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題名:水泥業邁向淨零排放技術研析--以碳捕獲與利用技術為例
書刊名:臺灣能源期刊
作者:周宜雄周麗芳李堅明
作者(外文):Chou, Yi-shyongChou, Li-fangLee, Chien-ming
出版日期:2021
卷期:8:4
頁次:頁391-410
主題關鍵詞:淨零排放碳捕獲與利用水泥產業循環經濟Net zero emissionCarbon capture and useCCUCement industryCircular economy
原始連結:連回原系統網址new window
相關次數:
  • 被引用次數被引用次數:期刊(0) 博士論文(0) 專書(0) 專書論文(0)
  • 排除自我引用排除自我引用:0
  • 共同引用共同引用:2
  • 點閱點閱:1
期刊論文
1.Wall, T. F.(2007)。Combustion processes for carbon capture。Proceedings of the Combustion Institute,31(1),31-47。  new window
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。new window  延伸查詢new window
3.Chisti, Y.(2007)。Biodiesel from microalgae。Biotechnology Advances,25(3),294-306。  new window
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。  new window
5.Mondal, M.(2017)。Production of biodiesel from microalgae through biological carbon capture: a review。3 Biotech,7(2),99-120。  new window
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。  new window
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。  new window
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。new window  延伸查詢new window
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。  new window
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。  new window
11.Erans, M.、Manovic, V.、Anthony, E. J.(2016)。Calcium looping sorbents for CO2 capture。Applied Energy,180,722-742。  new window
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。  new window
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。  new window
14.Hornberger, M.、Sporl, R.、Scheffknecht, G.(2017)。Calcium looping for CO2 capture in cement plants--pilot scale test。Energy Proceda,114,6171-6174。  new window
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。  new window
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。  new window
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。  new window
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。  new window
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。  new window
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。  new window
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。  new window
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。  new window
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。  new window
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。  new window
25.Płaczek, M.、Patyna, A.、Witczak, S.(2017)。Technical evaluation of photobioreactors for microalgae cultivation。E3S Web of Conferences,19,(2032)1-(2032)10。  new window
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。  new window
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。  new window
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。  new window
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。  new window
2.Jordal, K.(2015)。CEMCAP--a horizon 2020 project on CO2 capture from cement production。SCCS Workshop on Industrial CCS。SINTEF Energy Research。  new window
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。  new window
圖書
1.Intergovernmental Panel on Climate Change(2013)。Climate change 2013: the physical science basis。Cambridge University Press。  new window
2.United Nations Environment Program(2020)。Emissions Gap Report 2020。UNEP。  new window
3.Fan, L. S.(2010)。Chemical looping systems for fossil energy conversions。John Wiley & Sons, Inc.。  new window
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。  new window
5.Huijgen, W.(2007)。Carbon dioxide sequestration by mineral carbonation。Energy Research Centre, Wageningen University。  new window
6.Neville, A. M.(2011)。Properties of Concrete。Pearson Education, Inc.。  new window
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.。  new window
8.Tebbani, S.、Lopes, F.、Filali, R.、Dumur, D.、Pareau, D.(2014)。CO2 biofixation by microalgae。John Wiley & Sons, Inc.。  new window
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。  new window
10.USGS(2021)。Mineral Commodity Summaries 2021。  new window
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。  new window
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。  new window
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new window
2.Ellen MacArthur Foundation(2019)。Completing the picture how the circular economy tackle climate change。  new window
3.Global CCS Institute(2020)。Global Status of CCS Report 2020。  new window
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。  new window
5.IPCC(2018)。Global Warming of 1.5℃,https://www.ipcc.ch/sr15/download/。  new window
6.IPCC(2021)。Climate Change 2021: The Physical Science Basis,https://www.ipcc.ch/report/ar6/wg1/#FullReport。  new window
7.ISBT(2006)。Fountain carbon dioxide quality guideline,International Society of Beverage Technologists。  new window
8.Jamali, A.,Fleiger, K.,Ruppert, J.,Hoenig, V.,Anantharaman, R.(2018)。Optimised operation of an oxyfuel cement plant (D6.1),VDZ GmbH。  new window
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。  new window
10.NETL(2010)。Carbon dioxide enhanced oil recovery,National Energy Technology Laboratory。  new window
 
 
 
 
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