Page 92 - New Trends In Coal Conversion
P. 92
Current status of CO 2 capture from coal facilities 57
Knudsen, J.N., 2015. Results and Future Perspective of Aker Solutions’ Amine Project. Norcem
CO 2 Capture Project. Langesund, Norway.
Levasseur, A., 2015. Alstom’s limestone-based chemical looping development for advanced
gasification. DOE/NETL Agreement DE-FE0023497. In: DOE Workshop: Gasification
Systems and Coal & Biomass to Liquids, Morgantown, MW, USA.
Levasseur, A., Marion, J., Vitse, F., 2016. Alstom’s [GE] chemical looping combustion tech-
nology with CO 2 capture for new and existing coal-fired power plants (FE0009484). In:
2016 NETL CO 2 Capture Technology Meeting, Pittsburgh, PA, USA. DOE.
Nelson, T.O., Kataria, A., Mobley, P., Soukri, M., Tanthana, J., 2017. RTI’s solid sorbent-based
CO 2 capture process: technical and economic lessons learned for application in coal-fired,
NGCC, and cement plants. Energy Procedia 114, 2506e2524.
Nooryani, B., 2017. Aker Solutions wins carbon capture study contracts from Yara and Norcem.
Okumura, T., Yoshizawa, K., Nishibe, S., Iwasaki, H., Kazari, M., Hori, T., 2017. Parametric
testing of a pilot-scale design for a moving-bed CO 2 capture system using low-temperature
steam. Energy Procedia 114, 2322e2329.
Patkar, A., Bumb, P., 2017. Carbon capture technology for flue gas applications. In: Carbon
Management Technology Conference 2017 (CMTC 2017), Houston, TX, USA.
Perilli, D., 2014. Capturing the cement carbon capture market. Global Cement.
Rocha, M., Hare, B., Parra, P.Y., Roming, N., Ural, U., Ancygier, D.A., Cantzler, J., Sferra, F.,
Li, H., Schaeffer, M., 2016. Implications of the Paris Agreement for coal use in the power
sector. ClimateAnalitics.
Saima, W.H., Mogi, Y., Haraoka, T., 2013a. Development of PSA system for the recovery of
carbon dioxide and carbon monoxide from blast furnace gas in steel works. Energy Pro-
cedia 37, 7152e7159.
Saima, H., Mogi, Y., Haraoka, T., 2013b. Development of PSA system for the recovery of CO 2
from blast furnace gas. In: IEA-ghg IETS Iron and Steel Industry Workshop, Tokyo, Japan.
Schmitt, J., 2017. Pre-project planning for a flameless pressurized oxy-combustion (FPO) pilot
plant. In: 2017 NETL CO 2 Capture Technology Project Review Meeting, Pittsburg, PA,
USA.
Sjostrom, S., Denney, J., Senior, C., Morris, W., 2016. Evaluation of solid sorbents as a retrofit
technology for CO 2 capture, ADA-ES, Inc., Highlands Ranch, Co (United States).
Medium: ED; Size, p. 265.
Spero, C., Montagner, F., Chapman, L., Ranie, D., Yamada, T., 2014. Callide Oxyfuel project e
Lessons learned. Oxyfuel Technologies Pty. Ltd.
SRI, 2016. Pilot-scale evaluation of an advanced carbon sorbent-based process for post-
combustion carbon capture. In: 2016 NETL Project Review Meeting.
Str€ ohle, J., Ohlem€ uller, P., Epple, B., 2015. Chemical looping combustion of coal and biomass
in a 1 MW th pilot plant using ilmenite and iron ore as oxygen Carrier. In: 6th IEAGHG
High Temperature Solid Looping Cycles Network Meeting, Milan, Italy.
Tokheim, L.-A., Eldrup, N., Mathisen, A., 2015. Benchmark study ecommercial scale
perspective preliminary results from WP7 benchmark study. In: Norcem CO 2 Capture
Project: International CCS Conference. Langesund, Norway.
Tong, A., Velazquez-Vargas, L., Flynn, T., Poling, C., Fan, L.-S., 2017. FE0027654. 10 MWe
coal direct chemical looping large pilot plant: pre-front end engineering and design study.
In: 2017 NETL CO 2 Capture Technology Project Review Meeting, Pittsburgh, PA, USA.
Tonomura, S., 2013. Outline of course 50. Energy Procedia 37, 7160e7167.
Tonomura, S., Kikuchi, N., Ishiwata, N., Tomisaki, S., Tomita, Y., 2016. Concept and current
state of CO 2 Ultimate Reduction in the Steelmaking Process (COURSE50) aimed at sus-
tainability in the Japanese steel industry. Journal of Sustainable Metallurgy 2 (3), 191e199.
