Exchange membrane fuel cells

Einsla, B. R., Kim, Y. S., Hickner, M., Hong, Y. T., Hill, M. L., Pivovar, B. S. and McGrath, J. E. 2005. Sulfonated naphthalene dianhydride based polyimide copolymers for proton-exchange-membrane fuel cells. II. Membrane properties and fuel cell performance. Journal of Membrane Science 255 141-148. 

Ford Motor Co., Direct-hydrogen-fueled proton-exchange membrane fuel cell system for transportation applications hydrogen vehicle safety report, D.T. Inc., ed., Arlington,VA (1997). 

Thomas, C.E. Direct-Hydrogen-Fueled Proton-Exchange Membrane Fuel Cell System for Transportation Applications Hydrogen Vehicle Safety Report, DOE/CE/5039-502. U.S. Department of Energy, Washington, D.C. 1997. 

The 3,4,5,6,7,8-hexahydro-l,2-oxathiocin 2,2-dioxide is the key component for the synthesis of a polymer used for proton exchange membrane fuel cells (PEMFCs). Membranes made with this polymer are pliant, do not expand much during wet conditions, and are chemically, hydrolytically, and thermally stable <2006USP0135702>. 

Figure 3.5. Overall impedance response of a proton exchange membrane (PEM) fuel cell for different cell temperatures, depicted as corresponding values of the real and imaginary parts of the complex impedance (sometimes denoted a Nyquist plot). Each sequence of points represents frequencies ranging from 10 to 10 Hz, with the highest values corresponding to the leftmost points. From M. Ciureanu, S. Mik-hailenko, S. Kaliaguine (2003). PEM fuel cells as membrane reactors kinetic cinalysis by impedance spectroscopy. Catalysis Today 82, 195-206. Used with permission from Elsevier).

Gil, M., Ji, X., Li, X., Na, H., Hampsay, J., Lu, Y. (2004). Direct synthesis of sulfonated aromatic poly(ether ether ketone) proton exchange membranes for fuel cell applications. /. Membrane Sci. 234, 75-81. 

Autothermal reformers and CPO are being developed by a number of groups, mostly for fuel processors of gasoline, diesel, and JP-8 fuels and for natural gas-fueled proton exchange membrane fuel cell (PEMFC) cogeneration systems. A few examples are the following ... 

Fig. 6 Proton exchange membrane fuel cell the membrane-electrode assembly (MEA) consists of the Nation membrane with the electrocatalyst on the surface in contact with porous carbon...

Caterpillar, Nuvera Fuel Cells, and Williams Bio-Energy have teamed up to develop and demonstrate a 15 kilowatt (kW) ethanol-fueled proton exchange membrane (PEM) fuel cell system. The primary objectives of this project are to ... 

A proton exchange membrane (PEM) separates the two halves of a fuel cell. This membrane allows protons, formed by the oxidation of hydrogen gas, to pass through and react with hydroxide ions, produced by reduction of oxygen gas at the cathode, to form water. The waste product of this fuel cell is simply water vapor that can be condensed for use, for instance, by astronauts. 

Figure 17.18 H2 permeance (A) and CO permeance (B). Reprinted from F. J. Varela-Gandia, A. B. Murcia, D. L. Castello and D. C. Amoros, Hydrogen purification for PEM fuel cells using membranes prepared by ion-exchange of Na-LTA/carbon membranes, Journal of Membrane Science, 351, 123-130, 2010, with permission from Elsevier.

Einsla BR, Kim YS, Hickner MA, Hong YT, Hill ML, Pivovar BS, McGrath JE (2005) Sulphonated naphtalene elianhytlride based polyimide copolymers feu proton-exchange-membrane fuel cells, n. Membrane properties and fuel cell perfeumance. J Membr Sci 255 141-148... 

Xiong Y, Fang J, Zeng QH, Liu QL (2008) Preparation and characterization of cross-linked quatemized poly (vinyl alcohol) membranes for anion exchange membrane fuel cells. J Membrane Sci 311 319-325. doi 10.1016/j.memsci.2007.12.029... 

Li L, Wang Y (2005) Quatemized polyethersulfone Cardo anion exchange membranes for direct methanol alkaline fuel cells. J Membrane Sci 262 1-4. doi 10.1016/j. memsci.2005.07.009... 

The electrolyte can be an aqueous solution, alkaline or acid. It was alkaline fuel cells that generated the necessary electricity on Apollo 11, the first manned spacecraft to the moon. In modern fuel cells a membrane may act as a solid electrolyte. A polymer PEMFC (Proton Exchange Membrane Fuel Cell) is often used. 

Nafion membrane is widely used in MFC research, probably due to the popularity in PEM fuel cells. Nafion membrane is also called a proton exchange membrane for its preferential conduction of proton over other ions under acidic... 

Handayani, S. and Dewi, E. L. 2011. Influenee of siliea/sulfonatedpolyetherether ketone as polymer electrolyte membrane for hydrogen fueled proton exchange membrane fuel cells. Internat. J. Sci. Eng. 2(2) 26-30. 

Polymer Electrolyte Fuel Cell. The electrolyte in a PEFC is an ion-exchange (qv) membrane, a fluorinated sulfonic acid polymer, which is a proton conductor (see Membrane technology). The only Hquid present in this fuel cell is the product water thus corrosion problems are minimal. Water management in the membrane is critical for efficient performance. The fuel cell must operate under conditions where the by-product water does not evaporate faster than it is produced because the membrane must be hydrated to maintain acceptable proton conductivity. Because of the limitation on the operating temperature, usually less than 120°C, H2-rich gas having Htde or no (

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