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IJSTR >> Volume 9 - Issue 12, December 2020 Edition

International Journal of Scientific & Technology Research  
International Journal of Scientific & Technology Research

Website: http://www.ijstr.org

ISSN 2277-8616

Stability Of Redesigned Hull Line Of Manado Prototype Purse Seine Vessel

[Full Text]



Revols D.Ch. Pamikiran, Kawilarang W.A. Masengi, Frangky E. Kaparang, Heffry V. Dien, Silvester B. Pratasik



static stability, dynamic stability, vessel, purse seine.



This study was aimed at knowing the effect of redesigned hull line of small purse-seiner on the vessel stability. Data inputs and simulation employed Maxsurf modeller Advanced and Maxsurf Stability Enterprice applications. Results showed different stability value of the vessel with new hull line from the prototype one that also met the standard stability of International Maritime Organization (IMO). Moreover, increase in vessel stability value occurred in the redesigned hull line of PKU-4 compared with that of the prototype vessel, PKU-1, and the redesigned vessel hull line of PKU-2 and PKU-3. This finding confirms that the hull line of Manado prototype purse seiner could be improved in order to have better stability.



[1] J. Fyson, “Design of Small fishing vessel”. Fishing News Books Ltd. England. 320 p., 1985.
[2] J.A. Hind, “Stability and Trim of Fishing Vessel”. Fishing News (Ltd. London. 120p., 1982.
[3] J. Alvite-Castro, A.J. Orosa, D. Vergara, and M.A. Costa, “A New Design Criterion to Improve the Intact Stability of Galician Small Fishing Vessels”. Jurnal of Marine Science and Engineering. Department of Energy and Marine Propulsion, University of A Coruña. 1-17 p., 2020.
[4] A.U. Ayodhyoa, “Fishing Boat. Fakultas Perikanan”. Institut Pertanian Bogor. 66 p., 1972
[5] S. Hardjono, “Identification of FRP-Materialized Catamaran Vessel Parameter Ratio”. Jurnal Sains dan Teknologi Indonesia Vol. 12 (3), pp. 159- 65, 2010. [in Indonesian]
[6] P.L. Mulyatno, Kiryanto, and D. Chrismianto, “Investigation of Stability Criteria of Batang Type Traditional Fishing Boat under 25 M for Safety at Sea”. International Journal of Mechanical Engineering and Technology (IJMET) Vol. 10 (02), pp. 1031–1035, 2019. ISSN Online: 0976-6359.
[7] W. Liu, K. Demirel, B.E. Djatmiko, S. Nugroho, T. Tezdogan, E.R. Kurt, H. Supomo, I. Baihaqi, and Z. Yuan, “Bilge Keel Design for the Traditional Fishing Boats of Indonesia's East Java”. International Journal of Naval Architecture and Ocean Engineering 11, pp. 380-395, 2019.
[8] D. Chrismianto, H. Yudo, Kiryanto, R.N. Dewa, “Modification of 30 Gt Fishing Vessels Using Hull Vane Naca 2408 Type for Reducing Ship Resistance”. International Journal of Advanced Research in Engineering and Technology. (IJARET) Vol. 11 (4), pp. 57-62, 2020.
[9] R.D.Ch. Pamikiran, F.E. Kaparang, and H.V. Dien, “Study on Speed and Stability of Several Purse Seine Vessel Shapes in North Sulawesi Province”. Jurnal Ilmu dan Teknologi Perikanan Tangkap vol. 2(5), pp. 165-170, 2017. [ in Indonesian]
[10] A. Susanto, H.B. Iskandar, and M. Imron, “Evaluation of Fishing Vessel Design and Stability in Palabuhanratu (Case Study of PSP Vessel 01)”. Marine Fisheries Vol. 2 (2), pp. 213-221, 2011. e-ISSN 2541-1659. [in Indonesian]
[11] T. Putranto, K. Suastika, and J. Gunanta, “Intact Stability Analysis of Crew Boat with Variation of Deadrise Angle”. The 2nd International Seminar on Science and Technology August 2nd 2016. Iptek Jounal of Proceedings Series, pp.124-127, 2017.
[12] R.M. Smith, “Elements of Ship Design”. London: Marine Management (Holding) Ltd. 76 Marj Lane. 145 p., 1975.
[13] Australian Maritime Safety Authority, “A Guide to Fishing Vessel Stability”. Australian Government 26 p., 2017.
[14] B.D. Purwanto, A. Sulisetyono, and T. Putranto, “Stability Analysis of Catamaran Passenger Vessel with Solar Cell Energy in Calm Water”. The Journal for Technology and Science, Vol. 28 (3), pp. 79-82, 2017.
[15] M. Nomura and T. Yamazaki, “Fishing Techniques (I)”. SEAFDEC. Japan International Agency. Tokyo. 206 p., 1977
[16] K.J. Rawson and E.C. Tupper, “Basic Ship Theory”. Fifth Edition. London. Longman. 731 p., 1983.
[17] W. Muckle, “Naval Architecture for Marine Engineers”, Revised by Taylor, D. A. Second Edition. UK; Newnes – Butteerworths. London, Boston. 407 p., 1975.
[18] Y. Praharsi, A.M. Jami’in, and Suhardjito, “The Stability Test of Traditional Fishing Boats in East Java, Indonesia Based on the International Maritime Organization Standard”. Proceedings of the International Conference on Industrial Engineering and Operations Management, Pilsen, Czech Republic. p. 2282-2292, 2019.
[19] E.L.O.B.E. Atwood, H.S.C.B. Pengelly, “Theoretical Naval Architecture”. Longmans. Great Britain. 418 p, 1967.
[20] International Maritime Organization (IMO), “Code of Intact Stability for All Types of Ships Covered by IMO Instrument”. IMO, London. 109p, 1995.
[21] Kiryanto, M. Ridwan, A.B. Adietya, D. Chrismianti, and A.H. Sasongko, “Stability and Total Resistance Analysis of Catamaran Fishing Boat for Java North Sea Area with Hullform Model and Fishing Gear Variation”. International Journal of Mechanical Engineering and Technology (IJMET) Vol. 10 (01), pp. 1291-1302, 2019.
[22] M.I. Apriliani, P.L. Dewanti, A.M.A. Khan, H. Herawati, A. Rizal, and M.N. Kusnadi, “Fishing Vessel Characteristics with Multi-Purpose Gear to Support Fishing Operations in the Northern Sea of Java, Indonesia (Case Study in Indramayu)”. Asian Journal of Fisheries and Aquatic Research. 6(1): 1-8, 2020; Article no. AJFAR.54520 ISSN:2582-3760.
[23] F.A. Zakki, A. Windyandari, D. Chrismianto, and I. Habib, “Development of Monohull Fish Processing Vessel Hullform to Support Domestic Fishing Activities in Indonesia”. International Journal of Innovative Technology and Exploring Engineering (IJITEE), Vol. 9 (1), pp. 441-447, 2019. ISSN: 2278-3075