Z. Qi, A. Kaufman, “Improvement of water management by a microporous sublayer for PEM fuel cells”, J. Power Source, 109, 2002, pp. 38–46
Yunus A. Cengel, Michael A. Boles, “Thermodynamics An Engineering Approach (5/e), McGraw-Hill, 2010, pp. 651-712
Yu-Heng Chen, Chia-Yon Chen, Shum-chung Lee, “Technology forecasting and patent strategy of hydrogen energy and fuel cell technologies”, International journal of hydrogen energy, 36(2), 2011, pp. 6957-6969
Y. Shan, S.Y. Choe, “A high dynamic PEM fuel cell model with temperature effects”, J. Power Source, 145, 2005, pp. 30–39
Xia Zhang, “A Study on the Performance of Cooling Channels for air cooled PEMFC”, Chonnam National Uiversity, 2015
W. Yan, F. Chen, H. Wu, C. Soong, H. Chu, “Analysis of thermal and water management with temperature-dependent diffusion effects in membrane of proton exchange membrane fuel cells”, J. Power Source, 129, 2004, pp. 127–137
W. Sun, B.A. Peppley, K. Karan, “An improved two-dimensional agglomerate cathode model to study the influence of catalyst layer structural parameters”, Electrochim. Acta, 50, 2005, pp. 3359–3374
W. H. Ho, C. C. Hang, and L. S. Cao, “Tuning of PID Controllers Based on Gain and Phase Margin Specification”, Automatica, 31(3), 1995, pp. 497-502
Viral Mehta, Joyce Smith Cooper, “Review and analysis of PEM fuel cell design and manufacturing”, Journal fo Power Sources, 114, 2003, pp. 32-53
Ulrich Rost, Jeffrey Roth, Michael Brodmann, “Modular Polymer Electrolyte Membrane Fuel Cell and Electrolyser Stack Design with Hydraulic Compression”, 2015, S02.4
Ulrich Rost, Cristian Mutascu, Jeffrey Roth, Christoph Sagewka, Michael Brodmann, “Proof of Concept of a Novel PEM Fuel Cell Stack Design with Hydraulic Compression”, Journal of Energy and Power Engineering, 9, 2015, pp. 775-783
U. Pasaogullari, C.Y. Wang, K.S. Chen, “Two-phase transport in polymer electrolyte fuel cells with bilayer cathode gas diffusion media”, J. Electrochem. Soc., 152, 2005, A1574–A1582
T. Nguyen, R. White, “A water and heat management model for proton exchange membrane fuel cells”, J. Electrochem. Soc., 140, 1993, pp. 2178–2186
T. Berning, D.M. Lu, N. Djilali, “Three-dimensional computational analysis of transport phenomena in pem fuel cell”, J. Power Source, 106, 2002, pp. 284–294
Sungho Yun, Jae Ki Byun, Young Don Choi, “Numerical Study of Characteristic of Heat and Mass Transfer in Planar Membrane Humidifier According to Flow Direction”, Trans. Korean Soc. Mech. Eng. B, 37(5), 2013, pp, 503-511
Sung-Tack Hwang, “Characteristics Analysis and Production of Modular PEMFC with Metal Bipolar Plate”, Chonnam National Uiversity, 2013, pp. 24-33
Stephen J. Chapman, “Matlab programming for engineers”, THOMSON, 2007
Serenergy, “Distributed Power Generation”, Serenergy, http://serenergy.com/applications/distributed-generation/, 2016.03
Satish G. Kandlikar, Zijie Lu, “Thermal management issues in a PEMFC stack – A brief review of current status”, Applied Thermal Engineering, 29, 2009, pp. 1276–1280
S.J. Peighambardoust, S.Rowshanzamil, M.Amjadi, “Review of the proton exchange membrane for fuel cell applications”, International journal of hydrogen energy, 35(17), 2010, pp. 9349– 9384
S. Tsushima, K. Teranishi, S. Hirai, “Magnetic resonance imaging of the water distribution within a polymer electrolyte membrane in fuel cells”, Electrochem. Solid-State Lett., 7, 2004, A269–A272
S. Assabumrungrat, N. Ruangrassamee, S. Vivanpatarakij, N. Laosiripojana, A. Arpornwichanop, “Influence of stack arrangement on performance of multiple-stack solid oxide fuel cells with non-uniform potential operation”, Journal of Power Sources, 187, 2009, pp. 1–7
RYAN OHAYRE , SUK-WON CHA, WHITNEY COLELLA, FRITZ B. PRINZ, “Fuel Cell Fundamentals”, JOHN WILEY & SONS, 2008, pp. 1-251
R. Kuhn, Ph. Kr ger, S. Kleinau, M. Dawson, J. Geyer, M. Roscher, I. Manke, Ch. Hartnig, “Dynamic fuel cell gas humidification system”, International Journal of Hydrogen Energy, 37(9), 2012, pp. 7702-7709
Paul Scott, R.K Calay, Y.K. Chen, “Experimental evaluation into novel, low cost, modular PEMFC stack”, World Hydrogen Energy Conference 2012, Energy Procedia 29, 2012, pp. 567–575
P.J.S. Vie, S. Kjelstrup, “Thermal conductivity from temperature profiles in the polymer electrolyte fuel cell”, Electrochim. Acta, 49, 2004, pp. 1069–1077
Oh-Jung Kwon, “A Study of Increasing Regeneration Energy and Braking using Super Capacitor(EDLC)”, Chonnam National Uiversity, 2005
N. Rajalakshmi, S. Pandiyan, K.S. Dhathathreyan, “Design and development of modular fuel cell stacks for various applications”, International Journal of Hydrogen Energy, 33, 2008, pp. 449–454
N. Marx, L. Boulon, F. Gustin, D. Hissel, K. Agbossou, “A review of multi-stack and modular fuel cell systems: Interests, application areas and on-going research activities”, International Journal of Hydrogen Energy, 39(23), 2014, pp. 12101-12111
N. Djilali, D.M. Lu, “Influence of heat transfer on gas and water transport in fuel cells”, Int. J. Therm. Sci., 41, 2002, pp. 29–40
Ming Gen Zheng, “A Study on the Operation Characteristic of the Proton Exchange Membrane Fuel Cell in Low Temperature Range”, Chonnam National Uiversity, 2006
Man-Taeck Hwang, “Performance Characteristic of PEMFC with Metal Bipolar Plate at Various Environmental Temperature and Cooling”, Chonnam National Uiversity, 2010
M. Uchida, Y. Aoyama, N. Eda, A. Ohta, “Investigation of the microstructure in the catalyst layer and effects of both perfluorosulfonate ionomer and PTFE-loaded carbon on the catalyst layer of polymer electrolyte fuel cells”, J. lectrochem. Soc., 142, 1995, pp. 4143–4149
M. Marechal, J.L. Souquet, J. Guindet, J.Y. Sanchez, “Solvation of sulphonic acid groups in Nafion membranes from accurate conductivity measurements”, Electrochem. Commun., 9, 2007, pp. 1023–1028
M. Khandelwal, M.M. Mench, “Direct measurement of through-plane thermal conductivity and contact resistance in fuel cell materials”, J. Power Source, 161, 2006, pp. 1106–1115
M. Akabki, A. Tamayo and M. Bahrami, “Thermal assessment of convective heat transfer in air cooled PEMFC stacks : An experimental study”, Energyprocedia, 2012, pp. 1-11
Luis Alberto M. Riascos, Marcelo G. Simoes, Paulo E. Miyagi, “On-line fault diagnostic system for proton exchange membrane fuel cells”, Journal of Power Sources, 175, 2008, pp. 419–429
Leonardo Palma, Prasad N. Enjeti, “A Modular Fuel Cell, Modular DC–DC Converter Concept for High Performance and Enhanced Reliability”, IEEE TRANSACTIONS ON POWER ELECTRONICS, 24(6), 2009, pp. 1437-1443
LG전자, “모듈형 Compact 연료전지 주변장치(Balance of Plant, BOP) 설계기술 개발에 관한 연구”
산업자원부, , pp. 8-44[2007]
Kwi-Sung Jung, “A study of the performance and the Hybrid Vehicle Drive of PEM Fuel Cell System”, Chonnam National Uiversity, 2003
Ki-Yun Cho, Ho-Young Jung, “Application of CV Cycling to the Activation of the Polymer Electrolyte Membrane Fuel Cell”, Appl. Chem. Eng., 23(5), 2012, pp. 445-449
Kazashige Maeda, Kouji Masumoto, Akihito Hayano, “A study on energy saving in residential PEFC cogeneration systems”, Journal of power sources, 195(12), 2010, pp. 3779–3784
K. Schoots, G. J. Kramer, B.C.C. Van der Iwaan, “Technology learning for fuel cells: An assessment of post and potential cost reductions”, Energy policy, 38(6), 2010, pp. 2887–2897
K. J. Astrom, T. Hagglund, “PID Controllers : Theory, Design and Tuning 2/E”, Instrument Society of America, 1995
Jutae Kim, Junhee Lee, Yongsug Tak, “Relationship between carbon corrosion and positive electrode potential in a proton-exchange membrane fuel cell during start/stop operation”, Journal of Power Sources, 192, 2009, pp. 674–678
JungHwan Bang, Han-Sang Kim, Dong-Hun Lee, Kyoungdoug Min, “Study on operating characteristics of fuel cell powered elecric vehicle with different air feeding systems”, Journal of hanical Science and Technology, 22, 2008, pp. 1602-1611
Jixin Chen, Jason B. Siegel, Toyoaki Matsuura, Anna G. Stefanopoulou, “Carbon Corrosion in PEM Fuel Cell Dead-Ended Anode Operations”, Journal of The Electrochemical Society, 158(9), 2011, B1164-B1174
Jingeng Wu, Stefano Galli, Ivano Lagana, Afonso Pozio, “An air-cooled proton exchange membrane fuel cell with combined oxidant and coolant flow”, Journal of power sources, 2009, pp. 199–204
Jin-Su Kim, “Numerical Analysis of Performance to Develop a Hydrogen-Recirculation Ejector for Fuel Cell”, Chonnam National Uiversity, 2012
James Larminie, Andrew Dicks, “Fuel Cell System Explained 2/e”, JOHN WILEY & SONS, 2003, pp. 385-490
James Garnier, Alexandre De Bernardinis, Marie-C ecile P era, Daniel Hissel, Denis Candusso, Jean-Marie Kauffmann, G erard Coquery, “Study of a PEFC power generator modular architecture based on a multi-stack association”, Journal of Power Sources, 156, 2006, pp. 108–113
JI YEON PARK, SE JOON IM, KOOKIL HAN, BO KI HONG, “A Study to Simulate Cell Voltage-Reversal Behavior Caused by Local Hydrogen Starvation in a Stack of Fuel Cell Vehicle”, Trans. of the Korean Hydrogen and New Energy Society, 24(4), 2013, pp. 311-319
J.J. Hwang, “Thermal–electrochemical modeling of a proton exchange membrane fuel cell”, J. Electrochem. Soc., 153, 2006, A216–A224
J.H. Nam, M. Kaviany, “Effective diffusivity and water-saturation distribution in single- and two-layer PEMFC diffusion medium”, Int. J. Heat Mass Transfer, 46, 2003, pp. 4595–4611
J.G. Pharoah, K. Karan, W. Sun, “On effective transport coefficients in PEM fuel cell electrodes: anisotropy of the porous transport layer”, J. Power Source, 161, 2006, pp. 214–224
In-Su Jo, “A study on Operation of PEMFC Stack with Metal Separator at Low Temperature Region”, Chonnam National Uiversity, 2008
IN SU HAN, HYUN KHIL SHIN, “Soft Sensor Development for Predicting the Relative Humidity of a Membrane Humidifier for PEM Fuel Cells”, Trans. of the Korean Hydrogen and New Energy Society, 25(5), 2014, pp. 491~499
Ho-Yeol Lee, “A Study of Hollow Fiber Membrane Humidification for Intake & Preheating Fuel Cell using Coolant Water”, Chonnam National Uiversity, 2004
H. Ju, C.Y. Wang, S. Cleghorn, U. Beuscher, “Nonisothermal modeling of polymer electrolye fuel cells, J. Electrochem”. Soc., 152, 2005, A1645–A1653
Garcia JE, Herrera DF, Boulon L, Sicard P, Hernandez A., “Power sharing for efficiency optimisation into a multi fuel cell system”, IEEE international symposium on industrial electronics -Istanbul, 2014, pp. 1-6
Frano Barbir, “PEM fuel cells : theory and practice - 2nd ed.”, Elsevier, 2012, pp. 435-508
Frano Barbir, “PEM Fuel Cell -Theory and Practice-”, Elsevier Academic Press, California(USA), 2005, pp. 1~102
E.A. Muller, A.G. Stefanopoulou, “Analysis, modeling, and validation for the thermal dynamics of a polymer electrolyte membrane fuel cell system”, J. Fuel Cell Sci. Technol., 3, 2006, pp. 99–110
E. Grassi, K. Tsakalis, “PID Controller Tuning by Frequency Loop-Shaping : Application to Diffusion Furnace Temperature Control”, IEEE Trans. on Cont. Sys. Tech., 8(5), 2000, pp. 842-847, 2000
Deok-Su Hyun, “A Study of Electrochemical Characteristics for Air-Cooling PEMFC Module”, Chonnam National Uiversity, 2013, pp. 1-102
De Bernardinis A., Pꠑera M-C., Garnier J., Hissel D., Coquery G., Kauffmann J-M., “Fuel cells multi-stack power architectures and experimental validation of 1 kW parallel twin stack PEFC generator based on high frequency magnetic coupling dedicated to on board power unit”, Energy Convers Manag 2008, 49(8), pp. 2367-2383
De Bernardinis A., Frappe E., Bethoux O., Marchand C., Coquery G., “Electrical architecture for high power segmented PEM fuel cell in vehicle application”, 2012 first international conference on renewable energies and vehicular technology, IEEE, 2012, pp. 15-22
DOE, “Fuel Cell Technologies Market Report 2014”, U.S. DEPARTMENT OF ENERGY (DOE), 2015, pp. 12-14
DEAHEUM PARK, DUHEE KIM, KYOUNGHOON KIM, YOUNGGUAN JUNG, “A Study on The Control of Humidification and Dew Condensation by On/Off Control”, Trans. of the Korean Hydrogen and New Energy Society, 22(6), 2011, pp. 835~841
D. A. Stevens, M. T. Hicks, G. M. Haugen, J. R. Dahna, “Ex Situ and In Situ Stability Studies of PEMFC Catalysts Effect of Carbon Type and Humidification on Degradation of the Carbon”, Journal of The Electrochemical Society, 152(12), 2005, A2309-A2315
COLLEEN SPIEGEL, “Pem fuel cell modeling and simulation using matlab”, ELSEVIER, pp 15-174, 2008
C.Y. Wang, “Fundamental models for fuel cell engineering”, Chem. Rev., 104, 2004, pp. 4727–4766
C.S. Kong, D.Y. Kim, H.K. Lee, Y.G. Shul, T.H. Lee, “Influence of pore-size distribution of diffusion layer on mass-transport problems of proton exchange membrane fuel cells”, J. Power Source, 108, 2002, pp. 185–191
B. Andreaus, A.J. McEvoy, G.G. Scherer, “Analysis of performance losses in polymer electrolyte fuel cells at high current densities by impedance spectroscopy”, Electrochim. Acta, 47, 2002, pp. 2223–2229
Ana M.Lopez-Sabiron, Jorge Barroso, Vicente Roda, “Design and development of the cooling system of a 2kW nominal power open cathode polymer electrolyte fuel cell stack”, International journal of hydrogen energy, 37(8), 2012, pp. 7289-7298
Alliance, “차세대 연료전지 기술개발 전력과 시장 동향”
CHO Alliance, , pp 191-359[2015]
Alliance, “차세대 연료전지 기술개발 전략과 시장 동향”
CHO Alliance, , pp. 55-359[2015]
A.Z. Weber, J. Newman, “Coupled thermal and water management in polymer electrolyte fuel cells”, J. Electrochem. Soc., 153, 2006, A2205–A2214
A. Faghri, Z. Guo, “Challenges and opportunities of thermal management issues related to fuel cell technology and modelling”, Int. J. Heat Mass Transfer, 48, 2005, pp. 3891–3920
A. C. Zolotas and G. D. Halikias, “Optimal Design of PID Controllers Using the QFT Method”, IEE Proc. Control Theory and Appl., 146(6), 1999, pp. 585-589
A&D 컨설턴트, “년도 특별보고서: 자율 주행 자동차 분석 및 전망”
A&D 컨설턴트, 2013[2013]
4th Energy Wave, “The Fuel Cell and Hydrogen Annual Review, 2015”, 4th Energy Wave(www.4thenergywave.com), 2015, pp. 50-51,
'
PEMFC용 BOP 설계와 기동정지 특성에 관한 연구 = Study on BOP design and startup & shutdown characteristics of a PEMFC'
의 유사주제(
) 논문