CO2 Sequestration from flue gas by direct aqueous mineral carbonation of wollastonite

Science China Technological Sciences

Volumn 56, Issue 9, 2013, Pages 2219-2227

  Yan, Heng ^a   Zhang, Junying ^a   Zhao, Yongchun ^a   Zheng, Chuguang ^a  

^a HUAZHONG UNIVERSITY OF SCIENCE AND TECHNOLOGY   (China)

Author keywords

flue gas; mineral carbonation; wollastonite

Indexed keywords

AIR PURIFICATION; CARBON DIOXIDE; DECOMPOSITION; FLUE GASES; FLUES; FLUORESCENCE SPECTROSCOPY; GASES; GREENHOUSE EFFECT; HEAT TREATMENT; ION CHROMATOGRAPHY; MACHINERY; PARTICLE SIZE; SILICATE MINERALS; SODIUM BICARBONATE;

CARBONATION REACTIONS; ECONOMIC FEASIBILITIES; MINERAL CARBONATION; POSSIBLE MECHANISMS; REACTION TEMPERATURE; SOLUTION COMPOSITION; WOLLASTONITE; X-RAY FLUORESCENCE SPECTROSCOPY;

CARBONATION;

EID: 84883308132     PISSN: 16747321     EISSN: 18691900     Source Type: Journal    
DOI: 10.1007/s11431-013-5318-y     Document Type: Article

References (33)

1. Solomon S, Qin D, Manning M, et al. Climate Change 2007-the Physical Science Basis: Working Group I Contribution to the Fourth Assessment Report of the IPCC. Cambridge: Cambridge University Press, 2007
2. Yang H Q, Xu Z H, Fan M H, et al. Progress in carbon dioxide separation and capture: A review. J Environ Sci, 2008, 20: 14-27
3. 2 mineral sequestration: developments toward large-scale application. Greenhouse Gas Sci Technol, 2011, 1: 48-57
4. Lackner K S, Wendt C H, Butt D P, et al. Carbon dioxide disposal in carbonate minerals. Energy, 1995, 20: 1153-1170
5. 2 sequestration by steel slag carbonation. Environ Sci Technol, 2005, 39: 9676-9682
6. 2 into inorganic carbonates: The natural and artificial "weathering of silicates". In: Carbon Dioxide as Chemical Feedstock. Weinheim: Wiley-VCH Verlag GmbH, 2010. 353-367
7. 2 disposal by means of silicates. Nature, 1990, 345: 486
8. Dunsmore H E. A geological perspective on global warming and the possibility of carbon dioxide removal as calcium carbonate mineral. Energ Convers Manage, 1992, 33: 565-572
9. 2 mineral sequestration studies in US. In: Proceedings of the First National Conference on Carbon Sequestration. Washington DC: US DOE, 2001
10. O'Connor W K, Dahlin D C, Nilsen D N, et al. Carbon dioxide sequestration by direct aqueous mineral carbonation. In: Proceedings of the 25th International Technical Conference on Coal Utilization & Fuel Systems. Florida: Clearwater, Coal Technology Association, 2001
11. 2 sequestration by magnesium silicate mineral carbonation in Finland. In: 2nd Nordic Minisymposium on Carbon Dioxide Capture and Storage. Göteborg: Chalmers University of Technology & Göteborg University, 2001
12. 2 storage in solid form: A study of direct mineral carbonation. In: 5th International Conference on Greenhouse Gas Technologies. Cairns: IEA Greenhouse Gas R&D Programme, 2000
13. 2 supercritical conditions. AIChE J, 2006, 52: 292-299
14. Guthrie G D, Carey J W, Bergfeld D, et al. Geochemical aspects of the carbonation of magnesium silicates in an aqueous medium. In: Proceedings of the 1st NETL Conference on Carbon Sequestration. Washington DC, 2001
15. 2 fixation via artificial rock weathering. Ind Eng Chem Res, 2001, 40: 3902-3905
16. Schulze R K, Hill M A, Field R D, et al. Characterization of carbonated serpentine using XPS and TEM. Energ Convers Manage, 2004, 45: 3169-3179
17. 2 mineral sequestration: physically activated dissolution of serpentine and pH swing process. Chem Eng Sci, 2004, 59: 5241-5247
18. 2 mineral sequestration: chemically enhanced aqueous carbonation of serpentine. Can J Chem Eng, 2003, 81: 885-890
19. 2 sequestration. US Patent, 0213705, 2003-11-12
20. Maroto-Valer M M, Zhang Y, Kuchta M E, et al. Process for sequestering carbon dioxide and sulphur dioxide. US Patent, 7604787, 2004-04-29
21. Teir S, Revitzer H, Eloneva S, et al. Dissolution of natural serpentinite in mineral and organic acids. Int J Miner Process, 2007, 83: 36-46
22. Lee M G, Ryu K W, Jang Y N, et al. Effect of oxalic acid on heat pretreatment for serpentine carbonation. Mater Trans, 2011, 52: 235-238
23. Goff F, Lackner K S. Carbon dioxide sequestering using ultramafic rocks. Environ Geosci, 1998, 5: 89-101
24. 2 mineralization process with a recyclable reaction solution. Energy, 2008, 33: 776-784
25. 2 mineral carbonation. Fuel, 2011, 90: 1229-1237
26. 2 capture and mineral carbonation by using recyclable ammonium salts. Chem Suschem, 2011, 4: 1291-1300
27. 2 capture and storage based on pH-swing mineral carbonation using recyclable ammonium salts. Energy Procedia, 2011, 4: 4930-4936
28. Zhang J S, Zhang R, Geerlings H, et al. Mg-silicate carbonation based on an HCl- and NH3-recyclable process: effect of carbonation temperature. Chem Eng Technol, 2012, 35: 525-531
29. Gerdemann S J, Dahlin D C, O'Connor W K. Carbon dioxide sequestration by aqueous mineral carbonation of magnesium silicate minerals. In: Conference Proceedings GHGT-6. Kyoto: IEA Greenhouse Gas R&D Programme, 2003
30. 2 sequestration process. Chem Eng Sci, 2006, 61: 4242-4251
31. Yan H, Zhang J Y, Wang Z L, et al. Carbon dioxide sequestration by mineral carbonation in simulated flue gas using wollastonite (in Chinese). Proc CSEE, 2010, 30: 44-49
32. Xu J, Zhang J Y, Pan X, et al. Carbon dioxide sequestration as mineral carbonates (in Chinese). J Chem Ind Eng, 2006, 57: 1761-1764
33. Zhang J Y, Zhao Y C, Pan X, et al. Experimental study of carbon dioxide sequestration as mineral carbonation using wollastonite (in Chinese). Prog Nat Sci, 2008, 18: 836-840