Hidrodinamik Sürtünme Direncinin Araştırılmasında Kullanılacak Deneysel Bir Yöntemin Geliştirilmesi

Serkan Türkmen; Mehmet Atlar; İrma Yegınbayeva; Simon Benson

Research Article

Hidrodinamik Sürtünme Direncinin Araştırılmasında Kullanılacak Deneysel Bir Yöntemin Geliştirilmesi

Year 2018, Issue: 213, 54 - 65, 31.10.2018

Serkan Türkmen Mehmet Atlar İrma Yegınbayeva Simon Benson

Abstract

Newcastle Üniversitesi (UNEW) hali hazırda çalışan kapalı çevrim su kanalını geliştirdi. Yeni ölçüm bölümü kaplanmış standart bir test panel yüzeyi (boy x en x kalınlık ölçüler 0.6m x 0.22m x 0.015m) boyunca basınç azalışını (dolayısıyla sürtünme direncini) ölçmeye yarar. Panel hem temiz hem de hafif yosunlanmış olarak test edilebilir. Basınç değişimine bağlı olarak, test edilen yüzeyin sürtünme direnç katsayıları hesaplandı ve sonuçlar kabul edilmiş yöntemlerle karşılaştırılarak basınç azalım yöntemi değerlendirilmiştir.

Bu çalışmada, su kanalının tasarımı ve kalibrasyonu sunulmuş ve kaplamış üç farklı yüzeyin sürtünme dirençleri tam gelişmiş türbülanslı akımda incelenmiştir.

Keywords

Sürtünme direnci, su kanalı, biyolojik kirlilik pürüzlülüğü

References

Banerjee, I., Pangule, R., C. and Kane, R., S. (2011). Antifouling Coatings: Recent Developments in the Design of Surfaces That Prevent Fouling by Proteins, Bacteria, and Marine Organisms, Advanced Materials, Vol. 23, no. 6, pp 690-718. Candries, M. (2001). Drag, boundary layer and roughness characteristics of marine surfaces coated with antifoulings, . Ph.D., Newcastle University. Dean, R. B. (1978). Reynolds Number Dependence of Skin Friction and Other Bulk Flow Variables in Two- Dimensional Rectangular Duct Flow, Journal of Fluids Engineering, Vol. 100, no. 2, pp. 215-223. Harvald Sv, A. (1983). Resistance and Propulsion of Ships, John Wiley & Sons, New York. Monty, J., P. (2005). Developments in smooth wall turbulent duct flows, University of Melbourne, Ph.D., Department of Mechanical and Manufacturing Engineering. Nikuradse, J. (1933). Laws of flow in rough pipes, VDI Forschungsheft, Citeseer. Politis, G., Atlar, M., Kidd, B. and Stenson, P. (2013). A Multipurpose Flume for The Evaluation of Hull Coatings, 3rd International Conference on Advanced Model Measurement Technology for the Maritime Industry (AMT’13), Gdansk, Poland Schultz, M., P., Bendick, J., A., Holm, E., R. and Hertel, W., M. (2011). Economic impact of biofouling on a naval surface ship, Biofouling, Vol. 27, no. 1, pp. 87-98. Townsin, R. L. (2003). The Ship Hull Fouling Penalty, Biofouling, Vol. 19, no.1, pp. 9-15. Woods Hole Oceanographic Institution (WHOI). (1952). Marine fouling and its prevention; prepared for Bureau of Ships, George Banta Publishing Company, Annapolis, Maryland. Zanoun, E., Nagib, S., H. and Durst, F. (2009). "Refined cf relation for turbulent channels and consequences for high-Re experiments." Fluid dynamics research 41(2): 021405.

Year 2018, Issue: 213, 54 - 65, 31.10.2018

Serkan Türkmen Mehmet Atlar İrma Yegınbayeva Simon Benson

Abstract

References

Banerjee, I., Pangule, R., C. and Kane, R., S. (2011). Antifouling Coatings: Recent Developments in the Design of Surfaces That Prevent Fouling by Proteins, Bacteria, and Marine Organisms, Advanced Materials, Vol. 23, no. 6, pp 690-718. Candries, M. (2001). Drag, boundary layer and roughness characteristics of marine surfaces coated with antifoulings, . Ph.D., Newcastle University. Dean, R. B. (1978). Reynolds Number Dependence of Skin Friction and Other Bulk Flow Variables in Two- Dimensional Rectangular Duct Flow, Journal of Fluids Engineering, Vol. 100, no. 2, pp. 215-223. Harvald Sv, A. (1983). Resistance and Propulsion of Ships, John Wiley & Sons, New York. Monty, J., P. (2005). Developments in smooth wall turbulent duct flows, University of Melbourne, Ph.D., Department of Mechanical and Manufacturing Engineering. Nikuradse, J. (1933). Laws of flow in rough pipes, VDI Forschungsheft, Citeseer. Politis, G., Atlar, M., Kidd, B. and Stenson, P. (2013). A Multipurpose Flume for The Evaluation of Hull Coatings, 3rd International Conference on Advanced Model Measurement Technology for the Maritime Industry (AMT’13), Gdansk, Poland Schultz, M., P., Bendick, J., A., Holm, E., R. and Hertel, W., M. (2011). Economic impact of biofouling on a naval surface ship, Biofouling, Vol. 27, no. 1, pp. 87-98. Townsin, R. L. (2003). The Ship Hull Fouling Penalty, Biofouling, Vol. 19, no.1, pp. 9-15. Woods Hole Oceanographic Institution (WHOI). (1952). Marine fouling and its prevention; prepared for Bureau of Ships, George Banta Publishing Company, Annapolis, Maryland. Zanoun, E., Nagib, S., H. and Durst, F. (2009). "Refined cf relation for turbulent channels and consequences for high-Re experiments." Fluid dynamics research 41(2): 021405.

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Details

Primary Language	Turkish
Subjects	Engineering
Journal Section	Articles
Authors	Serkan Türkmen This is me Mehmet Atlar This is me İrma Yegınbayeva This is me Simon Benson This is me
Publication Date	October 31, 2018
Published in Issue	Year 2018 Issue: 213

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APA	Türkmen, S., Atlar, M., Yegınbayeva, İ., Benson, S. (2018). Hidrodinamik Sürtünme Direncinin Araştırılmasında Kullanılacak Deneysel Bir Yöntemin Geliştirilmesi. Gemi Ve Deniz Teknolojisi(213), 54-65.

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