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Technical and economic issues of offshore pipeline carbon dioxide transportation

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The technical and economic conditions of carbon dioxide offshore pipeline transportation are presented in this paper. The basie conditions in which carbon dioxide will be transported, as well as the thermodynamic conditions, physicochemical properties and technical parameters, relevant to CO2 pipeline transport, are addressed in this article. The basie costs of pipeline carbon dioxide transport are also considered. The carbon dioxide flow was simulated for a few pipeline diameter sizes to determine the operating pressure of the pipeline for various maximum mass flow rate values. Different conditions of CO2 flow including impact of ambient conditions were analyzed. There is also included an analysis of technological systems and installation concepts for carbon dioxide preparation for efficient pipeline transportation.
Rocznik
Strony
341--354
Opis fizyczny
Bibliogr. 22 poz., wykr., tab., rys.
Twórcy
autor
  • AGH University of Science and Technology, Faculty of Drilling, Oil and Gas, Kraków, Poland
  • AGH University of Science and Technology, Faculty of Drilling, Oil and Gas, Kraków, Poland
autor
  • AGH University of Science and Technology, Faculty of Drilling, Oil and Gas, Kraków, Poland 341
Bibliografia
  • [1] IPCC, 2005. Intergovernmental Panel on Climate Change. IPCC Special Report on Carbon Dioxide Capture and Storage. Prepared by Working Group III of the Intergovernmental Panel on Climate Change. Cambridge University Press, Cambridge, United Kingdom and New York, NY, USA
  • [2] ZEP Zero Emissions Platform., 2011. The Costs of CO2 Capture, Transport and Storage. Post-demonstration CCS in the EU. European Technology Platform for Zero Emission Fossil Fuel Power Plants.
  • [3] Welkenhuysen K., Compernolle T, 2013. Economisc of single chain EOR projects. Port of Antwerp. EOR Seminar. June, 18, 2013.
  • [4] IEA GHG, 2002. International Energy Agency. Transmission of CO2 and Energy, IEA Greenhouse Gas R&D Programme. Report PH4/6. IEA GHG, Cheltenham, UK (March).
  • [5] Bock B.R., Rhudy R., Herzog H., Klett M., Davison I, de la Torre Ugarte D.G., Simbeck D., 2003. Economic Evaluation of CO2 Storage and Sink Enhancement Options. TVA Public Power Institute, February 2003
  • [6] Chandler, H.M. 2000. Heavy Construction Cost Data - 14th Annual Editions. R.S. Means Company, Inc. Kingston, MA, USA.
  • [7] Hendriks, CA., Wildenborg T., Feron R, Graus W., 2005. Capture and Storage, prepared for EC, DG-ENV, Ecofys Energy and Environment, report nr. M70066.
  • [8] O&GJ, 2000. Pipeline Economics. Oil and Gas Journal, 98 (36), pp. 68-86.
  • [9] Ormerod B., 1994. The disposal of carbon dioxide from fossil fuel fired power stations.IEA Greenhouse Gas R&D Programme, Cheltenham, Technical Rep. IEAGHG/SR3, June 1994.
  • [10] Sarv, H., 2001a, Further Technological Evaluation of CO2 Storage in Deep Oceans. Presented at the 26a International Technical Conference on Coal Utilisation & Fuel Systems, March 5-8, 2001, Clearwater, Florida.
  • [11] Sarv, H., 2001b, Large-scale CO2 transportation and deep ocean sequestration- Phase II final report. McDermott Technology Inc., Ohio. Technology Report DE-AC26-98FT40412,2001.
  • [12] Sarv, H., John J., 2000, Deep ocean sequestration of captured CO2. Technology, 7S, 125-135.
  • [13] Urbański J., Szymelfenig M., Morze Bałtyckie - o tym warto wiedzieć, [w:] Zeszyty Zielonej Akademii, 2008, Zeszyt 7
  • [14] McCoy S. T, The Economics of CO2 Transport by Pipeline and Storage in Saline Aąuifers and Oil Reservoirs, PhD, Pittsburgh, PA 2008.
  • [15] McCoy S. T., Rubin S. An engineering-economic model of pipeline transport of CO2 with application to carbon capture and storage. International Journal of Greenhouse Gas Control Vol. 2 (2008) 219 - 229.
  • [16] ZhangZ.X., WangG.X.,Massarotto P,RudolphV.: Optimization of Pipeline Transport for CO2 Sequestration. Elsevier Energy Conversion and Management 47 (2006).
  • [17] Magda W., Rurociągi podmorskie Zasady projektowania, Warszawa 2004.
  • [18] Coiled-tubing pipes catalogue / Katalog rur typu coiled-tubing - TENARIS CO. [19] Rybicki C, Łaciak M., Transport rurociągowy CO2. [w:] Rurociągi, nr 4, 2008.
  • [20] Włodek T.: Wybrane aspekty techniczne rurociągowego transportu dwutlenku węgla. [w:] AGH Drilling-Oil-Gas Quaterly Vol. 29 No. 1, 2012
  • [21] Murray A., MohitpourM., GolshanYl., Pipeline Design and Construction. A practical approach. ASME PRESS 2003
  • . [22] REFPROP NIST 9.0
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-9e097c5d-43fe-4126-8cc1-fb32899af691
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