Current status of CO 2 capture from coal facilities                55

              CO 2 is already removed in some industrial processes; emissions abatement from
           such sources would be straightforward and only requires economic incentives or
           emission limits regulation. There are several CCUS projects running in the CTC,
           CTL, cement, and steel sectors at commercial and demonstration scale. Although
           physical and chemical absorption continue to be the most developed technologies to
           capture CO 2 at these sources, emerging technologies present scope to reduce the cap-
           ture cost.


           Acknowledgments

           M.G. Plaza acknowledges the award of a Ramon y Cajal contract (RyC-2015-17516) from the
           Spanish MINECO.


           References

           Ad  anez-Rubio, I., Abad, A., Gay  an, P., de Diego, L.F., García-Labiano, F., Ad  anez, J., 2013.
               Performance of CLOU process in the combustion of different types of coal with CO 2
               capture. International Journal of Greenhouse Gas Control 12, 430e440.
           Alptekin, G., 2017. Integrated water-gas-shift pre-combustion carbon capture process. In: 2017
               Gasification Systems Project Review.
           Alptekin, G., Jayaraman, A., Cates, M., Bonnema, M., Dippo, J., Gribble, D., Wall, B., 2017.
               Pilot testing of a highly efficient pre-combustion sorbent-based carbon capture system
               (Contract No. DE-FE-0013105). In: 2017 NETL CO 2 Capture Technology Meeting,
               Pittsburgh, US.
           Arias, B., Diego, M.E., Méndez, A., Abanades, J.C., Díaz, L., Lorenzo, M., Sanchez-
               Biezma, A., 2017. Operating experience in la Pereda 1.7 MW th calcium looping pilot.
               Energy Procedia 114, 149e157.
           Armpriester, A., 2016. Project CO 2 NCEPT. In: 2016 NETL CO 2 Capture Technology Project
               Review Meeting.
           Augustsson, O., Baburao, B., Dube, S., Bedell, S., Strunz, P., Balfe, M., Stallmann, O., 2017.
               Chilled ammonia process scale-up and lessons learned. Energy Procedia 114, 5593e5615.
           Axelbaum, R., 2017. Staged, high pressure oxy-combustion technology: development and scale-
               up DE-FE0009702. In: 2017 NETL CO 2 Capture Technology Project Review Meeting,
               Pittsburgh, US.
           Casero, P., Pe~ na, F.G., Coca, P., Trujillo, J., 2014. ELCOGAS 14 MW th pre-combustion carbon
               dioxide capture pilot. Technical & economical achievements. Fuel 116, 804e811.
           Chang, M.-H., Chen, W.-C., Huang, C.-M., Liu, W.-H., Chou, Y.-C., Chang, W.-C., Chen, W.,
               Cheng, J.-Y., Huang, K.-E., Hsu, H.-W., 2014. Design and experimental testing of a 1.9
               MW th calcium looping pilot plant. Energy Procedia 63, 2100e2108.
           Church, M., 2017. St Marys Cement emissions used to grow microalgae. Canadian Biomass
               Magazine (Annex Business Media).
           de Dios, J.C., 2015. Oxyfuel capture in 30 MW th CFB boiler challenges & lessons learned.
               CO 2 GeoNet, Venice.
           Denton, D., Turk, B.S., Gupta, R., 2016. RTI’S warm syngas cleanup technology e Test pro-
               gram complete and ready for license. Green and Smart Technology (GST), Korea.