Stan rozpoznania i możliwości pozyskiwania metali strategicznych z polimetalicznych kopalin oceanicznych

Zawadzki, D.

Artykuł - szczegóły

Tytuł artykułu

Stan rozpoznania i możliwości pozyskiwania metali strategicznych z polimetalicznych kopalin oceanicznych

Autorzy

Zawadzki D.

Treść / Zawartość

Pełne teksty:

Pobierz

Identyfikatory

Warianty tytułu

The state of knowledge and possibilities to extract strategic raw materials from the ocean polymetallic deposits

Języki publikacji

Abstrakty

The paper presents the characteristics of types, occurrence and distribution of the ocean polymetallic deposits: polymetallic nodules, cobalt-rich ferromanganese crusts, seafloor massive sulphides and metalliferous clays. Possibility of extraction of critical raw materials (for the EU) and strategic raw materials (according the OECD report) from the ocean polymetallic deposits is indicated. Polymetallic nodules are the most recognized type of ocean polymetallic deposits, abundant mostly in abyssal basins at the depths of3500-6000 m b.s.l. The most important practical metals from the polymetallic nodules are: Fe, Mn (280 000-320 000 ppm), Ni (11 000-14 000 ppm), Co (2100 ppm), Cu (9500-13 000 ppm), Mo and rare earth elements (REE). Cobalt-rich ferromanganese crusts, which are laminatedferromanganese clusters occurring at a depth interval between 400-4000 m b.s.l., can have a prospective significance for the extraction of critical raw materials. They are found on the seamounts where seafloor currents have swept the rocky bottom clear of sediment. They contain large amounts of metals: Mn, Co, Ti, Pt, Te, Mo and Zr. The key factor determining the profitability of the crust mining will be cobalt extraction. However, profitability may increase if nickel, tellurium or REE would be recovered at the same time. The analyses show that the seafloor massive sulphides would be of great importance, as they are the potential source of gold, platinum, silver, copper, zinc and lead. Extraction ofthese deposits is associated with the smallest area ofexploitation and depth ofoccurrence (between 1500-3700 m b.s.l.) which can significantly facilitate commencing of mining operations. Their commercial extraction could begin in the next few years, provided a high concentration of gold and metals in the location near the coast, and a depth below 2000 m b.s.l. Metalliferous clays, which are the deposits enriched in manganese oxides or hydroxides and sulphides or iron, could become an important prospective source of rare earth elements. This is confirmed by a study in two regions: eastern South and central North Pacific. Prospective possibilities of mining the ocean polymetallic deposits increased due to a high concentration ofMn, Ni, Cu, Co, Pt and REE (La, Ce, Nd, Yb, Eu). REE recovery particularly increases the economic value of these deposits. Mining of the ocean polymetallic deposits would meet many technological difficulties and should be preceded by detailed environmental studies.

Słowa kluczowe

surowce strategiczne polimetaliczne kopaliny oceaniczne

strategic raw materials ocean polymetallic deposits

Wydawca

Państwowy Instytut Geologiczny - Państwowy Instytut Badawczy

Czasopismo

Przegląd Geologiczny

Rocznik

2013

Tom

Vol. 61, nr 1

Strony

45–--53

Opis fizyczny

Bibliogr. 30 poz., rys., tab.

Twórcy

autor

Zawadzki D.

dominik.zawadzki@ univ.szczecin.pl

Zakład Geologii Morza, Instytut Nauk o Morzu, Uniwersytet Szczeciński, ul. Mickiewicza 18, 70-383 Szczecin

Bibliografia

1. ABRAMOWSKI T. & KOTLIŃSKI R.A. 2011 - Współczesne wyzwania eksploatacji oceanicznych kopalin polimetalicznych. Górn. Geoinż., 35: 41-62.
2. ANDRIEJEW S.I. 1994 - Mietałłogienija żelezomargancewych obrazowanij Mirowogo okieana. Sankt-Pietierburg, Nedra: 1-191.
3. CHERKASHOV G., POROSHINA I., STEPANOVA T., IVANOV V., BEL’TENEV V., LAZAREVA L., ROZHDESTVENSKAYA I., SAMOVAROV M., SHILOV V., GLASBY G.P., FOUQUET Y. & KUZNETSOV V. 2010 - Seafloor massive sulfides from the Northern Equatorial Mid-Atlantic Ridge: new discoveries and perspectives. Mar. Georesour. Geotechnol., 28: 222-239.
4. CRONAN D.S. (red.) 2000 - Handbook of marine mineral deposits. CRC Press, London: 239-272.
5. DEPOWSKI S., KOTLIŃSKI R., RÜHLE E. & SZAMAŁEK K. 1998 - Surowce mineralne mórz i oceanów. Wyd. Nauk. Scholar, Warszawa.
6. EUROPEAN Comission 2010 - Critical raw materials for the EU. Report of the Ad-hoc Working Group on defining critical raw materials [http://ec.europa.eu/enterprise/policies/raw-materials/files/docs/ report-b_en.pdf].
7. GOTO K., YAMAZAKI T., NAKATANI N. & ARAI R. 2010 - Preliminary economic feasibility analysis of cobalt-rich manganese crust mining for rare metal recovery. 29th International Conference on Ocean, Offshore and Arctic Engineering. Vol. 3. ASME, New York: 29-34.
8. HEIN J. 2000 - Cobalt-rich ferromanganese crusts: global distribution, composition, origin and research activities. [W:] Polymetallic massive sulphides and cobalt-rich ferromanganese crusts: status and prospects. ISA Tech. Stud., 2: 37-77.
9. HEIN J.R., CONRAD T.A. & STAUDIGEL H. 2010 - Seamount mineral deposits: a source of rare metals for high-technology industries. Oceanography, 23: 184-189.
10. HEIN J.R., KOSCHINSKY A., BAU M., MANHEIM F.T., KANG J.-K. & ROBERTS L. 2000 - Cobalt-rich ferromanganese crusts in the Pacific. [W:] Cronan D. (red.) Handbook of marine mineral deposits. CRC Press, London: 239-272.
11. HERZIG P.M. & HANNINGTON M.D. 2000 - Polymetallic massive sulfides and gold mineralization at mid-ocean ridges and subduction- -related environments. [W:] Cronan D. (red.) Handbook of marine mineral deposits. CRC Press, London: 347-363.
12. HERZIG P.M., PETERSEN S., HANNINGTON M.D. 2002 - Polymetallic massive sulphide deposits at the modern seafloor and their resource potential. [W:] Polymetallic massive sulphides and cobalt-rich ferromanganese crusts: status and prospects. ISA Tech. Stud., 2: 7-37.
13. International Seabed Authority 2010 - A geological model of polymetallic nodule deposits in the Clarion-Clipperton Fracture Zone. Report of International Seabed Authority. ISA Tech. Stud., 6: 6-23.
14. International Seabed Authority 2011 - Environmental management needs for exploration and exploitation of deep sea minerals. Report of a workshop held by the International Seabed Authority in collaboration with the Government of Fiji and the SOPAC Division of the Secretariat of the Pacific Community (SPC) in Nadi, Fiji, from 29 November to 2 December. 2011. ISA Tech. Stud., 10: 12-15.
15. JAUHARI P. & PATTAN J.N. 2000 - Ferromanganese nodules from the Central Indian Ocean Basis. [W:] Cronan D. (red.) Handbook of marine mineral deposits. CRC Press, London: 171-195.
16. KATO Y., FUJINAGA K., NAKAMURA K., TAKAYA Y., KITAMURA K., OHTA J., TODA R., NAKASHIMA T. & IWAMORI H. 2011 - Deep-sea mud in the Pacific Ocean as a potential resource for rare-earth elements. Nature Geosci., 4: 535-539.
17. KORINEK J. & KIM J. (red.) 2009 - Export restrictions on strategic raw materials and their impact on trade and global supply. 2009 Workshop on Raw Materials. OECD Headquarters, Paris [http://www.oecd.org/trade/non-tariffmeasures/43934153.pdf].
18. KOTLIŃSKI R. 1996 - Morphogenetic types of polymetallic nodules in the Clarion-Clipperton Ore Field. International Seminar on Deep Sea-Bed Mining Technology, 18-20 October, 1996. COMRA, Beijing, China: 1-11.
19. KOTLIŃSKI R. 1999 - Metallogenesis of the world’s ocean against the background of ocean crust evolution. Pol. Geol. Inst. Spec. Pap., 4: 25-49.
20. KOTLIŃSKI R. 2011a - Mapa osadów oceanicznych w skali 1 : 40 000 000. IOM, Szczecin.
21. KOTLIŃSKI R. 2011b - Pole konkrecjonośne Clarion-Clipperton - źródło surowców w przyszłości. Górn. Geoinż., 35: 195 - 214.
22. KOTLIŃSKI R., PARIZEK A. & REZEK K. 1997 - Polymetallic nodules - a possible source of Rare Earth Elements. [W:] Chung J.S. & Hong S. (red.) The proceedings of the second (1997) ISOPE Ocean Mining Symposium, Seoul, Korea, November 24-26, 1997. ISOPE, Colorado, USA: 50-56.
23. KOTLIŃSKI R. & STOYANOVA V. 2007 - Buried and surface polymetallic nodule distribution in the eastern Clarion-Clipperton Zone. Main distinctions and similarities. Adv. Geosci., 9: 67-74.
24. MIZERSKI W. & SZAMAŁEK K. 2009 - Geologia i surowce mineralne oceanów. Wyd. Nauk. PWN, Warszawa: 1-360.
25. MORGAN CH.L. 2000 - Resource estimates of the Clarion-Clipperton manganese nodule deposits. [W:] Cronan D. (red.) Handbook of marine mineral deposits. CRC Press, London: 145-170.
26. PATTAN J.N. & PARTHIBAN G. 2011 - Geochemistry of ferromanganese nodule-sediment pairs form Central Indian Ocean Basin. J. Asian Earth Sci., 40: 569-580.
27. STACKELBERG U. 2000 - Manganese nodules of the Peru Basin. [W:] Cronan D. (red.) Handbook of marine mineral deposits. CRC Press, London: 197-238.
28. SZAMAŁEK K., MARCINOWSKA A., NEJBERT K. & SPECZIK S. 2011 - Sea-floor massive sulphides from the Galápagos Rift Zone - mineralogy, geochemistry and economic importance. Geol. Quart., 55: 187-202.
29. SZAMAŁEK K. & MIZERSKI W. 2011 - Surowce mineralne z dna mórz i oceanów - stan rozpoznania i perspektywy. Górn. Geoinż., 35: 353-369.
30. ZAWADZKI D. & KOTLIŃSKI R.A. 2011 - Uwarunkowania występowania i rozmieszczenia perspektywicznych nagromadzeń tlenkowych skupień żelazowo-manganowych. Górn. Geoinż., 35: 427-439. http ://www.isa.org.jm/en/home.

Typ dokumentu

Bibliografia

Identyfikator YADDA

bwmeta1.element.baztech-d2284a49-f1cb-4b2c-8756-060fd460b9cd