Microalgae-based Carbon Capture Technology

• Autorzy: Zabochnicka-Świątek M.
• Języki publikacji: EN

Słowa kluczowe

EN

CO2 capture; microalgae; biomass

• Wydawca: Komitet Termodynamiki i Spalania PAN
• Czasopismo: Archivum Combustionis
• Rocznik: 2012
• Tom: Vol. 32 nr 1-2
• Strony: 3--16
• Opis fizyczny: Bibliogr. 25 poz., rys., tab.

Twórcy

autor

Zabochnicka-Świątek M.

• Institute of Environmental Engineering, CzestochowaUniversity of Technology Brzeźnicka 60A, 42-200 Czestochowa, Poland

Bibliografia

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• [2] Ono, E., Cuello, J.L.,Selection of optimal microalgae species for CO2 sequestration, “New Phytologist”, 2001, pp. 1-7.
• [3] Malińska, K., Zabochnicka-Świątek, M.,Biosystems for Air Protection, In: Air Pollution, (Ed.) V. Villanyi, Sciyo, 2010, 177-193.
• [4] Ju-No, L., Jin-Suk L., Chul-Seung, S., Soon-Chul, P., Seung-Wook, K.,Methods to Enhance Tolerances of Chlorella KR-1 to Toxic Compounds in Flue Gas, “Applied Biochemistry and Biotechnology”, 2000, 84–86, pp. 329-342.
• [5] Ho, S-H., Chen, C-Y., Lee, D-J., Chang, J-S.,Perspectives on microalgal CO2-emission mitigation systems – A review, “Biotechnology Advances”, 2011, 29, pp. 189–198.
• [6] Brown, L.M.,Uptake of carbon dioxide from flue gas by microalgae, Pergamon, Energy Convers., 1996, 37, pp. 1363-1367.
• [7] Armor, J.N.,Catalytic solutions to reduce pollutants, “Catalysis Today”, 1997,pp. 163-167.
• [8] Wagner, L.,Carbon capture and storage (CCS) techniques, Clean Energy/Clean Technology Research Report 2007, pp. 1-7.
• [9] Kumar, K., Dasgupta ,C.N., Nayak, B., Lindblad, P., Das, D., Development of suitable photobioreactors for CO2 sequestration addressing global warming using green algae and cyanobacteria, "Bioresource Technology", 2011, 102, pp. 4945-4953.
• [10] Abhay, B., Fulke, S.N., Mudliar, R. Y., Shekh, A., Srinivasan, N., Ramanan, R., Krishnamurthi, K., Devi, S.S., Chakrabarti, T.,Bio-mitigation of CO2, calcite formation and simultaneous biodiesel precursors production using Chlorella sp., "Bioresource Technology", 2010, 101, pp. 8473–8476.
• [11] Kumar, A., Ergas, S., Yuan, X., Sahu, A., Zhang, Q., Dewulf, J., Malcata, F.X., van Langenhove, H.,Enhanced CO2 fixation and biofuel production via microalgae: recent developments and future directions, Trends in Biotechnology, 2010, 28, 7, pp. 371-380.
• [12] Bernard, O.,Hurdles and challenges for modelling and control of microalgae for CO2 mitigation and biofuel production, "Journal of Process Control",2011, 21, pp.1378– 1389.
• [13] Wang, B.,Li, Y., Wu, N., Lan, C.Q.,CO2 bio-mitigation using microalgae, “Appl. Microbiol. Biotechnol.”, 2008, 79, pp. 707–718.
• [14] Chiu, S-Y., Tsai, M-T., Kao, C-Y., Ong, S-C., Lin, C-S., The air-lift photobioreactors with flow patterning for high-density cultures of microalgae and carbon dioxide removal, “Eng. Life Sci.”, 2009, 9,3, pp. 254-260.
• [15] Tang, D., Han, W., Li, P., Miao,X., Zhong, J.,CO2 biofixation and fatty acid composition of Scenedesmus obliquus and Chlorella pyrenoidosa in response to different CO2 levels.,"Biorecoure Technology", 2011, 102, pp. 3071-3076.
• [16] Yanagi, M.,Watanabe, Y., Saiki, H.,CO2 fixation by Chlorella sp. HA-1 and its utilization, “Energy Convers. Mgmt”, 1995, 36,6-9,1, pp. 713-716.
• [17] Sung, K-D.,Lee, J-S., Shin, C-S., Park, S-C., Choi, M-J.,CO2 fixation by Chlorella sp KR-1 and its cultural characteristics, "Bioresource Technology", 1999, 68, pp. 269-273.
• [18] Cheng, L., Zhang, L., Chen, H., Gao, C.,Carbon dioxide removal from air by microalgae cultured in a membrane-photobioreactor,“Separation and Purification Technology”,2006, 50, pp. 324-329.
• [19] De Morais, M.G., Costa, J.A.V.,Isolation and selection of microalgae from coal fired thermoelectric power plant for biofixation of carbon dioxide,“Energy Conversion and Management”, 2007, 48, pp. 2169-2173.
• [20] Sung, K.D., Lee, J.S.,Shin, C.S., Park, S.C.,Isolation of an new highly CO2 tolerant fresh water microalga Chlorella sp. KR-1,“Renewable Energy”,1999, 16, pp. 1019-1022.
• [21] Zeng, X., Danquan, M.K., Chen, X.D., Lu, Y.,Microalgae bioengineering: From CO2 fixation to biofuel production, “Renevable and Sustainable Energy Reviews”, 2011, 15, pp. 3252-3260.
• [22] Olaizola, M., Bridges, T., Flores, S., Griswold, L., Merency, J., Nakamura, T.,Microalgal removal of CO2 from flue gases: CO2 capture from a coal combustor, Third Annual Conference on Carbon Capture and Sequestration, Alexandria, VA, 2004, 10 p.
• [23] Lopes, E.J. ,Scoparo, C.H.G., Queiroz, M.I., Franco, T.T.,Biotransformations of carbon dioxide in photobioreactors, "Energy Conversion and Management", 2010, 51, pp. 894–900.
• [24] Andrews, R., Liu, K., Crocker, M., Crofcheck, C., Shea, A.,Feasibility of Capture & Utilization of CO2 from Kentucky Power Plants by Algae Systems, University of Kentucky, GOEP Seed Grant: P02 0700006898 1, 2008.
• [25] Muhs, J., Viamajala, S., Heydorn, B., Edwards, M., Hu, Q., Hobbs, R., Allen, M., Smith, D.B., Zink, T., Bayless, D., Cooksey, K., Kuritz, T., Crocker, M.,Morton, S., Sears, J., Daggett, D., Hazlebeck, D.,Hassenia, J.,Algae biofuels and carbon recycling - A summary of opportunities, challenges, and research needs, contributors. Report from Utah State University, (www.utah.gov/ustar/documents/63.pdf), 16p. 2009, 16 p.