Concept of 22 MW multifunctional icebreaking ‒ supply vessels
Article Sidebar
Published:
Jan 19, 2020
Keywords:
Northern Sea Route, icebreaker, supply vessel, design, hull form, building, concept, trials, safety, innovation
Main Article Content
Abstract
Necessity of building of multifunctional icebreaking supply vessels for all-year work in Gulf of Ob area is shown. Main design and buil-ding stages of one of the most powerful 22 MW diesel-electric icebreakers of IBSV01 project put in operation with high arctic class Icebreaker 8 are grounded. The special attention is paid to hull form and propulsive complex. Trial results which fully meet Customer requirements both on running and functional qualities have shown high maneuverability and icebreaking capabi-lity.
Article Details
How to Cite
Yegorov, G., & Aututov, N. (2020). Concept of 22 MW multifunctional icebreaking ‒ supply vessels. Herald of the Odessa National Maritime University, (59(2), 11-40. https://doi.org/10.33082/2226-1915-2-2019-11-40
Section
Design of ships
References
1. Egorov G.V., Shtrambrandt V.I. (2012). Mnogofunktsionalnyie ledokoly i ledokoly-spasateli novogo pokoleniya [Multifunctional icebreakers and icebreakers-salvage vessels of new generation]. Visnuk ONMU (Reporter of Odessa National Maritime University), 1 (34), 130-150 [in Russian].
2. Dianskiy N.A., Fomin V.V., Gruzinov V.M., Kabatchenko I.M., Lit-vinenko G.I. (2015). Otsenka vliyaniya podhodnogo kanala k portu Sabetta na izmenenie gidrologicheskikh usloviy Obskoy guby s pomoschyu chislennogo modelirovaniya [Estimation of influence of the approach channel to the port of Sabetta on change of hydrological conditions of the Gulf of Ob using numerical modeling]. Arktika: ecologiya i economika (Arctic: ecology and economy), 3 (19), 18-29 [in Russian].
3. Sovcomflot (2019). Prakticheskie rekomendatsii kapitanov SKF po upravleniyu sudami v ledovykh usloviyakh [SCF masters practical recommendations of vessels handling in ice conditions]. Paulsen (Paulsen). Moscow, 296 pages [in Russian].
4. Spirin A.M., Chachin D.A., Smirnov A.A. (2015). Kruglogodich-naya navigatsiya na port Sabetta [Sabetta port all-year navigation]. Arktika: ecologiya i economika (Arctic: ecology and economy), 3 (19), 88-95 [in Russian].
5. Egorov G.V. (2016). Investigation of «line-up» of multipurpose salvage vessels for work in Russian adjacent seas // Proc. of Thirteenth Intern. Conf. on marine sciences and technologies (Black Sea' 2016). Varna (Bulgaria), 116-126.
6. Egorov G.V., Nilva A.E., Davydov I.F. (2010). Principles of Creation of New Generation of Russian Multipurpose Rescue Vessels for Ice Conditions // Proc. of the 11th International Symposium on Practical Design of Ships and Other Floating Structures (PRADS 2010).Rio de Janeiro (Brazil), Vol. 1, 569-578.
7. Aker Arctic (2015). Aker Arctic 27384-101-421 Rev A. Model test report – open water for icebreaking support vessel Aker ARC 130A, 245 p.
8. Aker Arctic (2015). Aker Arctic 27384-101-430 Rev A. Ice model tests of icebreaking support vessel Aker ARC 130A (with Appendixes), 45 p.
9. Marine Engineering Bureau (2018). IBSV01-109-016. Zhurnal manevrennykh elementov (Maneuvering data log book). St. Petersburg, 52 p.
10. «Gazprom-neft» company website. URL: https://marinebunker. gazprom-neft.ru (access date 18.10.2019).
11. «Vyborg shipbuilding yard» company website. URL: http://vyborgshipyard.ru/ru (access date 18.10.2019).
2. Dianskiy N.A., Fomin V.V., Gruzinov V.M., Kabatchenko I.M., Lit-vinenko G.I. (2015). Otsenka vliyaniya podhodnogo kanala k portu Sabetta na izmenenie gidrologicheskikh usloviy Obskoy guby s pomoschyu chislennogo modelirovaniya [Estimation of influence of the approach channel to the port of Sabetta on change of hydrological conditions of the Gulf of Ob using numerical modeling]. Arktika: ecologiya i economika (Arctic: ecology and economy), 3 (19), 18-29 [in Russian].
3. Sovcomflot (2019). Prakticheskie rekomendatsii kapitanov SKF po upravleniyu sudami v ledovykh usloviyakh [SCF masters practical recommendations of vessels handling in ice conditions]. Paulsen (Paulsen). Moscow, 296 pages [in Russian].
4. Spirin A.M., Chachin D.A., Smirnov A.A. (2015). Kruglogodich-naya navigatsiya na port Sabetta [Sabetta port all-year navigation]. Arktika: ecologiya i economika (Arctic: ecology and economy), 3 (19), 88-95 [in Russian].
5. Egorov G.V. (2016). Investigation of «line-up» of multipurpose salvage vessels for work in Russian adjacent seas // Proc. of Thirteenth Intern. Conf. on marine sciences and technologies (Black Sea' 2016). Varna (Bulgaria), 116-126.
6. Egorov G.V., Nilva A.E., Davydov I.F. (2010). Principles of Creation of New Generation of Russian Multipurpose Rescue Vessels for Ice Conditions // Proc. of the 11th International Symposium on Practical Design of Ships and Other Floating Structures (PRADS 2010).Rio de Janeiro (Brazil), Vol. 1, 569-578.
7. Aker Arctic (2015). Aker Arctic 27384-101-421 Rev A. Model test report – open water for icebreaking support vessel Aker ARC 130A, 245 p.
8. Aker Arctic (2015). Aker Arctic 27384-101-430 Rev A. Ice model tests of icebreaking support vessel Aker ARC 130A (with Appendixes), 45 p.
9. Marine Engineering Bureau (2018). IBSV01-109-016. Zhurnal manevrennykh elementov (Maneuvering data log book). St. Petersburg, 52 p.
10. «Gazprom-neft» company website. URL: https://marinebunker. gazprom-neft.ru (access date 18.10.2019).
11. «Vyborg shipbuilding yard» company website. URL: http://vyborgshipyard.ru/ru (access date 18.10.2019).