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Wybuchy gazociągu Nord Stream [MAPA + PODSUMOWANIE] [Nord Stream gas pipeline explosions [MAP + SUMMARY] - in Polish] Available online: https://biqdata.wyborcza.pl/biqdata/7,159116,28964060,wybuchy-gazociagu-nord-stream-mapa-podsumowanie.html (accessed on 2 November 2022).Search in Google Scholar
GEUS Has Recorded Shaking in the Baltic Sea Available online: https://eng.geus.dk/about/news/news-archive/2022/september/baltic (accessed on 2 November 2022).Search in Google Scholar
Komu zależało na uszkodzeniu gazociągu Nord Stream - WysokieNapiecie.pl Available online: https://wysokienapiecie.pl/76494-komu-zalezalona-uszkodzeniu-gazociagu-nord-stream/ (accessed on 20 December 2022).Search in Google Scholar
Vakulenko, S. Shock and Awe: Who Attacked the Nord Stream Pipelines? Available online: https://carnegieendowment.org/politika/88062 (accessed on 2 November 2022).Search in Google Scholar
CNN: W pobliżu wycieków z Nord Stream zaobserwowano rosyjskie okręty [CNN: Russian ships spotted near Nord Stream leaks - in Polish] Available online: https://gospodarka.dziennik.pl/news/artykuly/8558200,rosyjskie-okrety-wyciek-gazociagi-nord-stream.html (accessed on 2 November 2022).Search in Google Scholar
Pleasance, C. FOURTH Leak Is Uncovered in Nord Stream Pipes after “Russian Sabotage” Available online: https://www.dailymail.co.uk/news/article-11261669/FOURTH-leak-uncovered-Nord-Stream-pipes-Russian-sabotage.html (accessed on 2 November 2022).Search in Google Scholar
Olejnik, A. Trends in the Development of Unmanned Marine Technology. Polish Hyperbaric Research 2016, 55, 7–28, doi:10.1515/phr-2016-0008.Search in Google Scholar
Jurczyk, K.; Piskur, P.; Szymak, P. Parameters Identification of the Flexible Fin Kinematics Model Using Vision and Genetic Algorithms. Polish Maritime Research 2020.Search in Google Scholar
Cole, R.H. Underwater Explosions; Princeton University Press: New Jersey, 1948;Search in Google Scholar
Geers, T.L.; Hunter, K.S. An Integrated Wave-Effects Model for an Underwater Explosion Bubble; Boulder, 2002;Search in Google Scholar
Kiciński, R.; Szturomski, B. Pressure Wave Caused by Trinitrotoluene (TNT) Underwater Explosion—Short Review. Applied Sciences 2020, 10, 3433, doi:10.3390/app10103433.Search in Google Scholar
Reid, W.D. The Response of Surface Ships to Underwater Explosions; General document / DSTO; DSTO Aeronautical and Maritime Research Laboratory: Melbourne, Vic, 1996;Search in Google Scholar
Szturomski, B. Modelowanie Oddziaływania Wybuchu Podwodnego Na Kadłub Okrętu w Ujęciu Numerycznym [Modeling the Effect of the Underwater Explosion to Hull Board in a Numberic Concept - in Polish]; Akademia Marynarki Wojennej: Gdynia, 2016;Search in Google Scholar
Wang, Q.X.; Yeo, K.S.; Khoo, B.C.; Lam, K.Y. Nonlinear Interaction between Gas Bubble and Free Surface. Computers & Fluids 1996, 25, 607–628, doi:10.1016/0045-7930(96)00007-2.Search in Google Scholar
Stiepanow, W.C.; Sipilin, P.M.; Nawagin, J.S.; Pankratow, W.P. Tłoczenie Wybuchowe [Stamping with an Explosion - in Polish]; Wydawnictwa Naukowo - Techniczne, 1968;Search in Google Scholar
Vannucchi de Camargo, F. Survey on Experimental and Numerical Approaches to Model Underwater Explosions. Journal of Marine Science and Engineering 2019, 7, 15, doi:10.3390/jmse7010015.Search in Google Scholar
Nowak, P.R.; Gajewski, T.; Peksa, P.; Sielicki, P.W. Experimental Verification of Different Analytical Approaches for Estimating Underwater Explosives. International Journal of Protective Structures 2022, 20414196221120510, doi:10.1177/20414196221120511.Search in Google Scholar
Cudny, K.; Powierża, Z. Wybrane Zagadnienia Odporności Udarowej Okrętów [Selected Issues of Ship Impact Resistance - in Polish]; Gdynia, 1978;Search in Google Scholar
Price, R. S.; Zuke, W. G.; Infosino, C. A Study of Underwater Explosions in a High Gravity Tank.Search in Google Scholar
STANAG 4137 (CLASSIFIED) Standard Underwater Explosion Test for Operational Surface Ships and Crafts 1976.Search in Google Scholar
Inspektorat Uzbrojenia, [Armament Inspectorate] Metodyka Nr 12, Sprawdzenie Wymagań w Zakresie Odporności Na Narażenia Mechaniczne [Methodology No. 12, Checking the Requirements for Resistance to Mechanical Damage - in Polish] 2017.Search in Google Scholar
Counter Improvised Explosive Devices POST BLAST COLLECTION & ANALYSIS - NATO Training. Madryt, 2021.Search in Google Scholar
Baker, K.; Epperson, D.; Gitschlag, G.; Goldstein, H.; Lewandowski, J.; Skrupky, K.; Smith, B.; Turk, T. National Standards for a Protected Species Observer and Data Management Program: A Model Using Geological and Geophysical Surveys; 2013;Search in Google Scholar
Yelverton, J.; Richmond, D.; Hicks, W.; Saunders, K.; Fletcher, E. The Relationship between Fish Size and Their Response to Underwater Blast.Search in Google Scholar
Sanderson, H.; Czub, M.; Koschinski, S.; Tougaard, J.; Sveegaard, S.; Jakacki, J.; Fauser, P.; Frey, T.; Bełdowski, J.; Beck, A.; et al. Environmental Impact of Sabotage of the Nord Stream Pipelines; In Review, 2023;Search in Google Scholar
Cui, P.; Zhang, A.-M.; Wang, S. Small-Charge Underwater Explosion Bubble Experiments under Various Boundary Conditions. Physics of Fluids 2016, 28, 117103, doi:10.1063/1.4967700.Search in Google Scholar
