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Abstrakty
In recent years, we have observed a great interest in the exploitation of marine deposits by various methods of mining and transport to the surface. However, obtaining natural resources deposited at greater depths such as polymetallic nodules and seafloor massive sulphides - SMS creates a lot of challenges for both scientists and engineers. The solutions developed so far, unfortunately, have so far been characterized by high energy consumption. For several years the authors have been conducting theoretical and experimental research on new concepts of seabed to surface transport. The results of them have been presented in previous publications. This publication presents the results of the continuation of research on the concept of construction and operation of an autonomous transport module (submitted for printing). It focuses on a theoretical analysis of the change in gas phase density in the processes occurring during operation of the transport module intended for transport from the seabed. For this purpose, a reduced form of the van der Waals equation was used in the form of a third-degree equation for parameters interested from the point of view of the transport module.
Wydawca
Czasopismo
Rocznik
Tom
Strony
597--604
Opis fizyczny
Bibliogr. 16 poz., rys.
Twórcy
autor
- AGH University of Science and Technology, Poland
autor
- AGH University of Science and Technology, Poland
Bibliografia
- 1. Berry R.S., Rice S.A., Ross J. (2000), Physical chemistry, Oxford University Press, pp 298-306
- 2. Bronsztejn I.N., Siemiendiajew K.A. (2000), Matematyka. Poradnik encyklopedyczny, Wydawnictwo Naukowe PWN, Warszawa
- 3. Depowski, S., Kotliński R., Rühle E., Szamałek K. (1998), Surowce mineralne mórz i oceanów, Wydawnictwo Naukowe Scholar, Warszawa.
- 4. Filipek W., Broda K. (2016), Theoretical foundation of the implementation of controlled pyrotechnical reactions as an energy source for transportation from the sea bed, Scientific Journals of the Maritime University of Szczecin, 48 (120), 117-124.
- 5. Filipek W., Broda K. (2017), The Theoretical Basis of the Concept of Using the Controlled Pyrotechnical Reaction Method as an Energy Source in Transportation from the Sea Bed,TransNav the International Journal on Marine Navigation and Safety of Sea Transportation, Vol.11, No. 4, 653-659.
- 6. http://petrowiki.org/images/7/76/Vol1_Page_225_Image_0001.png [Accesed 8 Feb. 2018]
- 7. Karlic S. (1984), Zarys górnictwa morskiego, Wydawnictwo „Śląsk”, Katowice
- 8. Mizerski W. (2013), Tablice chemiczne, Grupa Wydawnicza Adamantan s.c., Warszawa
- 9. Nickalls RWD. (1993), A new approach to solving the cubic: Cardan’s solution revealed, The Mathematical Gazette (1993); 77 (November), 354–359 (jstor) www.nickalls.org/dick/papers/maths/cubic1993.pdf
- 10. www.nickalls.org/dick/papers/maths/cubic1993.pdf
- 11. Sharma, R. (2017), Deep-Sea Mining: Resource Potential, Technical and Environmental Considerations, Springer International Publishing AG, Cham
- 12. Sobota J. et. al. (2005), Systemy i technologie wydobycia konkrecji z dna oceanów. Zeszyty Naukowe Akademii Rolniczej we Wrocławiu nr 521, Monografie XLIII, Seria: Współczesne problemy inżynierii środowiska. Wrocław
- 13. Smith E.B. (1990), Podstawy termodynamiki chemicznej, Państwowe Wydawnictwo Naukowe, Warszawa
- 14. Smith J.M. et al. (2005), Introduction to Chemical Engineering Thermodynamics, Seventh Edition. McGraw Hill. ISBN 0-07-310445-0
- 15. Xiang H.W. (2005). The Corresponding States Principle and Its Practice: Thermodynamic, Transport and Surface Properties of Fluids. Elsevier. ISBN 0-444-52062-7.
- 16. SPC (2013), Deep Sea Minerals: Sea-Floor Massive Sulphides, a physical, biological, environmental, and technical review. Baker, E., and Beaudoin, Y. (Eds.) Vol. 1A, Secretariat of the Pacific Community, ISBN 978-82-7701-119-6, Available from: http://gsd.spc.int/dsm/public/files/meetings/ TrainingWorkshop4/UNEP_vol1A.pdf [Accesed 12 July 2015]
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-73493026-dfc9-4ab5-9de6-f2c636bc1dd5