최소 단어 이상 선택하여야 합니다.
최대 10 단어까지만 선택 가능합니다.
다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
NTIS 바로가기멤브레인 = Membrane Journal, v.31 no.6, 2021년, pp.456 - 470
권현웅 (경상국립대학교 고분자공학과) , 임광섭 (경상국립대학교 나노신소재융합공학과) , 김지현 (경상국립대학교 나노신소재융합공학과) , 김성헌 (경상국립대학교 나노신소재융합공학과) , 김도형 (경상국립대학교 그린에너지융합연구소) , 남상용 (경상국립대학교 고분자공학과)
In this study, polyetherimide-based hollow fiber membranes were manufactured using the NIPS (nonsolvent induced phase separation) method. THF, Ethanol, and LiNO3 were used as additives to control the morphology of the PEI-hollow fiber membranes. Furthermore, for the development of a high hydrogen se...
A. Midilli, M. Ay, I. Dincer, and M. A. Rosen, "On hydrogen and hydrogen energy strategies I: Current status and needs", Renew. Sust. Energ. Rev., 9, 3, 255-271 (2005).
Y. H. Park, D. Lee, C. Kim, K. Kang, and Y. Choi, "Characteristics of LPG Fuel Reforming Utilizing Plasma Reformer", J. Korean Inst. Met. Mater., 16, 6, 17-22 (2012).
H. K. Song, J. W. Choi, H. Lee, S. S. Kim, and B. K. Na, "Preparation of Synthesis Gas from Methane in a Capacitive rf Discharge", Clean Tech., 12, 3, 138-144 (2006).
Y. N. Chun and S. C. Kim, "Production of hydrogen-rich gas from methane by thermal plasma reform", J Air Waste Manag Assoc, 57, 12, 1447-1451 (2007).
S. Sircar and T. C. Golden, "Purification of hydrogen by pressure swing adsorption", Sep Sci Technol, 35, 5, 667-687 (2000).
S. Sircar, "Production of hydrogen and ammonia synthesis gas by pressure swing adsorption", Sep Sci Technol, 25, 11-12, 1087-1099 (1990).
R. Bhattacharyya, K. Bhanja, and S. Mohan, "Simulation studies of the characteristics of a cryogenic distillation column for hydrogen isotope separation", Int. J. Hydrog. Energy, 41, 9, 5003-5018 (2016).
A. Hasanoglu, I. Demirci, and A. Secer, "Hydrogen production by gasification of Kenaf under subcritical liquid-vapor phase conditions", Int. J. Hydrog. Energy, 44, 27, 14127-14136 (2019).
Ozcan and A. N. Akin, "Thermodynamic analysis of methanol steam reforming to produce hydrogen for HT-PEMFC: an optimization study", Int. J. Hydrog. Energy, 44, 27, 14117-14126 (2019).
G. Solowski, M. S. Shalaby, H. Abdallah, A. M. Shaban, and A. Cenian, "Production of hydrogen from biomass and its separation using membrane technology", Renew. Sust. Energ. Rev., 82, 3152-3167 (2018).
Y. Li and T. S. Chung, "Highly selective sulfonated polyethersulfone (SPES)-based membranes with transition metal counterions for hydrogen recovery and natural gas separation", J. Membr. Sci., 308, 1-2, 128-135 (2008).
J. H. Kim, J. W. Rhim, and S. B. Lee, "Research trend of membrane technology for separation of carbon dioxide from flue gas", Membr. J., 12, 3, 121-142 (2002).
E. Favre, "Comprehensive Membrane Science and Engineering", E. Drioli, L. Giomo and E. Fontananova, 159-167, Elsevier (2017).
M. Maarefian, S. Bandehali, S. Azami, H. Sanaeepur, and A. Moghadassi, "Hydrogen recovery from ammonia purge gas by a membrane separator: A simulation study", Int, J. Energ. Res., 43, 14, 8217-8229 (2019).
H. Z. Chen and T. Chung, "CO2-selective membranes for hydrogen purification and the effect of carbon monoxide (CO) on its gas separation performance", Int. J. Hydrogen Energy, 37, 7, 6001-6011 (2012).
T. Graham, "On the absorption and dialytic separation of gases by colloid septa Part I.-Action of a septum of caoutchouc", J. Membr. Sci., 100, 1, 27-31 (1995).
M. V. Goltsova, Y. A. Artemenko, G. I. Zhirov, and V. I. Zaitsev, "Video-investigation of reverse hydride transformation in the Pd-H system", Int. J. Hydrog. Energy, 27, 7-8, 757-763 (2002).
E. S. Ryi and J. S. Park, "Research trend of Pdbased hydrogen membrane", J. Ind. Eng. Chem., 14, 3, 46-53 (2011).
S. I. Jeon, J. H. Park, and Y. T. Lee, "Fabrication of Pd/YSZ Cermet Membrane for Hydrogen Separation", Membr. J., 21, 2, 148-154 (2011).
E. P. Favvas, G. C. Kapantaidakis, J. W. Nolan, A. C. Mitropoulos, and N. K. Kanellopoulos, "Preparation, characterization and gas permeation properties of carbon hollow fiber membranes based on MatrimidⓇ5218 precursor", J. Mater. Process. Technol., 186, 102 (2007).
K. H. Seong, J. S. Song, H. C. Koh, S. Y. Ha, M. H. Han, and C. H. Cho, "Effect of Carbonization Conditions on Gas Permeation of Methyl Imide Based Carbon Molecular Sieve Hollow Fiber Membranes", Membr. J., 23, 5, 332-342 (2013).
X. Y. Chen, S. Kaliaguine, and D. Rodrigue, "A Comparison between Several Commercial Polymer Hollow Fiber Membranes for Gas Separation", J. Membr. Sep. Technol., 6, 1, 1-15 (2017).
W. I Son and B. S. Kim, "Study on the Effect of Non-Solvent Additive in the Preparation of the Poly(etherimide) Hollow Fiber Membrane", Korean J. Chem. Eng., 39, 4, 397-403 (2001).
Z. K. Xu, L. Q. Shen, Q. Yang, F. Liu, S. Y. Wang, and Y. Y. Xu, "Ultrafiltration hollow fiber membranes from poly(ether imide): preparation, morphologies and properties", J. Membr. Sci., 223, 1-2, 105-118 (2003).
S. Husain, "Mixed matrix dual layer hollow fiber membranes for natural gas separation", Ph.D. Dissertation, Georgia Institute of Technology, Atlanta (2006).
J. T. Chung, C. S. Lee, H. C. Koh, S. Y. Ha, S. Y. Nam, and W. J. Jo, "Polymeric Membrane Modules for Substituting the CO 2 Absorption Column in the DME Plant Process", Membr. J., 22, 2, 142-154 (2012).
T. S. Chung, S. K. Teoh, and X. Hu, "Formation of ultrathin high-performance polyethersulfone hollow-fiber membranes", J. Membr. Sci., 133, 2, 161-1754 (1997).
*원문 PDF 파일 및 링크정보가 존재하지 않을 경우 KISTI DDS 시스템에서 제공하는 원문복사서비스를 사용할 수 있습니다.
오픈액세스 학술지에 출판된 논문
※ AI-Helper는 부적절한 답변을 할 수 있습니다.