Transport Phenomena In Fuel Cells (Developments in Heat by B. Sunden, M. Faghri PDF
By B. Sunden, M. Faghri
Gasoline cells are anticipated to play an important position within the subsequent iteration of strength structures and highway autos for transportation. notwithstanding, great development is needed in lowering production expenses and bettering functionality. This e-book goals to give a contribution to the certainty of the delivery tactics in strong oxide gasoline cells (SOFC), proton alternate membrane gasoline cells (PEMFC) and direct methanol gasoline cells (DMFC), that are of present curiosity. quite a lot of themes is roofed, that includes contributions from widespread scientists and engineers within the box. an in depth precis of cutting-edge wisdom and destiny wishes, this article is going to be of worth to graduate scholars and researchers engaged on the advance of gasoline cells inside academia and undefined.
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Extra resources for Transport Phenomena In Fuel Cells (Developments in Heat Transfer)
Density (kg/m3 ). Electronic resistivity of anode and cathode respectively ( Ionic resistivity of electrolyte ( · cm). Reduced density. Activation polarization (V ). · cm). Subscripts a c cell e, w, n, s E, W , N , S f i j m P R x X,Y x Anode. Cathode. Overall parameter of fuel cell. East, west, north, and south interfaces between grid P and it neighboring grids. East, west, north, and south neighboring grids of grid P. Fuel. Subscript variable. Gas species; Subscript variable. Mixture. Variables at grid P.
Relatively speaking, Multiple transport processes in solid oxide fuel cells 21 the tubular SOFC has a more complex current pathway in the electrodes  and will be discussed in the following analysis. Modeling works on planar type SOFCs are available in both the current author’s work and in the literature [17, 19, 30, 31, 39, 47–49]. In the following subsections, there are three issues that address the construction of a numerical model. 1 Outline of a computation domain In a practical tubular SOFC stack, multiple tubular cells are mounted in a container to form a cell bundle, as shown in Fig.
211, Part A, pp. 359–366, 1997. Freni, S. , Energy balance of different internal reforming MCFC configurations. International Journal of Energy Research, 21, pp. 253–264, 1997. , Damopoulos, I. , Ammonia as a fuel in solid oxide fuel cells. Journal of Power Sources, 118, pp. 342–348, 2003. , Thermodynamics, Second Edition, McGraw-Hill Book Company: New York, pp. 536–561, 1971. H. , Perry’s Chemical Engineer’s Handbook, Seventh Edition, McGraw-Hill: New York, 1986. , Mizusaki, J. , Influence of the coexisting gases on the electrochemical reaction rates between 873 and 1173 K in a CH4 -H2 O/Pt/YSZ system.
Transport Phenomena In Fuel Cells (Developments in Heat Transfer) by B. Sunden, M. Faghri