| 期刊論文| 1. | Wall, T. F.(2007)。Combustion processes for carbon capture。Proceedings of the Combustion Institute,31(1),31-47。   | | 2. | 徐恆文、陳威丞、張名惠、周揚震(20140300)。鈣迴路捕獲二氧化碳技術。臺灣能源期刊,1(2),145-155。 延伸查詢 | | 3. | Chisti, Y.(2007)。Biodiesel from microalgae。Biotechnology Advances,25(3),294-306。 | | 4. | Cuéllar-Franca, R. M.、Azapagic, A.(2015)。Carbon capture, storage and utilisation technologies: A critical analysis and comparison of their life cycle environmental impacts。Journal of CO2 Utilization,9,82-102。 | | 5. | Mondal, M.(2017)。Production of biodiesel from microalgae through biological carbon capture: a review。3 Biotech,7(2),99-120。 | | 6. | Alonso, M.、Arias, B.、Mendez, A.、Fuentes, F.、Abanades, J. C.(2017)。Screening CO2 capture test for cement plants using a lab scale calcium looping pilot facility。Energy Procedia,114,53-56。 | | 7. | Arias, B.、Abanades, J. C.、Grasa, G. S.(2011)。An analysis of the effect of carbonation conditions on CaO deactivation curves。Chemical Engineering Journal,167,255-261。 | | 8. | 張育誠、吳國光、焦鴻文、簡國祥、歐陽湘(20150900)。富氧燃燒技術之應用與分析。臺灣能源期刊,2(3),323-331。 延伸查詢 | | 9. | Bouma, R.、Vercauteren, F.、van Os, P.、Goetheer, E.、Berstad, D.、Anantharaman, R.(2017)。Membrane-assisted CO2 liquefaction: performance modelling of CO2 capture from flue gas in cement production。Energy Procedia,114,72-80。 | | 10. | Blamey, J.、Anthony, E. J.、Wang, J.、Fennell, P. S.(2010)。The calcium looping cycle for large-scale CO2 capture。Progress in Energy and Combustion Science,36,260-279。 | | 11. | Erans, M.、Manovic, V.、Anthony, E. J.(2016)。Calcium looping sorbents for CO2 capture。Applied Energy,180,722-742。 | | 12. | Erans, M.、Feremias, M.、Zheng, L.、Yao, J. G.、Blamey, J.、Manovic, V.、Fennell, P. S.、Anthony, E. J.(2018)。Pilot testing of enhanced sorbents for calcium looping with cement production。Applied Energy,225,392-401。 | | 13. | Dominguez-Bocanegra, A. R.、Legarreta, I. G.、Jeronimo, F. M.、Campocosio, A. T.(2004)。Influence of environmental and nutritional factors in the production of astaxanthin from Haematococcus pluvialis。Bioresource Technology,92,209-214。 | | 14. | Hornberger, M.、Sporl, R.、Scheffknecht, G.(2017)。Calcium looping for CO2 capture in cement plants--pilot scale test。Energy Proceda,114,6171-6174。 | | 15. | Hornberger, M.、Moreno, J.、Schmid, M.、Scheffknecht, G.(2021)。Experimental investigation of the calcination reactor in a tail-end calcium looping configuration for CO2 capture from cement plants。Fuel,284。 | | 16. | Jajesniak, P.、Omar Ali, H. E. M.、Wong, T. S.(2014)。Carbon dioxide capture and utilization using biological systems: opportunities and challenges。Journal of Bioprocessing & Biotechniques,4,155-170。 | | 17. | Jordal, K.、Voldsund, M.、Storset, S.、Fleiger, K.、Ruppert, J.、Sporl, R.、Hornberger, M.、Cinti, G.(2017)。CEMCAP--making CO2 capture retrofittable to cement plants。Energy Procedia,114,6175-6180。 | | 18. | Khoo, K. S.、Lee, S. Y.、Ooi, C. W.、Fu, X.、Miao, X.、Ling, T. C.、Show, P. L.(2019)。Recent advances in biorefinery of astaxanthin from Haematococcus pluvialis。Bioresource Technology,288,(121606)1-(121606)11。 | | 19. | Klinthong, W.、Yang, Y. H.、Huang, C. H.、Tan, C. S.(2015)。A review: microalgae and their applications in CO2 capture and renewable energy。Aerosol and Air Quality Research,15,712-742。 | | 20. | Lena, E. D.、Spinelli, M.、Martínez, I.、Gatti, M.、Scaccabarozzi, R.、Cinti, G.、Romano, M. C.(2017)。Process integration study of tail-end Ca-looping process for CO2 capture in cement plants。International Journal of Greenhouse Gas Control,67,71-92。 | | 21. | Lena, E. D.、Spinelli, M.、Martínez, I.、Gatti, M.、Scaccabarozzi, R.、Campanari, S.、Consonni, S.、Cinti, G.、Romano, M. C.(2019)。Techno-economic analysis of calcium looping processes for low CO2 emission cement plants。International Journal of Greenhouse Gas Control,82,244-260。 | | 22. | Lysikov, A. I.、Salanov, A. N.、Okunev, A. G.(2007)。Change of CO2 carrying capacity of CaO in isothermal recarbonation-decomposition cycles。Industrial & Engineering Chemistry Research,46,4633-4638。 | | 23. | Nagao, T.、Fukami, T.、Horita, Y.、Komemushi, S.、Sugihara, A.、Shimada, Y.(2003)。Enzymatic enrichment of astaxanthin from Haematococcus pluvialis cell extracts。Journal of Oil & Fat Industries,80,975-981。 | | 24. | Perez-Calvo, J. F.、Sutter, D.、Gazzani, M.、Mazzotti, M.(2017)。Application of a chilled ammonia-based process for CO2 capture to cement plants。Energy Procedia,114,6197-6205。 | | 25. | Płaczek, M.、Patyna, A.、Witczak, S.(2017)。Technical evaluation of photobioreactors for microalgae cultivation。E3S Web of Conferences,19,(2032)1-(2032)10。 | | 26. | Singh, J.、Dhar, D. W.(2019)。Overview of carbon capture technology: microalgal biorefinery concept and state-of-the-art。Frontiers in Science,6,(29)1-(29)9。 | | 27. | Spinelli, M.、Martínez, I.、De Lena, E.、Cinti, G.、Hornberger, M.、Spörl, R.、Abanades, J. C.、Becker, S.、Mathai, R.、Fleiger, K.、Hoenig, V.、Gatti, M.、Scaccabarozzi, R.、Campanari, S.、Consonni, S.、Romano, M. C.(2017)。Integration of Ca-looping systems for CO2 capture in cement plants。Energy Procedia,114,6206-6214。 | | 28. | Wayama, M.、Ota, S.、Matsuura, H.、Nango, N.、Hirata, A.、Kawano, S.(2013)。Three-dimensional ultrastructural study of oil and astaxanthin accumulation during encystment in the green alga Haematococcus pluvialis。Plos One,8,(e53618)1-(e53618)9。 | 會議論文| 1. | Baburao, B.、Kniesburger, P.、Lombardo, G.(2015)。Chilled ammonia process operation and results from pilot plant at technology centre Mongstad。8th Trondheim Conference on CO2 Capture, Transport and Storage。 | | 2. | Jordal, K.(2015)。CEMCAP--a horizon 2020 project on CO2 capture from cement production。SCCS Workshop on Industrial CCS。SINTEF Energy Research。 | 研究報告| 1. | Bollinger, R.、Muraskin, D.、Hammond, M.、Kozak, F.、Spitznogle, G.、Cage, M.、Sherrick, B.、Varner, M.(2015)。CCS project with Alstom's chilled ammonia process at AEP's Mountaineer plant。 | 圖書| 1. | Intergovernmental Panel on Climate Change(2013)。Climate change 2013: the physical science basis。Cambridge University Press。 | | 2. | United Nations Environment Program(2020)。Emissions Gap Report 2020。UNEP。 | | 3. | Fan, L. S.(2010)。Chemical looping systems for fossil energy conversions。John Wiley & Sons, Inc.。 | | 4. | European IPPC Bureau(2013)。Best available techniques (BAT) reference document for the production of cement, lime, and magnesium oxide。Joint Research Centre, European IPPC Bureau。 | | 5. | Huijgen, W.(2007)。Carbon dioxide sequestration by mineral carbonation。Energy Research Centre, Wageningen University。 | | 6. | Neville, A. M.(2011)。Properties of Concrete。Pearson Education, Inc.。 | | 7. | Quadrelli, E. A.、Armstrong, K.、Styring, P.(2015)。Potential CO2 utilization contributions to a more carbon-sober future: a 2050 vision。Elsevier B.V.。 | | 8. | Tebbani, S.、Lopes, F.、Filali, R.、Dumur, D.、Pareau, D.(2014)。CO2 biofixation by microalgae。John Wiley & Sons, Inc.。 | | 9. | Styring, P.、Jansen, D.、de Coninck, H.、Reith, H.、Armstrong, K.(2011)。Carbon capture and utilization in the green economy。Centre for Low Carbon Futures, The University of Sheffield。 | | 10. | USGS(2021)。Mineral Commodity Summaries 2021。 | 單篇論文| 1. | Berstad, D.,Tradal, S.(2018)。Membrane-assisted CO2 liquefaction for CO2 capture from cement plants (D11.3),SINTEF Energy Research。 | | 2. | Perez-Calvo, J. F.,Sutter, D.,Gazzani, M.,Mazzotti, M.(2018)。Chilled ammonia process optimization and comparison with pilot plant tests (D10.3),ETH Zurich。 | 其他| 1. | 台灣水泥股份有限公司(2020)。台灣水泥企業社會責任報告書,https://media.taiwancement.com/web_tcc/tw/report/csr/report_2020_all.pdf。 延伸查詢 | | 2. | Ellen MacArthur Foundation(2019)。Completing the picture how the circular economy tackle climate change。 | | 3. | Global CCS Institute(2020)。Global Status of CCS Report 2020。 | | 4. | IEA(20180406)。Cement technology roadmap plots path to cutting CO2 emissions 24% by 2050,https://www.iea.org/newsroom/news/2018/april/cement-technology-roadmap-plots-path-to-cutting-co2-emissions-24-by-2050.html。 | | 5. | IPCC(2018)。Global Warming of 1.5℃,https://www.ipcc.ch/sr15/download/。 | | 6. | IPCC(2021)。Climate Change 2021: The Physical Science Basis,https://www.ipcc.ch/report/ar6/wg1/#FullReport。 | | 7. | ISBT(2006)。Fountain carbon dioxide quality guideline,International Society of Beverage Technologists。 | | 8. | Jamali, A.,Fleiger, K.,Ruppert, J.,Hoenig, V.,Anantharaman, R.(2018)。Optimised operation of an oxyfuel cement plant (D6.1),VDZ GmbH。 | | 9. | Monteiro, J.,Goetheer, E.,Schols, E.,van Os, P.,Calvo, J.,Hoppe, H.,Bharadwaj, H.,Roussanaly, S.,Khakharia, P.,Feenstra, M.,de Jong, A.(2018)。Post-capture CO2 management: options for the cement industry (D5.1),TNO。 | | 10. | NETL(2010)。Carbon dioxide enhanced oil recovery,National Energy Technology Laboratory。 | |