REFERENCES
- Abu-Zahra , M. , Schneiders , L. , Niederer , J. , Feron , P. and Versteeg , G. 2007 . CO2 capture from power plants, part I. A parametric study of the technical performance based on monoethanolamine . Int J. of Greenhouse Gas Control , 1 : 37 – 46 .
- Arnold , D. S. , Barrett , D. A. and Isom , R. H. 1982 . CO2 can be produced from flue gas . Oil & Gas Journal , 11 : 130 – 36 .
- Aspen Technology, Inc. 2006 . “ Aspen ONE ” .
- Barchas , R. and Davis , R. 1992 . The Kerr-McGee/ABB Lummus Crest Technology for the recovery of CO2 from stack gases . Energy Convers. Mgmt , 33 ( 5–8 ) : 333 – 40 .
- Bolland , O. and Mathieu , P. 1998 . Comparison of two CO2 removal options in combined cycle power plants . Energy Convers. Mgmt , 39 ( 16–18 ) : 1653 – 63 .
- Bolland , O. and Undrum , H. A novel methodology for comparing CO2 Capture options for natural gas-fired combined cycle plants . Adv. Environ. Res. , 7 901 – 911 .
- Chapel , D. G. , Mariz , C. L. and Ernest , J. . Recovery of CO2 from flue gases . Commercial trends. Proceedings from the Annual meeting of the Canadian Society of Chemical Engineering . Saskatoon, Canada.
- Desideri , U. and Paolucci , A. 1999 . Performance modeling of a carbon dioxide removal system for power plants . Energy Convers. Mgmt , 40 : 1899 – 1915 .
- Jonsson , M. and Yan , J. . Economic assessment of evaporative gas turbine cycles with optimized part flow humidification systems . Proceedings of the ASME Turbo Expo . Atlanta, Georgia, USA.
- Jonsson , M. and Yan , J. 2005 . Humidified gas turbines—a review of proposed and implemented cycles . Energy , 30 ( 7 ) : 1013 – 78 .
- Kvamsdal , H. M. , Jordal , K. and Bolland , O. 2007 . A quantitative comparison of gas turbine cycles with CO2 capture . Energy , 32 : 10 – 24 .
- Li , H. , Yan , J. , Yan , J. and Anheden , M. 2007 . Evaluation of existing methods for the thermodynamic property calculation of CO2-mixtures . KTH-Vatterfall Report. , and Royal Institute of Technology, Stockholm, Sweden.
- Li , H. and Yan , J. . Performance comparison on the evaporative gas turbine cycles combined with different CO2 capture options . Proceedings from the 4th International Green Energy Conference . Beijing, China.
- Li , H. and Yan , J. 2009 . Evaluating cubic equations of state for calculation of vapor-liquid equilibrium of CO2 and CO2 mixtures for CO2 capture and storage processes . Applied Energy , 86 ( 6 ) : 826 – 36 .
- Mimura , T. , Nojo , T. , Ijima , M. , Yoshiyama , T. and Tanaka , H. . Recent developments in flue gas CO2 recovery technology . Proceedings from the 6th International Conference on Greenhouse Gas Control Technologies (GHGT-6) . Kyoto, Japan.
- Nivargi , J. P. , Gupta , D. F. , Shaikh , S. J. and Shah , K. T. 2005 . TEG contactor for gas dehydration . Chemical Engineering World , 40 ( 9 ) : 77 – 80 .
- Rao , A. D. Process for producing power . US Patent No. 4,829,763 . 1989 .
- Sander , M. T. and Mariz , C. L. 1992 . The Fluor Daniel ® EconamineTM FG Process: Past experience and present day focus . Energy Convers. Mgmt , 33 ( 5–8 ) : 341 – 48 .
- Shao , Y. , Golomb , D. and Brown , G. 1995 . Natural gas fired combined cycle power plant with CO2 capture . Energy Convers. Mgmt , 36 ( 12 ) : 1115 – 28 .
- Stangeland, A. (2007). Why CO2 capture and storage (CCS) is an important strategy to reduce global CO2 emissions. The Bellona Foundation http://www.bellona.org/filearchive/fil_Bellona_Paper_-_Why_CCS_-_1June07.pdf
- Yan , J. , Eidensten , L. and Svedberg , G. . An investigation of the heat recovery system in externally fired evaporative gas turbines . Proceedings of the ASME International Gas Turbine and Aeroengine Congress and Exposition . Houston, Texas, USA.