Analysis and selection of CO2 sources for CCS-EOR projects in oil fields clusters in Poland

• Autorzy: Mikołajczak E. , Kosowski P. , Stopa J. , Wartak J.

Identyfikatory

DOI

10.7494/drill.2017.34.4.831

• Języki publikacji: EN

Abstrakty

EN

Article contains detailed analysis and preliminary selection of potential CO2 emitters, who could be suppliers of gas for CCS-EOR projects in oil fields clusters in Poland. The idea of CO2 injection into clusters arises from the fact that oil reservoirs in Poland are relatively small, but very often located close together. Grouping reservoirs allows the potential storage capacity to increase significantly and improves economic indicators. In addition, CCS-EOR projects combine CO2 storage (CCS) with an increase in production from mature oil fields (EOR). The analysis was performed using a database of carbon dioxide emitters in Poland, which was created by the National Centre for Emissions Management. This database contains a list of all registered producers of CO2 with annual emissions exceeding 1 Mg. On this basis, potential sources of CO2 for previously selected four clusters of oil reservoirs were chosen.

Słowa kluczowe

EN

CCS; EOR; CO2; oil field; cluster; emitters selection

• Wydawca: AGH University of Science and Technology Press
• Czasopismo: AGH Drilling, Oil, Gas
• Rocznik: 2017
• Tom: Vol. 34, no. 4
• Strony: 831--842
• Opis fizyczny: Bibliogr. 7 poz., rys., tab.

Twórcy

autor

Mikołajczak E.

• AGH University of Science and Technology

autor

Kosowski P.

• AGH University of Science and Technology

autor

Stopa J.

• AGH University of Science and Technology

autor

Wartak J.

• AGH University of Science and Technology

Bibliografia

• [1] Brown K., Whittaker S., Wilson M., Srisang W., Smithson H., Tontiwachwuthikul P.: The history and development of the IEA GHG Weyburn-Midale CO2 Monitoring and Storage Project in Saskatchewan, Canada (the world largest CO2 for EOR and CCS program). Petroleum, vol. 3, issue 1, 2017, pp. 3–9.
• [2] Jakobsen J., Roussanaly S., Anantharaman R.: A techno-economic case study of CO2 capture, transport and storage chain from a cement plant in Norway. Journal of Cleaner Production 2016.
• [3] Kosowski P., Mikołajczak E.: Characteristics of industrial CO2 emissions in Poland in 2014 in terms of its underground storage. AGH Drilling, Oil, Gas, vol. 33, 2016, pp. 117–133.
• [4] Kwak Dong-Hun, Jin-Kuk Kim: Techno-economic evaluation of CO2 enhanced oil recovery (EOR) with the optimization of CO2 supply. International Journal of Greenhouse Gas Control, vol. 58, 2017, pp. 169–184.
• [5] Lacy R., Serralde C., Climent M., Vaca M.: Initial assessment of the potential for future CCUS with EOR projects in Mexico using CO2 captured from fossil fuel industrial plants. International Journal of Greenhouse Gas Control, vol. 19, 2013, pp. 212–219.
• [6] Tapia J.F.D., Lee J.-Y., Ooi R.E.H., Foo D.C.Y., Tan R.R.: Optimal CO2 allocation and scheduling in enhanced oil recovery (EOR) operations. Applied Energy, vol. 184, 2016, pp. 337–345.
• [7] Tapia J.F.D., Lee J.-Y., Ooi R.E.H., Foo D.C.Y., Tan R.R.: Planning and scheduling of CO2 capture, utilization and storage (CCUS) operations as a strip packing problem. Process Safety and Environmental Protection, vol. 104, 2016, pp. 358–372.

Uwagi

PL

Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2018).