The Carbon Dioxide Clathrate Disposal in a Pit near Japan

Bachu S., Gunter W.D., Perkins E.H. (1994) Energy Conversion and Management, ELSEVIER, 35, pg. 269-279.10.1016/0196-8904(94)90060-4Search in Google Scholar

Baklid A., Korbol R., Owren G. (1996) Society of Petroleum Engineers, SPE Annual Conference and Exhibition, SPE 36000-MS.Search in Google Scholar

Bădescu V.; Ciocanea A.; Cathcart R.B., Finkl C.W. (2012) Desalination brine disposal by submerged pipes in Red Sea, Journal of Coastal Research, West Palm Beach (Florida), ISSN 0749-0208.10.2112/JCOASTRES-D-12-00060.1Search in Google Scholar

Bushuyev et al., (2018) “What Should We Make with CO2 and How Can We Make It?”, JOULE 2: 1-8, 16 May 2018.10.1016/j.joule.2017.09.003Search in Google Scholar

Calculation of density, enthalpy and entropy for supercritical carbon dioxide, Retrieved from http://www.criticalprocesses.com/Calculation%20of%20density,%20enthalpy%20and%20entropy%20of%20carbon%20dioxide.htmSearch in Google Scholar

Costello, M.J.; Cheung, A., and De Hauwere, N. (2010) Surface area and the seabed area, volume, depth, slope, and topographic variation for the world’s seas, oceans, and countries. Environmental Science & Technology, 44, 8821–8828.10.1021/es1012752Search in Google Scholar

Density of Carbon dioxide, Retrieved from http://www.ddbst.com/en/EED/PCP/DEN_C1050.phpSearch in Google Scholar

Fer I., Haugan P. (2003) Limnology and Oceanography, 48(2), pg. 872-883.10.4319/lo.2003.48.2.0872Search in Google Scholar

Florea, J. and Panaitescu, V. (1979), Mecanica Fluidelor. Bucharest: Editura Didactică și Pedagogică, Didactical and Pedagogical Publishing House, 359 pg.Search in Google Scholar

Fujioka Y., Ozaki M., Takeuchi Shindo K., Y., Herzog H. J. (1997) Energy Conversion and Management, ELSEVIER, 38, S273-S277.10.1016/S0196-8904(96)00281-6Search in Google Scholar

Gatusso J.P., Magnan A., Bopp L., Cheung W., Duarte C., Hinkel J., Mcleod E., Micheli F., Oschlies A., Williamson P., Bille R., Chalastani V., Gates R., Irisson J. O., Mideelburg J., Portner H. O., Rau G. (2018) Ocean Solutions to Adress Climate Change and Its Effect on Marine Ecosystems, Frontiers in Marine Science, DOI: 10.3389/fmars. 2018.00337.10.3389/fmars.2018.00337Open DOISearch in Google Scholar

The General Bathymetric Chart of the Oceans (GEBCO) Undersea Feature Names (2015) Gazetteer—GOTO: http://bit.ly/GEBCO-Gazetteer.Search in Google Scholar

Goldthorpe S. (2017) Proc. of 13^thInternational Conference on Greenhouse Gas Control Technologies, Energy Procedia 114, pg. 5417-5429.10.1016/j.egypro.2017.03.1686Search in Google Scholar

Google Earth software (ocean depth is presented as negative elevation at a selected location).Search in Google Scholar

Gunter W.D., Bachu S., Law D.H.-S., Marwaha V., Drysdale D.L., Macdonald D.E., McCann T.J. (1996) Energy Conversion and Management, ELSEVIER, 37, 6-8, 1135-1142. A. Baklid, R. Korbol, G. Owren, Society of Petroleum Engineers, SPE Annual Conference and Exhibition, SPE 36600-MS.10.1016/0196-8904(95)00311-8Search in Google Scholar

Hamlin, C. (2000) ‘Waters’ or ‘water’?—master narratives in water history and their implications for contemporary water policy. Water Policy, 2, pg. 313–325.10.1016/S1366-7017(00)00012-XSearch in Google Scholar

IEA (2015) Energy and Climate Change, World Energy Outlook Special Report.Search in Google Scholar

IEAGHG (2000) report PH3/26 July 2000. Capture of CO2 using water scrubbing.Search in Google Scholar

IPCC (2005) IPCC Special Report on Carbon dioxide Capture and Storage-Chapter 6 Ocean Storage, Cambridge University Press, Retrieved from https://www.ipcc.ch./publications_and_data/publications_and_data_reports.shtml#Search in Google Scholar

Kawamura H., Yoon J-H., Ito T. (2007) Formation Rate of Water Masses in the Japan Sea, Journal of Oceanography, Vol. 63, pg. 243 to 253.10.1007/s10872-007-0025-6Search in Google Scholar

Keith et al., (2018) “A process for Capturing CO2 from the atmosphere”, JOULE 2: 1-22, 15 August 2018.10.1016/j.joule.2018.09.017Search in Google Scholar

Kim, K. and Chung J. Y. (1984) On the salinity minimum and dissolved oxygen maximum layer in the East Sea (Sea of Japan), pg. 56–66, Ocean Hydrodynamics of the Japan and East China Seas, Elsevier Oceanograph. Series, edited by T. Ichiye, Elsevier, New York.10.1016/S0422-9894(08)70290-3Search in Google Scholar

Kim, K., Kim K. R., Kim Y. G., Cho Y. K., Chung J. Y., Choi B. H., Byun S. K., Hong G. H., Takematsu M., Yoon J. H., Volkov Y. and Danchenkov M. (1996) New findings from CREAMS observations: Water masses and eddies in the East Sea, J. Korean Soc. Oceanography, 31, pg. 155–163.Search in Google Scholar

Kim, K., Kim K. R., Min D. H., Volkov Y., Yoon J. H. and Takematsu M. (2001): Warming and structural changes in the East Japan Sea: A clue to future changes in global oceans? Geophys. Res. Lett., 28, 17, pg. 3293–3296.10.1029/2001GL013078Search in Google Scholar

Malt, B.C. (1994) Water is not H₂O. Cognitive Psychology, 27, pg. 41–70.10.1006/cogp.1994.1011Search in Google Scholar

Marchetti C. (1977) “On Geoengineering and the CO₂ Problem”, Climate Change 1: 59-68.10.1007/BF00162777Search in Google Scholar

Mândrea L. (2008) Fluid Mechanics, ISBN 978-973-0-05570-2.Search in Google Scholar

Mândrea L., Bădescu V., Militaru G. (2018) The CO₂ liquid disposal in sea pits near Greece, MATEC Web of Conferences, 07010, International Conference IManEE, Chișinău, 30.05-2.06.2018, 6 pg., Published online: 24 July 2018, DOI: https://doi.org/10.1051/matecconf/20181780701010.1051/matecconf/201817807010Search in Google Scholar

Millero, F.; Chen, C.; Bradshaw, A., and Schleicher, K. (1980) A new high pressure equation of state for seawater. Deep Sea Research, part A, 27, pg. 255–264.10.1016/0198-0149(80)90016-3Search in Google Scholar

Minami, H., Kano Y. and Ogawa K. (1997): Long-term variation of Japan Sea Proper Water, J. Meteoro. Res., 49(4), pg. 97–106, in Japanese.Search in Google Scholar

Miyazaki, M. (1953): On the water masses of the Japan Sea. Bull. Hokkaido Reg. Fish. Res. Lab., 7, 1–65 (in Japanese), Postlethwaite, C. F., E. J. Rohling, W. J. Jenkins and C. F. Walker (2005): A tracer study of ventilation in the Japan/East Sea. Deep-Sea Res. Part II, 52, pg. 1684–1704.10.1016/j.dsr2.2004.07.032Search in Google Scholar

Nordhaus W.D. (1975), “Can We Control Carbon Dioxide?”, IIASA-Working Paper WP-75-63, June 1975.Search in Google Scholar

Oceanic provinces and zones, Retrieved from http://www.seafriends.org.nz/enviro/habitat/intro.htmSearch in Google Scholar

Petersen, U. (1994) Mining the hydrosphere. Geochimica et Cosmochimica Acta, 58, Pg. 2387–2403.10.1016/0016-7037(94)90017-5Search in Google Scholar

Schuster, L.A. (2003) Thinking deep. Civil Engineering, 73, pg. 46–53.Search in Google Scholar

Senjyu, T. and H. Sudo (1996): Interannual variation of the upper portion of the Japan Sea Proper Water and its probable cause, J. Oceanogr., 52, pg. 27–42.10.1007/BF02236531Search in Google Scholar

Smil, V. (2011) Global energy: the latest infatuations. American Scientist,99, pg.212–219.10.1511/2011.90.212Search in Google Scholar

Smith W.H.F., Sandwell D.T. (1997) Global Sea Floor Topography from Satellite Altimetry and Ship Depth Soundingss, Science 277, pg. 1956-1962 [see http://topex.ucsd.edu/marine_topo/mar_topo.html; at Scripps Institution of Oceanography, University of California, San Diego, 9500 Gilman Drive, La Jolla, 92093-0225; accessed: 21 September 2009].Search in Google Scholar

Stangroom, J.E. (1995) A novel method of manipulating heavy loads underwater. In: Robinson, A.R. and Kupferman, S.L. (eds.). Man-Made Objects on the Seafloor: Discover, Investigation and Recovery. New York: Society for Underwater Technology, pg. 121–133.Search in Google Scholar

Sudo, H. (1986): A note on the Japan Sea Proper Water, Prog.Oceanogr., 17, pg. 313–336.10.1016/0079-6611(86)90052-2Search in Google Scholar

Sun H., Feistel R., Koch M. and Markoe A., New equations for density, entropy, heat capacity, and potential temperature of a saline thermal fluid, Deep-Sea Research I 55, pg. 1304 – 1310, 2008.10.1016/j.dsr.2008.05.011Search in Google Scholar

Sunoda K. et al., (1998) “CO2 Sea Bottom Throw-Away System”, US Patent 5,820,300 awarded 13 October 1998.Search in Google Scholar

Tomczak., M. and Godfrey, J.S. (2003) Regional Oceanography: An Introduction. Delhi: Daya Publishing House, pg. 215–219.Search in Google Scholar

USAID (U.S. Agency for International Development), (2012). Global scan of world energy trends. http://www.sari-energy.org/pagefiles/what_we_do/activities/gemtp/cee-global_scan.pdf (accessed February 2, 2012).Search in Google Scholar

Zhao J. (2000) Diffusion, Costs and Learning in the Development of International Gas Transmission Lines. Laxenburg, Austria: International Institute for Applied Systems Analysis IIASA interim report IR-00-054. http:www.iiasa.ac.at/Admin/PUB/Documents/IR-00-054.pdf (accessed February 2, 2012).Search in Google Scholar

Yasui, M., Yasuoka T. and Shiota O. (1967): Oceanographic studies of the Japan Sea Water characteristics, Oceanogr.Mag., 19, pg. 177–192.Search in Google Scholar

Wei et al. (2017), “Directly converting CO2 into a gasoline fuel” NATURE COMMUNICATIONS 8: 15174.10.1038/ncomms15174541857528462925Search in Google Scholar