SHIPBUILDING FOR THE ARCTIC
| Title |
Authors |
Affiliation of the authors |
Issue |
Pages |
PDF |
| What should be the power capacity of a supership to operate in the Eastern part of the Arctic? | Dobrodeev, A.A., Sazonov, K.E. | Krylov SRC | v14, 3 2024 | 427-436 | | | Macroscale experimental studies of ice compression in the Arctic Ocean during the first drift of the ice-resistant self-propelled platform “North Pole” as part of the polar drifting station “North Pole-41” in 2022—2023 | Svistunov, I.A., Filchuk, K.V., Baklanov, A.V., Raev, D.L., Stribny, O.Y., Gavrilov, Y.G. | AARI | v14, 2 2024 | 274-285 | | | Radiation situation around the floating nuclear thermal power plant “Akademik Lomonosov” in the initial period of operation | Ekidin, A.A., Nazarov, E.I., Antonov, K.L. | Institute of Industrial Ecology | v13, 4 2023 | 559-569 | | | Safety analysis of the floating power unit under collision | Korshunov, V.A., Kudinovich, I.V., Rodionov, A.A., Suteeva, A.Z., Shuvalov, G.M. | Krylov SRC, St. Petersburg SMTU | v13, 2 2023 | 211-222 | | | Experimental-analytical method for determining the global ice load from ice compression on ships and floating platforms used as polar drifting observatories | Svistunov, I.A. | AARI | v13, 1 2023 | 85-96 | | | Ice impact on the rockfill of port facilities | Dobrodeev, A.A., Sazonov, K.E. | Krylov SRC | v13, 1 2023 | 97-105 | | | Selection of the priority option for a floating power unit based on the analysis of technical and economic indicators | Brykalov, S.M., Balyberdin, A.S., Nyrkov, D.A., Sheshina, N.V., Gushchina, E.A. | «Afrikantov OKBM» | v12, 4 2022 | 551-558 | | | Draft Standard to measure, control and regulate the parameters of technogenic underwater noise of civil marine equipment | Tarovik, V.I., Kalyu, V.A. | Krylov SRC | v12, 3 2022 | 359-366 | | | Technogenic underwater noise as a factor in the environmental safety of maritime transport and industrial activities in the Arctic | Tarovik, V.I., Savchenko, O.V., Kutaeva, N.G. | Krylov SRC, Marine Rescue Service | v12, 1 2022 | 99-110 | | | Modeling in marine ice engineering | Dobrodeev, A.A., Sazonov, K.E. | Krylov SRC | v11, 4 2021 | 557-567 | | | Models to predict the parameters of ship voyages in the Arctic: existing approaches and possible ways of development | Tarovik, O.V. | Krylov SRC | v11, 3 2021 | 422-435 | | | Improving the economic performance of nuclear icebreakers when navigating ships in the Arctic | Korolev, V.I. | Admiral Makarov State University | v11, 2 2021 | 244-253 | | | Physical modeling of ice load on extended hydraulic constructions. Sloping constructions with an inclined edge | Dobrodeev, A.A., Sazonov, K.E. | Krylov SRC | v11, 1 2021 | 90-100 | | | Physical modeling of ice load on extended hydraulic constructions. The vertical wall constructions | Dobrodeev, A.A., Sazonov, K.E. | Krylov SRC | 4 (40) 2020 | 77-89 | | | Motion of heavy-tonnage vessels in the ice drift conditions | Dobrodeev, A.A., Sazonov, K.E. | Krylov SRC | 2 (38) 2020 | 68-76 | | | Development of methods for determining ice loads and requirements for ice reinforcement structures | Appolonov, E.M., Platonov, V.V., Tryaskin, V.N. | Krylov SRC, St. Petersburg SMTU, Lazurit CDB | 1 (37) 2020 | 65-81 | | | Methodological basis for determining the design ice loads on the hull of modern ice vessels in the bow and stern areas | Platonov, V.V., Tryaskin, V.N. | Krylov SRC, St. Petersburg SMTU | 4 (36) 2019 | 83-98 | | | Reverse motion of ships in ice: some research results | Dobrodeev, A.A., Sazonov, K.E., Sapershteyn, I.A. | Krylov SRC | 4 (36) 2019 | 99-106 | | | Architectural and structural features of Arctic double-acting vessels | Platonov, V.V., Tryaskin, V.N. | Krylov SRC, St. Petersburg SMTU | 3 (35) 2019 | 84-96 | | | Determination of the heeling moment acting in ice compression on the ice-resistant self-propelled platform “North Pole” by the model testing method | Svistunov, I.A. | AARI | 3 (35) 2019 | 97-106 | | | Arctic Supply Vessel Design taking into account the Cargo Flow Structure of the Transport System | Kondratenko, A.A., Tarovik, O.V. | Krylov SRC | 2 (34) 2019 | 80-96 | | | Current view on the development of emergency rescue fleet vessels in the Arctic | Ilyukhin, V.N. | Association for search and rescue technology development | 2 (34) 2019 | 97-108 | | | Maritime activities and the issues of life rescue in the Russian Arctic | Nikitin, V.S., Polovinkin, V.N., Simonov, Y.A., Valdman, N.A. | Krylov SRC | 1 (33) 2019 | 118-128 | | | Conceptual principles for creating a polar drifting research platform | Makarov, A.S., Likhomanov, V.A., Sokolov, V.T., Chernov, A.V., Polovinkin, V.N., Timofeyev, O.Y., Mogutin, Y.B., Simonov, Y.A. | Krylov SRC, AARI | 3 (31) 2018 | 65-75 | | | Fast-speed escorting of heavy tonnage vessels by icebreakers: researching in ice model tank | Dobrodeev, A.A., Sazonov, K.E. | Krylov SRC | 3 (31) 2018 | 76-83 | | | Prospects of the development of domestic arctic marine technologies related to liquefied natural gas | Nikitin, V.S., Simonov, Y.A., Polovinkin, V.N. | Krylov SRC | 2 (30) 2018 | 68-82 | | | Prospective technical means of personnel evacuation from emergency offshore oil and gas platforms in arctic conditions | Tarovik, V.I. | Krylov SRC | 1 (29) 2018 | 84-91 | | | Innovative developments of Krylov State Research Centre to improve the safety and reliability of vessels with podded trust units in extreme ice conditions | Belyashov, V.A., Vasilev, N.V., Makarov, V.V., Pautov, L.G. | Krylov SRC | 1 (29) 2018 | 92-103 | | | Design Problems and development prospects for ice-resistant semisubmersible floating drilling units | Kryzhevich, G.B. | Krylov SRC | 4 (28) 2017 | 108-117 | | | Technology of diagnostic assurance of the floating thermal nuclear power plant | Myasnikov, Y.N., Horoshev, V.G. | Krylov SRC | 3 (27) 2017 | 69-85 | | | Comprehensive Simulation Model of Marine Transport and Support System for “Prirazlomnaya” Platform | Tarovik, O.V., Topaj, A.G., Krestyantsev, A.B., Kondratenko, A.A., Zaykin, D.A. | Krylov SRC, Gazprom Neft Shelf | 3 (27) 2017 | 86-102 | | | Issues related to raising the speeds of heavy-tonnage cargo vessels during year-round arctic operations | Pustoshny, A.V., Sazonov, K.E. | Krylov SRC | 3 (27) 2017 | 103-110 | | | Iceberg risk analysis for the Northern sea route: LNG carrier study case | Shaposhnikov, V.M., Aleksandrov, A.V., Matantsev, R.A., Ivanovskaya, O.D. | Krylov SRC | 2 (26) 2017 | 76-81 | | | Arctic Marine Transport System Simulation: Multidisciplinary Approach Fundamentals and Practical Experience | Tarovik, O.V., Topaj, A.G., Krestyantsev, A.B., Kondratenko, A.A. | Krylov SRC | 1 (25) 2017 | 86-101 | | | Shipbuilding capabilities for creating the infrastructure in the Arctic region | Nikitin, V.S., Simonov, Y.A., Polovinkin, V.N., Volkov, V.A., Iljushkin, A.P., Ryzhkov, V.V. | Krylov SRC, CDB “Monolith”, Atomenergo | 1 (25) 2017 | 102-119 | | | Development of advanced patterns of cryogenic steels for gas vessels and stationary storage tanks of liquefied natural gas designed for Arctic conditions | Matrosov, M.Y., Zikeev, V.N., Martynov, P.G., Shulga, E.V., Nikitin, V.S., Polovinkin, V.N., Simonov, Y.A., Semin, A.A. | Krylov SRC, Bardin CRIFM, JSC “Giredmet” SRC RF | 4 (24) 2016 | 80-89 | | | Study of world experience of ice conditions control. | Kostylev, A.I., Sazonov, K.E. | Krylov SRC | 3 (23) 2016 | 86-97 | | | The prospects for development of nuclearpowered icebreaker fleet | Kashka, M.M., Smirnov, A.A., Golovinsky, S.A., Vorobyev, V.M., Ryzhkov, A.V., Babich, E.M. | Atomflot, Aysberg | 3 (23) 2016 | 98-107 | | | Experimental methods for determination of total ice loads on marine engineering structures | Sazonov, K.E., Chernov, A.V. | Krylov SRC, AARI | 2 (22) 2016 | 90-97 | | | Nuclear icebreakers and development of the Arctic shelf | Nikitin, V.S., Simonov, Y.A., Polovinkin, V.N., Shlyachkov, V.I. | Krylov SRC | 1 (21) 2016 | 76-81 | | | The possibility to use the air-bearing vehicles under the conditions of the Arctic and the Far North | Sergeev, V.G., Varakosov, Y.G., Makienko, A.M., Merzlikin, Y.Y. | «Orion» Association, TsAGI | 1 (21) 2016 | 82-93 | | | Nuclear Energy in the Arctic Region | Nikitin, V.S., Polovinkin, V.N., Simonov, Y.A., Ustinov, V.S., Kuznetsov, V.P., Makarov, V.I. | Krylov SRC, NRC «Kurchatov Institute» | 4 (20) 2015 | 86-95 | | | New experimental capabilities of the Krylov State Research Center for study of ice impact on marine equipment | Denisov, V.V., Sazonov, K.E., Timofeyev, O.Y. | Krylov SRC | 3 (19) 2015 | 76-81 | | | Development of maritime activities in the Russian Arctic | Nikitin, V.S., Polovinkin, V.N., Simonov, Y.A., Ivanov, Y.Y. | Krylov SRC, CMRDI | 2 (18) 2015 | 78-87 | | | Current State and Prospects of Arctic Shipbuilding and Navigation | Alecsashin, A.A., Polovinkin, V.N. | Krylov SRC | 1 (17) 2015 | 18-30 | | | Mobile Marine Drilling Rig in Arctic Version (choice of a concept) | Sochneva, I.O., Sochnev, O.Y. | MIEP, Rosneft | 1 (17) 2015 | 31-37 | |
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