[1] J. Larminie, A. Dicks, Fuel cell Systems Explained, Second Edition, John Wiley and Sons, 2003

Bibliografia

- 235 -

BIBLIOGRAFIA

[1] J. Larminie, A. Dicks, Fuel cell Systems Explained, Second Edition, John Wiley and Sons, 2003

[2] Fuel Cell Handbook (Fifth Edition), EG&G Services Parsons, Inc. Science Applications International Corporation, October 2000

[3] S. Rao, Engineering Optimization: Theory and Application, John Wiley and Sons, 1978

[4] A. Faghri, Z. Guo , Challenges and opportunities of thermal management issues related to fuel cell technology and modelling, International Journal of Heat and Mass Transfer 48 (2005) 3891–3920

[5] C. Casarosa, A. Franco, On the optimum thermal design of longitudinal convective fin arrays, International Journal of Heat and Technology,vol. 21,num. 2,pp 10-21,2003

[6]V. Baglio, V. Antonucci, V. Tricoli, Investigation of the electrochemical behaviour in DMFCs of chabazite and clinoptilolite-based composite membranes, Electrochimica Acta 50 (2005) 5181–5188

[7] Young-Jun Sohn, Gu-Gon Park et al., Operating characteristics of an air-cooling PEMFC for portable applications, Journal of Power Sources 145 (2005) 604–609

[8] Yong Hun Park , Jerald A. Caton, Development of a PEM stack and performance analysis including the effects of water content in the membrane and cooling method, Journal of Power Sources 179 (2008) 584–591

[9] Robert Hahn, Michael Krumm, Thermal management of portable micro fuel cell stacks,

19

IEEE SEMI-THERM Symposium (2003)

Bibliografia

- 236 -

[10] Chih-Yung Wen , Guo-Wei Huang , Application of a thermally conductive pyrolytic graphite sheet to thermal management of a PEM fuel cell, Journal of Power Sources 178 (2008) 132–140

[11] A. J. Colozza, K. Burke, Fuel Cell Thermal Management through Conductive Cooling Plates, NASA/TM—2008-215149

[12] A. Faghri, Z. Guo, Integration of Heat Pipe into Fuel Cell Technology, Heat Transfer Engineering, 29(3) (2008) 232–238

[13] Yu.F. Maydanik, Loop Heat Pipe, Applied Thermal Engineering 25 (2005) 635–657

[14] L.Vasiliev, L. Vasiliev Jr, Heat Pipe in Fuel Cell Technology, Mini-Micro Fuel Cell fundamental and application, Springer (2008)

[15] Patrick T. Garrity, James F. Klausner, Renwei Me, A Flow Boiling Microchannel Evaporator Plate for Fuel Cell Thermal Management, Heat Transfer Engineering, 28(10):877–884, 2007

[16] Patrick T. Garrity, James F. Klausner , Renwei Mei, Instability phenomena in a two- phase micro-channel Thermosyphon, Int. J. Heat Mass Transfer (2008), doi:

10.1016/j.ijheatmasstransfer. 2008.10.005

[17] Jixin Chen, Biao Zhou, Diagnosis of PEM fuel cell stack dynamic behaviors, Journal of Power Sources 177 (2008) 83–95

[18] Xiaochen Yu, Biao Zhou, Water and thermal management for Ballard PEM fuel cell stack, Journal of Power Sources 147 (2005) 184–195

[19] P. Argyropoulos, K. Scott, W.M. Taama, One-dimensional thermal model for direct

methanol fuel cell stacks:Part I. Model development. Journal of Power Sources 79 (1999)

169–183

Bibliografia

- 237 -

[20] P. Argyropoulos, K. Scott, W.M. Taama One-dimensional thermal model for direct methanol fuel cell stacks Part II. Model based parametric analysis and predicted temperature profiles. Journal of Power Sources 79 (1999) 184–198

[21]N. Müller, L. G. Fréchette, Optimization and design guidelines for High flux micro- channel Heat Sink sfor liquid and gaseous single-phase flow, 2002 Inter Society conference on Thermal Phenomena

[22] Jianlu Zhang, Zhong Xie et al, High temperature PEM fuel cells, Journal of Power Sources 160 (2006) 872–891

[23] D. Davies, P. Adcock, M. Turpin, S. Rowen, Stainless steel as a bipolar plate material for solid polymer fuel cells, J. Power Sources 86 (2000), pp. 237-242,

[24] D. Davies, P. Adcock, M. Turpin, S. Rowen, Bipolar plate materials for solid polymer fuel cells, J. Appl. Electrochem. 30 (2000), pp. 101-105,

[25] Yuyan Shao , Geping Y et al, Proton exchange membrane fuel cell from low temperature to high temperature: Material challenges, Journal of Power Sources 167 (2007) 235–242

[26] Yunfeng Zhai, Huamin Zhang et al., Preparation and characterization of sulfated zirconia (SO42−/ZrO2)/Nafion composite membranes for PEMFC operation at high temperature/low humidity, Journal of Membrane Science 280 (2006) 148–155

[27] N. Perkins, Thermal Management of Proton Exchange Membrane Fuel Cell by Air Cooling, Farmingdale State University, FaST Program, Brookhaven National Laboratory, July 29, 2006

[28] P. Charoensawan S. Khandeka, M. Groll, Closed loop pulsating heat pipes Part A:

parametric experimental investigations, Applied Thermal Engineering 23 (2003) 2009–2020

Bibliografia

- 238 -

[29] P. Charoensawan S. Khandeka, M. Groll, Closed loop pulsating heat pipes Part B:

visualization and semi-empirical modeling, Applied Thermal Engineering 23 (2003) 2021–

2033

[30] Xuan Cheng , Zheng Shi , Nancy Glass et al., A review of PEM hydrogen fuel cell contamination: Impacts, mechanisms, and mitigation, Journal of Power Sources 165 (2007) 739–756

[31] Roberto Bove, Thomas Malkow, Antonio Saturnio, PEM Fuel cell stack testing in the framework of an EU-harmonized fuel cell testing protocol: Results for an 11 kW stack, Journal of Power Sources 180 (2008) 452–460

[32] P.B. Whalley, Two Phase Flow and Heat Transfer, Oxford Science Publications, 1996.