Environmental Engineering Reference
In-Depth Information
refereNCes
[1] Thekaekara mp. Solar irradiance: total and spectral and its possible variations. Appl Optics 1976;15:915-920.
[2] America's Climate Choices. Washington, DC: Committee on America's Climate Choices; National Research Council; National
Academies press; 2011.
[3] Trans p, Keeling R.
Trends in Atmospheric Carbon Dioxide
. Earth System Research Laboratory, Global monitoring Division. Available
at
http://www.esrl.noaa.gov/gmd/ccgg/trends/mlo.html
. Accessed march 12, 2013.
[4] Data in Gapminder World. Available at
http://www.gapminder.org/data/.
Accessed April 16, 2013.
[5] Inventory of U.S. greenhouse gas emissions and sinks: 1990-2010. EpA 430-R-12-001 [Online]. Available at
http://www.iea.org/
co2highlights/co2highlights.pdf.
Accessed April 22, 2013.
[6] CO
2
emissions from fuel combustion 2012 edition highlights. Available at
www.iea.org/co2highlights
. Accessed June 3, 2014.
[7] Longoria p.
Alternative Fuels
. NorthWest missouri State University. missouri Center of Excellence for plants biologics; February 2006.
[8] Ryle GJA, powell CE, Tewson V. Effect of elevated CO
2
on the photosynthesis, respiration and growth of perennial ryegrass. J Exp bot
1992;43:811-818.
[9] Stewart G. Dry cleaning with liquid carbon dioxide. In: DeSimone Jm, Tumas W, editors.
Green Chemistry Using Liquid and
Supercritical Carbon Dioxide
. New York: Oxford University press; 2003. p 215-227.
[10] Walsh mp, Lake LW, editors.
Generalized Approach to Primary Hydrocarbon Recovery
. Amsterdam: Elsevier; 2003. Handbook of
petroleum exploration and production, 4.
[11] Riddiford FA, Tourqui A, bishop CD, Smith Tb. A cleaner development: the In Salah Gas project, Algeria. In: Gale J, Kaya Y, editors.
proceedings of the 6th International Conference on Greenhouse Gas Control Technologies (GHGT-6); October 1-4, 2002; Kyoto, Japan;
Vol. I 2003. p 601-606.
[12] Angus S, Armstrong b, de Reuck Km. International Thermodynamic Tables of the Fluid State. Volume 3, Carbon dioxide. London:
pergamon press; 1973. p 266-359. IUpAC chemical data series.
[13] metz bO, Davidson HC, de Coninck m, Loos m, meyer LA. 2005. IpCC special report on carbon dioxide capture and storage [Online].
Available at
http://www.ipcc.ch/pdf/special-reports/srccs/srccs_wholereport.pdf/.
Accessed April 20, 2013.
[14] bachu S. CO
2
storage in geological media: role, means, status and barriers to deployment. prog Energ Combust 2008;34:254-273.
[15] Lackner KS, Wendt CH, butt Dp, Joyce EL, Sharp DH. Carbon dioxide disposal in carbonate minerals. Energy 1995;20:1153-1170.
[16] Dunsmore HE. A geological perspective on global warming and the possibility of carbon dioxide removal as calcium carbonate mineral.
Energ Convers manage 1992;33:565-572.
[17] precombustion capture. Available at
http://www.vattenfall.com/en/ccs/precombustion.htm?WT.ac=search_success
. Accessed April 23, 2013.
[18] Kohl A, Nielsen R.
Gas Purification
. 5th ed. Houston, Tx: Gulf publishing Company; 1997.
[19] Korens N, Simbeck DR, Wilhelm DJ. Report prepared for U.S. Department of Energy. process screening analysis of alternatives gas
treating and sulfur removal for gasification. pittsburg, pA: National Energy Technology Laboratory; 2002.
[20] Strait R, Nagvekar m. Carbon dioxide capture and storage in the nitrogen and syngas industries [Online]. 2010, KbR Technology
Internal Newspaper, 303. Available at http://www.kbr.com/Newsroom/publications/Articles/Carbon-Dioxide-Capture-and-Storage-in-
the-Nitrogen-Syngas-Industries.pdf. Accessed June 2, 2014.
[21] Rubin ES, Keith DW, Gilboy CF. 2005. Comparative assessments of fossil fuel power plants with CO
2
capture and storage [Online].
Available at
http://repository.cmu.edu/cgi/viewcontent.cgi?article=1082&context=epp
. Accessed April 30, 2013.
[22] postcombustion capture picture. Available at
http://www.vattenfall.com/en/ccs/postcombustion.htm.
Accessed April 23, 2013.
[23] Oxyfuel combustion capture. Available at
http://www.vattenfall.com/en/ccs/oxyfuel-combustion.htm
. Accessed April 23, 2013.
[24] Haszeldine RS. Carbon capture and storage: how green can black be? Science 2009;325:1647-1652.
[25] Ramezan m, Skone TJ, Nsakala N, Liljedahl, GN. 2007. Carbon dioxide capture from existing coal-fired power plants [Online]. U. S.
Department of Energy, National Energy Technology Laboratory. DOE/NETL-401/110907. Available at
http://www.netl.doe.gov/
JuneĀ 2, 2014.
[26] Choi S, Drese JH, Jones CW. Adsorbent materials for carbon dioxide capture from large anthropogenic point sources. ChemSusChem
2009;2:796-854.
[27] Sjostrom S, Krutka H. Evaluation of solid sorbents as a retrofit technology for CO
2
capture. Fuel 2010;89:1298-1306.
[28] Hicks JC, Drese JH, Fauth DJ, Gray mL, qi G. Designing adsorbents for CO
2
capture from flue gas-hyperbranched aminosilicas capable
of capturing CO
2
reversibly. J Am Chem Soc 2008;130:2902-2903.
[29] Hedin N, Chen LJ, Laaksonen A. Sorbents for CO
2
capture from flue gas-aspects from materials and theoretical chemistry. Nanoscale
2010;2:1819-1841.
