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Hogarth 1 Reviews

M. Hogarth, G. Hards, "Direct Methanol Fuel Cells Technological Advances and Further VcQoyiwQmQnis," Platinum Metals Review, AQ, pp. 150-159, 1996. [Pg.94]

Ralph T R and Hogarth M P, 2002, Catalysis for Low Temperature Fuel Cells, Part 1, The Cathode Challenges. Platinum Metals Review, 46(1). [Pg.182]

Cagniard de la Tour discovered the critical point in 1822. Hannay and Hogarth reported on the ability of a supercritical fluid to dissolve low vapor pressure solid materials (1). Since then, a spectrum of solids have been studied in a variety of supercritical fluids. Naphthalene is the most extensively studied solute, and carbon dioxide the most popular supercritical fluid. Over the last decade, a large number of books have been published on SFE (2-17). Most of these are proceedings of conferences. McHugh and Krukonis present a good historical review of the research and process applications in this field (8). Bruno and Ely review the theory and practical applications of SFE (3). [Pg.92]

This chapter describes a recent and controversial period of supercritical fluid history, 1977-1987. An outline of the information to be covered in this chapter is given in Table I. The history of supercritical fluid solubility phenomena was summarized in an earlier paper (1). That paper reviewed the first literature report on the subject by Hannay and Hogarth in 1879 (2), the work of many researchers who investigated the phase behavior of various materials dissolved in supercritical fluids (3-5), and some process/product applications of supercritical fluid extraction (6-8). A quite detailed historical development, covering in depth the first score years after 1879, has been published elsewhere (9). [Pg.26]

M.P. Hogarth, T.R. Ralph, and J. Matthey, Catalysis for low temperature fuel cells part 111 challenges for the direct methanol fuel cell. Platinum Metals Review, 46(4)... [Pg.178]

Shukla AK, Christensen PA, Hamnett A, Hogarth MP. J Power Sources 1995 55 87. REVIEWS... [Pg.188]

A big challenge for fuel-cell membranes is a good performance at temperatures higher than 100°C. Reviews on materials under investigation to overcome this problem have been published by Alberti and Casciola [203], Li et al. [204] and Hogarth et al. [205]. [Pg.51]

Einhom, H.J., and Hogarth, R.M. 1978. Confidence in judgment persistence in the illusion of validity. Psychological Review 85, 395-416. [Pg.244]

Hogarth MP, Ralph TR. Catalysis for low temperature fuel eeUs, Part I. The eathode challenges. Platinum Metals Review 2002 46 3-14. [Pg.629]

Table 16.2. Physical characterization of PtRu alloy electrocatalysts [43]. (Reprinted from Ralph TR, Hogarth MP. Catalysis for low temperature fuel cells, part II the anode challenges. Plat Met Rev 2002 46(3) 117-35, 2002. With permission from Platinum Metals Review.)... Table 16.2. Physical characterization of PtRu alloy electrocatalysts [43]. (Reprinted from Ralph TR, Hogarth MP. Catalysis for low temperature fuel cells, part II the anode challenges. Plat Met Rev 2002 46(3) 117-35, 2002. With permission from Platinum Metals Review.)...
Ralph, T. R. and Hogarth, M. R Catalysis for low temperature fuel cells Part I The cathode challenges . Platinum Metals Review 46, 3 (2002). [Pg.202]

Bennett, Judith Hogarth, Silvya Lubben Fred (2003). A systematic review of the effects of context-based and Science-Technology-Society (STS) approaches in the teaching of secondary science Review summary. In http //www.york.ac.uk/depts/educ/ResearchPaperSeries/SciTTAla.pdf [13.3.2008]... [Pg.219]

Hogarth M. and Hards G. (1996) Direct methanol fuel cells technological advances and further requirements , Platinum Metals Review, 40, 150-159. [Pg.162]

Recent fuel cell membrane research and development (R D) efforts are summarized with a focus on (1) membranes for high-temperature, low-hmnidity PEMFC operation, (2) low-cost alternatives to PFSA membranes, and (3) direct methanol fuel cell membranes. A listing of fuel cell membrane performance data is given in Tables 29.4-29.6 for each membrane subcategory. The review material is by no means exhaustive, but it is representative of the kinds of fuel cell membranes previously/cmrently under investigation. For different viewpoints on the evolutionary development of various fuel cell membranes, the reader is directed to other review articles in the open hterature (Rikukawa and Sanui, 2000 Li et al., 2003 Haile, 2003 Jannasch, 2003 Savadogo, 2004 Hickner et al., 2004 Hogarth et al., 2005 Smitha et al., 2005). [Pg.764]

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