different rotation speeds. Velocity measurements were obtained using an ADVP operating on the Acoustic Doppler principle. The findings on the effects of the distance between the vertical wall and the propeller axis and the propeller rotation speed on the scour mechanism were compared with the studies in the literature.

Project Number

Proje No: 2018/074, Proje No: 218M428

References

  • Blaauw, H. G., and van de Kaa, E. J. (1978). “Erosion of bottom and sloping banks caused by the screw race of manoeuvring ships.” Delft Hydraulics Laboratory, Delft, Netherlands, 1–12.
  • Cui, Y., Lam, W. H., Zhang, T., Sun, C., Robinson, D., & Hamill, G. (2019). Temporal model for ship twin-propeller jet induced sandbed scour. Journal of Marine Science and Engineering, 7(10), 339.
  • Cui, Y., Lam, W. H., Ong, Z. C., Ling, L., Siow, C. L., Robinson, D., & Hamill, G. (2020). Experimental Scours by Impinging Twin-Propeller Jets at Quay Wall. Journal of Marine Science and Engineering, 8(11), 872.
  • Fuehrer, M., Römisch, K., (1977). Propeller jet erosion and stability criteria for bottom protection of various constructions. In: Proceedings of P.I.A.N.C, Bulletin No.58.
  • Hamill, G. A. (1987). “Characteristics of the screw wash of a manoeuvring ship and the resulting bed scour,” Ph.D. thesis, Queen’s University of Belfast, 1987.
  • Hamill, G. A., Johnston, H. T. ve Stewart, D. P., (1999). “Propeller Wash Scour Near Quay Walls”, Journal of Waterway, Port, Coastal and Ocean Engineering, 125(4):15616, 1999.
  • Hong, J. H., Chiew, Y. M., & Cheng, N. S. (2013). Scour caused by a propeller jet. Journal of Hydraulic Engineering, 139(9), 1003-1012.
  • Llull, T., Mujal-Colilles, A., & Gironella, X. (2021). Twin propeller time-dependent scouring processes. Physical experiments. Ocean Engineering, 236, 109461.
  • P.I.A.N.C, (2015). The World Association for Waterborne Transport Infrastructure, “Guidelines for Protecting Berthing Structures from Scour Caused by Ships”. Report No.180, Belgium.
  • Römisch K., (1975). Der propellerstrahl als erodierendes element bei anund ablegenamovem von schiffen, Seewirtschaft Berlin, Vol.7, Part 7.
  • Sarker, A., Flow Measurement Around Scoured Bridge Piers Using Acoustic-Doppler Velocimeter (ADV), Flow Measurement and Instrumentation, 9, 217-227, 1998.
  • Tan, R. İ., & Yüksel, Y. (2018). Seabed scour induced by a propeller jet. Ocean Engineering, 160, 132-142.
  • Verhey, H. J. (1983). “The stability of bottom and banks subjected to the velocities in the propeller jet behind ships.” Delft Hydraulics Laboratory, Netherlands.
  • Wei, M., Chiew, Y. M., & Cheng, N. S. (2020). Recent advances in understanding propeller jet flow and its impact on scour. Physics of Fluids, 32(10), 101303.
  • Yuksel, Y., Tan, R. I., & Celikoglu, Y. (2019). Determining propeller scour near a quay wall. Ocean Engineering, 188, 106331.
There are 15 citations in total.

Details

Primary Language Turkish
Subjects Civil Engineering
Journal Section Articles
Authors

Ali Doğu 0000-0002-9267-0356

Kubilay Cihan 0000-0002-0177-4345

Ayse Yuksel Ozan 0000-0003-1931-3528

Osman Yıldız 0000-0002-5544-101X

Hayri Ateş 0000-0003-4530-8677

Project Number Proje No: 2018/074, Proje No: 218M428
Publication Date July 31, 2022
Submission Date March 22, 2022
Published in Issue Year 2022

Cite

APA Doğu, A., Cihan, K., Yuksel Ozan, A., Yıldız, O., et al. (2022). Düşey Yüzlü Duvar Önünde Pervane Jetinin Neden Olduğu Oyulma. International Journal of Engineering Research and Development, 14(2), 679-690. https://doi.org/10.29137/umagd.1090579

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