ASSESSMENT OF STRENGTH CHARACTERISTICS OF LNG TANKS ON THE VESSELS

Authors

  • Martin Jurkovič
  • Tomáš Kalina

Keywords:

LNG, strenght characteristics, LNG tanks, storage

Abstract

Inland water transport has clearly bent on the use of dual-fuel systems diesel - LNG. The wider use of this fuel in transport is preceded by the need to create a functioning market with the closest connection to solving many logistical problems not only within the region but also in terms of production regions as well as the physical properties of LNG related to its long-range transport. The current legislation on the transport of dangerous goods (ADN) allows the use of LNG tankers equipped with special containers - cryogenic storage tanks for the transport of LNG by inland waterways. Similar tanks can also be used for long-term storage at central terminals. Although this technology is not new, its application to inland vessels is on very low level. When constructing and placing tanks on existing vessels, it is necessary to seek compromises taking into account both the shape of the tank and the amount of stored gas, as well as the insulation and strength characteristics.

Downloads

Download data is not yet available.

References

(1) BARTA, D., MRUZEK, M., KENDRA, M., KORDOS, P., KRZYWONOS, L.: Using of non-conventional fuels in hybrid vehicle drives. In: Advances in Science and Technology Research Journal, Lublin University of Technology, Volume 10, Issue 32, 2016. pp. 240 –247. ISSN 2299-8624.
(2) BUIL, R.M., HERNANDO D.V. Comparison of Heat Insulations for Cryogenic Tankers Using Analytical and Numerical Analysis. Hindawi Publishing Corporation Advances in Mechanical Engineering, 2013. 17 p.
(3) European Commission – SEVESO III. Available on: http://ec.europa.eu/environment
(4) European Committee for Standardization (CEN). Available on: http://www.cen.eu/Pages/default.aspx
(5) GIIGNL. Basic Properties of LNG. [online]. France. 9 p. Available on: http://www.giignl.org.
(6) GIIGNL. Managing LNG Risks. [online]. France. 8 p. Available on: http://www.giignl.org.
(7) HOFFMAN, A.: The Thermal Conductivity of Cryogenic Insulation Materials and Its Temperature Dependence. Cryogenics. 46, 2006. 815-824.
(8) IMO Guidance on the continued use of existing IMO type portable tanks and road tank vehicles for the transport of dangerous goods. Ref.: T3/1.01 DSC/Circ.12 11 November 2003.
(9) SKRUCANY, T., KENDRA, M., SARKAN, B., GNAP, J.: Software simulation of an energy consumption and GHG production in transport. In: Tools of transport telematics: 15th international conference on Transport systems telematics, TST 2015: revised selected papers: Wrocław, Poland, April 15-17, 2015. - Cham: Springer, 2015. pp. 151-160. ISBN 978-3-319-24576-8.
(10) STOPKA, O., KAMPF, R.: Determining the most suitable layout of space for the loading units’ handling in the maritime port. Transport, 12 April 2016. pp. 1-11. ISSN 1648-4142. DOI: 10.3846/16484142.2016.1174882.
(11) GALIERIKOVA, A., SOSEDOVA, J. Environmental aspects of transport in the context of development of inland navigation. In: Ekológia (Bratislava). - ISSN 1335-342X. - Vol. 35, iss. 3 (2016), pp. 279-288.

Downloads

Published

2019-04-26

How to Cite

Jurkovič, M., & Kalina, T. . (2019). ASSESSMENT OF STRENGTH CHARACTERISTICS OF LNG TANKS ON THE VESSELS. Perner’s Contacts, 14(1), 74–80. Retrieved from https://pernerscontacts.upce.cz/index.php/perner/article/view/402

Issue

Vol. 14 No. 1 (2019)

Section

Articles

License

Copyright (c) 2020 Martin Jurkovič##common.commaListSeparator##Tomáš Kalina

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.