Research Article
Year 2018,
Volume: 7 Issue: 2, 207 - 219, 28.12.2018
Abstract
References
- [1] Başaran, M., Karbondioksit (CO2) tutma ve depolama, TMMOB Türkiye VI. Enerji Sempozyumu - Küresel Enerji Politikaları ve Türkiye Gerçeği, 442-456, 2007.[2] Aresta, M., Dibenedetto, A., Quaranta, E., Reaction Mechanisms in Carbon Dioxide Conversion, Berlin: Springer, 2015.[3] Lackner, K. S., Wendt, C. H., Butt, D. P., Joyce, E. L., Sharp, D. H., Carbon dioxide disposal in carbonate minerals, Energy, 20, 11, 1153-1170, 1995.[4] Seinfeld, J. H., Pandis, S. N., Atmospheric chemistry and physics: from air pollution to climate change: John Wiley & Sons., 2016. [5] Seifritz, W., CO2 disposal by means of silicates, Nature, 345, 486, 1990. [6] D'Alessandro, D. M., Smit, B., Long, J. R., Carbon dioxide capture: prospects for new materials, Angewandte Chemie International Edition, 49, 35, 6058-6082, 2010. [7] Goeppert, A., Czaun, M., Prakash, G. S., Olah, G. A., Air as the renewable carbon source of the future: an overview of CO2 capture from the atmosphere, Energy & Environmental Science, 5, 7, 7833-7853, 2012. [8] Kumar, A., Madden, D. G., Lusi, M., Chen, K. J., Daniels, E. A., Curtin, T., Perry, J. J., Zaworotko, M. J., Direct air capture of CO2 by physisorbent materials, Angewandte Chemie International Edition, 54, 48, 14372-14377, 2015.[9] Park, S., Song, K., Jeon, C. W., A study of mineral recovery from waste ashes at an incineration facility using the mineral carbonation method, International Journal of Mineral Processing, 155, 1-5, 2016. [10] Dirar, Q. H., Loughlin, K. F., Intrinsic adsorption properties of CO2 on 5A and 13X zeolite, Adsorption, 19, 6, 1149-1163, 2013. [11] Orhan, O. Y., Alper, E., Kinetics of Carbon Dioxide Binding by Promoted Organic Liquids, Chemical Engineering & Technology, 38, 8, 1485-1489, 2015.[12] Orhan, O. Y., Tankal, H., Kayi, H., Alper, E., Kinetics of CO2 capture by carbon dioxide binding organic liquids: Experimental and molecular modelling studies, International Journal of Greenhouse Gas Control, 49, 379-386, 2016.[13] Orhan, O. Y., Ume, C. S., Alper, E., The Absorption Kinetics of CO2 into Ionic Liquid—CO2 Binding Organic Liquid and Hybrid Solvents. Energy Efficient Solvents for CO2 Capture by Gas-Liquid Absorption, Springer: 241-261, 2017. [14] Zeman, F. S., Lackner, K. S., Capturing carbon dioxide directly from the atmosphere, World Resource Review, 16, 2, 157-172, 2004. [15] Ünveren, E. E., Monkul, B. Ö., Sarıoğlan, Ş., Karademir, N., Alper, E., Solid amine sorbents for CO2 capture by chemical adsorption: A review, Petroleum, 3, 1, 37-50, 2016.[16] Wang, T., Lackner, K. S., Wright, A., Moisture swing sorbent for carbon dioxide capture from ambient air, Environmental science & technology, 45, 15, 6670-6675, 2011. [17] Wang, T., Liu, J., Fang, M., Luo, Z., A moisture swing sorbent for direct air capture of carbon dioxide: Thermodynamic and kinetic analysis, Energy Procedia, 37, 6096-6104, 2013.[18] Keith, D. W., Why capture CO2 from the atmosphere?, Science, 325, 5948, 1654-1655, 2009.
Year 2018,
Volume: 7 Issue: 2, 207 - 219, 28.12.2018
Abstract
Sanayileşmenin
ve tüketimin hız kesmeden devam etmesi sonucu açığa çıkan her türlü atık (sera
gazları, fırın atıkları/proses atıkları) çevrede çeşitli kirliliklere sebep
olmaktadır. Yakın gelecekte atmosferdeki sera gazı miktarının ivmeli artışıyla
çok ciddi iklim değişikliklerinin yaşanabileceği beklenmektedir. Bu sebeple atmosferdeki
en önemli sera gazlarından birisi olan karbondioksit gazının tutulması ve
depolanmasına gün geçtikçe ihtiyaç artmaktadır. Bu çalışma da; sentetik olarak
hazırlanmış alkali çözeltilerin karbondioksit tutma kapasitesine etki eden
parametreler incelenmiştir. Sentetik çözeltiler hazırlanırken ülkemizdeki fırın
atıklarının (cüruflar) kimyasal bileşiminden esinlenilmiştir. En iyi deney
şartlarının belirlenmesi için farklı konsantrasyonlara sahip çözeltiler hazırlanmış
ve alkil amin türevlerinin etkileri karşılaştırılarak elde edilen çökeltiler
çeşitli spektroskopik yöntemler ile karakterize edilmiştir.
References
- [1] Başaran, M., Karbondioksit (CO2) tutma ve depolama, TMMOB Türkiye VI. Enerji Sempozyumu - Küresel Enerji Politikaları ve Türkiye Gerçeği, 442-456, 2007.[2] Aresta, M., Dibenedetto, A., Quaranta, E., Reaction Mechanisms in Carbon Dioxide Conversion, Berlin: Springer, 2015.[3] Lackner, K. S., Wendt, C. H., Butt, D. P., Joyce, E. L., Sharp, D. H., Carbon dioxide disposal in carbonate minerals, Energy, 20, 11, 1153-1170, 1995.[4] Seinfeld, J. H., Pandis, S. N., Atmospheric chemistry and physics: from air pollution to climate change: John Wiley & Sons., 2016. [5] Seifritz, W., CO2 disposal by means of silicates, Nature, 345, 486, 1990. [6] D'Alessandro, D. M., Smit, B., Long, J. R., Carbon dioxide capture: prospects for new materials, Angewandte Chemie International Edition, 49, 35, 6058-6082, 2010. [7] Goeppert, A., Czaun, M., Prakash, G. S., Olah, G. A., Air as the renewable carbon source of the future: an overview of CO2 capture from the atmosphere, Energy & Environmental Science, 5, 7, 7833-7853, 2012. [8] Kumar, A., Madden, D. G., Lusi, M., Chen, K. J., Daniels, E. A., Curtin, T., Perry, J. J., Zaworotko, M. J., Direct air capture of CO2 by physisorbent materials, Angewandte Chemie International Edition, 54, 48, 14372-14377, 2015.[9] Park, S., Song, K., Jeon, C. W., A study of mineral recovery from waste ashes at an incineration facility using the mineral carbonation method, International Journal of Mineral Processing, 155, 1-5, 2016. [10] Dirar, Q. H., Loughlin, K. F., Intrinsic adsorption properties of CO2 on 5A and 13X zeolite, Adsorption, 19, 6, 1149-1163, 2013. [11] Orhan, O. Y., Alper, E., Kinetics of Carbon Dioxide Binding by Promoted Organic Liquids, Chemical Engineering & Technology, 38, 8, 1485-1489, 2015.[12] Orhan, O. Y., Tankal, H., Kayi, H., Alper, E., Kinetics of CO2 capture by carbon dioxide binding organic liquids: Experimental and molecular modelling studies, International Journal of Greenhouse Gas Control, 49, 379-386, 2016.[13] Orhan, O. Y., Ume, C. S., Alper, E., The Absorption Kinetics of CO2 into Ionic Liquid—CO2 Binding Organic Liquid and Hybrid Solvents. Energy Efficient Solvents for CO2 Capture by Gas-Liquid Absorption, Springer: 241-261, 2017. [14] Zeman, F. S., Lackner, K. S., Capturing carbon dioxide directly from the atmosphere, World Resource Review, 16, 2, 157-172, 2004. [15] Ünveren, E. E., Monkul, B. Ö., Sarıoğlan, Ş., Karademir, N., Alper, E., Solid amine sorbents for CO2 capture by chemical adsorption: A review, Petroleum, 3, 1, 37-50, 2016.[16] Wang, T., Lackner, K. S., Wright, A., Moisture swing sorbent for carbon dioxide capture from ambient air, Environmental science & technology, 45, 15, 6670-6675, 2011. [17] Wang, T., Liu, J., Fang, M., Luo, Z., A moisture swing sorbent for direct air capture of carbon dioxide: Thermodynamic and kinetic analysis, Energy Procedia, 37, 6096-6104, 2013.[18] Keith, D. W., Why capture CO2 from the atmosphere?, Science, 325, 5948, 1654-1655, 2009.
There are 1 citations in total.
Details
| Primary Language | Turkish |
|---|---|
| Journal Section | Araştırma Makalesi |
| Authors | |
| Publication Date | December 28, 2018 |
| Submission Date | April 25, 2018 |
| Acceptance Date | December 19, 2018 |
| Published in Issue | Year 2018 Volume: 7 Issue: 2 |
Bitlis Eren University
Journal of Science Editor
Bitlis Eren University Graduate Institute
Bes Minare Mah. Ahmet Eren Bulvari, Merkez Kampus, 13000 BITLIS
E-mail: fbe@beu.edu.tr