Thermodynamic and Kinetic Desorption Analysis on Direct Air Capture of CO2 Gas Using Moisture Swing Sorbent

TALAPATRA, Akash

doi:10.30897/ijegeo.526921

Thermodynamic and Kinetic Desorption Analysis on Direct Air Capture of CO2 Gas Using Moisture Swing Sorbent

Akash TALAPATRA (Cuet, Chittagong)

International Journal of Environment and Geoinformatics

1 0

Yıl: 2019 Cilt: 6 Sayı: 2 Sayfa Aralığı: 186 - 191 Metin Dili: İngilizce DOI: 10.30897/ijegeo.526921 İndeks Tarihi: 16-05-2020

Thermodynamic and Kinetic Desorption Analysis on Direct Air Capture of CO2 Gas Using Moisture Swing Sorbent

Öz:

An anion exchangeable resin sorbent originated from amine was used to capture and absorb CO2 from atmospheric air. The sorbentis capable to absorb CO2 gas in dry location, though it releases CO2 gas when it is exposed to water vapor or liquid water. Theisotherm test on absorption provides the evidence that the sorbent can act effectively at the very low concentration of CO2. Itscapacity of absorption in the form of carbonate ion is 0.86 mol/kg, which is identical to nearing of 21 litter of CO2 gas under 100 kPaand 25ºC. Langmuir equation detailed the absorption isotherm better at higher saturation. The kinetic desorption of CO2 spread overin a flat polypropylene sheet has been practiced by the well-developed models and experiments. After that, the desorption coefficient,kinetic desorption parameters and stimulated energy are estimated with that equation and model. Finally more experiments should bedeveloped to find out the exact reaction mechanism on this method with accumulating new information.

Anahtar Kelime:

Konular: Biyoloji Arkeoloji Su Kaynakları Jeokimya ve Jeofizik Çevre Bilimleri Ekoloji Jeoloji Meteoroloji ve Atmosferik Bilimler Biyoloji Çeşitliliğinin Korunması Oşinografi

Belge Türü: Makale Makale Türü: Araştırma Makalesi Erişim Türü: Erişime Açık

Climate Change Indicators in the United States. (2011). US. Environmental Protection Agency.
Climate Change. (2007). Synthesis Report; Intergovernmental Panel on Climate Change: Geneva, Switzerland.
IEA (2010) Key World Energy Statistics.
IPCC. (2005). IPCC special report on Carbon Dioxide Capture and Storage; Prepared by working group III of the Intergovernmental Panel on Climate Change: Cambridge University Press, Cambridge, United Kingdom and NewYork,USA.
Keith, D.W., M. Ha-Duong, M., J.K. Stolaroff. (2005). Climate strategy with CO2 capture from the air. Climatic Change, 74, 17-45.
Lackner, K. S. (2009). Capture of carbon dioxide from ambient air. Eur. Phys. J. Special Topics., 176 (1), 93-1063.
Lackner, K. S., Ziock, H.-J., Grimes, P. (1999). Carbon Dioxide Extraction from Air: Is It an Option? 24th Annual Technical Conference on Coal Utilization and Fuel Systems, Clearwater, FL.
Lackner, K.S. (2009). Carbon of Dioxide Capture from Ambient Air. The European Physics Journal: Special Topics, 176, 93- 106.
Socalow, R., Desmond, M., Aines, R., Blackstock, J., Bolland, O., Kaarsberg, T., Lewis, N., Mazzotti, M., Prefer, A., Sawyer, K., Siirola, J., Smit, B., Wilcox, J. (2011). Direct Air Capture of CO2 with Chemicals- A Technology Assessment for the APS Panel on Public Affairs, 119p.
Stolaroff, J. K., Keith, D. W. and Lowry G. V. (2008). Carbon dioxide capture from atmospheric air using sodium hydroxide spray. Environ. Sci .Technol., 42(8), 2728- 2735.
Ülker, D., Ergüven, O., Gazioğlu, C. (2018). Socio-economic impacts in a Changing Climate: Case Study Syria, International Journal of Environment and Geoinformatics (IJEGEO), Vol. 5(1), 84-93.
URL 1. http://www.iea.org (August, 2011).
URL 2. http://www.epa.gov (August, 2011).
Wang, T., Lackner, K.S., Wright, A. (2011). Moisture Swing Sorbent for Carbon Dioxide Capture from Ambient Air. Environ. Sci. Technol., 45, 6670 6675.
Zeman, F. (2007) .Energy and material balance of CO2 capture from ambient air. Environ. Sci. Technol., 41(21), 7558-7563.

APA	TALAPATRA A (2019). Thermodynamic and Kinetic Desorption Analysis on Direct Air Capture of CO2 Gas Using Moisture Swing Sorbent. , 186 - 191. 10.30897/ijegeo.526921
Chicago	TALAPATRA Akash Thermodynamic and Kinetic Desorption Analysis on Direct Air Capture of CO2 Gas Using Moisture Swing Sorbent. (2019): 186 - 191. 10.30897/ijegeo.526921
MLA	TALAPATRA Akash Thermodynamic and Kinetic Desorption Analysis on Direct Air Capture of CO2 Gas Using Moisture Swing Sorbent. , 2019, ss.186 - 191. 10.30897/ijegeo.526921
AMA	TALAPATRA A Thermodynamic and Kinetic Desorption Analysis on Direct Air Capture of CO2 Gas Using Moisture Swing Sorbent. . 2019; 186 - 191. 10.30897/ijegeo.526921
Vancouver	TALAPATRA A Thermodynamic and Kinetic Desorption Analysis on Direct Air Capture of CO2 Gas Using Moisture Swing Sorbent. . 2019; 186 - 191. 10.30897/ijegeo.526921
IEEE	TALAPATRA A "Thermodynamic and Kinetic Desorption Analysis on Direct Air Capture of CO2 Gas Using Moisture Swing Sorbent." , ss.186 - 191, 2019. 10.30897/ijegeo.526921
ISNAD	TALAPATRA, Akash. "Thermodynamic and Kinetic Desorption Analysis on Direct Air Capture of CO2 Gas Using Moisture Swing Sorbent". (2019), 186-191. https://doi.org/10.30897/ijegeo.526921

APA	TALAPATRA A (2019). Thermodynamic and Kinetic Desorption Analysis on Direct Air Capture of CO2 Gas Using Moisture Swing Sorbent. International Journal of Environment and Geoinformatics, 6(2), 186 - 191. 10.30897/ijegeo.526921
Chicago	TALAPATRA Akash Thermodynamic and Kinetic Desorption Analysis on Direct Air Capture of CO2 Gas Using Moisture Swing Sorbent. International Journal of Environment and Geoinformatics 6, no.2 (2019): 186 - 191. 10.30897/ijegeo.526921
MLA	TALAPATRA Akash Thermodynamic and Kinetic Desorption Analysis on Direct Air Capture of CO2 Gas Using Moisture Swing Sorbent. International Journal of Environment and Geoinformatics, vol.6, no.2, 2019, ss.186 - 191. 10.30897/ijegeo.526921
AMA	TALAPATRA A Thermodynamic and Kinetic Desorption Analysis on Direct Air Capture of CO2 Gas Using Moisture Swing Sorbent. International Journal of Environment and Geoinformatics. 2019; 6(2): 186 - 191. 10.30897/ijegeo.526921
Vancouver	TALAPATRA A Thermodynamic and Kinetic Desorption Analysis on Direct Air Capture of CO2 Gas Using Moisture Swing Sorbent. International Journal of Environment and Geoinformatics. 2019; 6(2): 186 - 191. 10.30897/ijegeo.526921
IEEE	TALAPATRA A "Thermodynamic and Kinetic Desorption Analysis on Direct Air Capture of CO2 Gas Using Moisture Swing Sorbent." International Journal of Environment and Geoinformatics, 6, ss.186 - 191, 2019. 10.30897/ijegeo.526921
ISNAD	TALAPATRA, Akash. "Thermodynamic and Kinetic Desorption Analysis on Direct Air Capture of CO2 Gas Using Moisture Swing Sorbent". International Journal of Environment and Geoinformatics 6/2 (2019), 186-191. https://doi.org/10.30897/ijegeo.526921