Big Chemical Encyclopedia

Chemical substances, components, reactions, process design ...

Articles Figures Tables About

Rise National Laboratory

Larsen, H., Feidenhans l, R. and Sonderberg P. L. (2004). Hydrogen and its Competitors. Riso Energy Report 3. Roskilde Rise National Laboratory. [Pg.321]

Environmental Science and Technology Department, Rise National Laboratory, DK-4000 Roskiide, Denmark... [Pg.249]

Kone, A., Reggiani, J. C. and Souquet, J. L. (1989) in Proceedings of the 10th Rise International Symposium on Metallurgy and Material Science, 435-40, Eds. J. B. Bide Sorensen et ai. Rise National Laboratory, Roskilde, Denmark. [Pg.94]

Figure 10. Kleitz s reaction pathway model for solid-state gas-diffusion electrodes. Traditionally, losses in reversible work at an electrochemical interface can be described as a series of contiguous drops in electrical state along a current pathway, for example. A—E—B. However, if charge transfer at point E is limited by the availability of a neutral electroactive intermediate (in this case ad (b) sorbed oxygen at the interface), a thermodynamic (Nernstian) step in electrical state [d/j) develops, related to the displacement in concentration of that intermediate from equilibrium. In this way it is possible for irreversibilities along a current-independent pathway (in this case formation and transport of electroactive oxygen) to manifest themselves as electrical resistance. This type of chemical valve , as Kleitz calls it, may also involve a significant reservoir of intermediates that appears as a capacitance in transient measurements such as impedance. Portions of this image are adapted from ref 46. (Adapted with permission from ref 46. Copyright 1993 Rise National Laboratory, Denmark.)... Figure 10. Kleitz s reaction pathway model for solid-state gas-diffusion electrodes. Traditionally, losses in reversible work at an electrochemical interface can be described as a series of contiguous drops in electrical state along a current pathway, for example. A—E—B. However, if charge transfer at point E is limited by the availability of a neutral electroactive intermediate (in this case ad (b) sorbed oxygen at the interface), a thermodynamic (Nernstian) step in electrical state [d/j) develops, related to the displacement in concentration of that intermediate from equilibrium. In this way it is possible for irreversibilities along a current-independent pathway (in this case formation and transport of electroactive oxygen) to manifest themselves as electrical resistance. This type of chemical valve , as Kleitz calls it, may also involve a significant reservoir of intermediates that appears as a capacitance in transient measurements such as impedance. Portions of this image are adapted from ref 46. (Adapted with permission from ref 46. Copyright 1993 Rise National Laboratory, Denmark.)...
Brynjolfsson, A., and Thaarup, G., Rep. Riso, 53, Rise National Laboratory, Denmark (1963). [Pg.230]

H. L. Tuller, in Proceedings of 17th Rise International Symposium Materials Science High Temperature Electrochemistry Ceramics and Metals, Ed. by F. W. Poulsen, N. Bonanos, S. Linderoth, M. Mogensen, B. Zachau-Christiansen, p. 139, Rise National Laboratory, Roskilde, Denmark, 1996. [Pg.134]

Biosystems Department, Rise National laboratory, P.O. Box 49, DK-4000 Roskilde, Denmark... [Pg.101]

Institute of Problems of Chemical Physics ofRAS 142432 Chernogolovka, Moscow Region, Russian Federation Fax +7-096-5155420, E-mail btarasov icp.ac.ru Materials Research Department, Rise National Laboratory DK-4000 Roskilde, Denmark V.A. YARTYS... [Pg.341]

Reactivity for the biomass under study, wood chips of beech, is determined by TGA measurements carried out at the Norwegian University of Science and Technology (NTNU), Norway, and Rise National Laboratory, Denmark, Based on these, an expression for the calculation of the conversion rate as a function of the tested parameters has been established. [Pg.96]

M. Kleitz and T. Kloidt, Dessemondt, Conventional oxygen electrode reaction facts and models, in F.W. Poulsen, J.J. Bentzen, T. Jacobsen, E. Skou, M.J.L. OstergSrd (Eds.), High Temperature Electrochemical Behaviour of Fast Ion and Mixed Conductors. Rise National Laboratory, Denmark, 1993, pp. 89-116. [Pg.518]

Wien (Austria) Macaulay Institute for Soil Research, Aberdeen (United Kingdom) Ministere des Affaires Economiques, Brussels (Belgium) Rise National Laboratory, Roskilde (Denmark) Universidad de Barcelona, Departamento de Quimica Analitica (Spain) Universita di Pavia, Dipartimento de Chimica Nuclearia (Italy) Universiteit Gent, Instituut voor Nucleaire Wettenschappen, Ghent (Belgium). [Pg.427]

Bioenergy and Biomass Programme, Biosystems Department, Rise National Laboratory, Technical University of Denmark, Building BlO-301, Frederiksborgvej 399,... [Pg.534]

A. Dufresne, J. Y. Cavaille and W. Helbert, in Polymeric Composites-Expanding the Limits, eds. S. I. Andersen, P. Brondsted, H. Liholt, Aa. Lystrup, J. T. Rheinlander, B. F. Sorensen and H. Toftegaard, Rise National Laboratory, Roskilde, Denmark, p. 295,1997. [Pg.264]

PATFrr package, 1989 purchased from Rise National Laboratory, Rise, Denmark. [Pg.366]

R. C. T. Slade and P. R. Hirst, in Transport-Structure Relationships in Fast Ion and Mixed Conductors (Rise National Laboratory, Denmark, 1985), 377. [Pg.455]

LAURIDSEN, K., KOZINE, I. 2002. Assessment of Uncertainties in Risk Analysis of Chemical Establishments. Denmark Rise National Laboratory, Roskilde. [Pg.887]

M. Sogaard, Transport Properties and Oxygen Stoichiometry of Mixed Ionic Electronic Conducting Perovskite-type Oxides, Rise National Laboratory, Roskilde, Denmark, 2006. [Pg.101]

Broholm, C., 1988, in Magnetic Fluctuations in Heavy Fermion Systems, Ris0-M-2731. Available on request from the Library of Rise National Laboratory, Box 49, 4000 Roskilde, Denmark. Broholm, C., J.K. Kjems, O, Aeppli, Z. Fisk, J.L. Smith, S.M. Shapiro, G. Shirane and H.R. Ott, 1987a, Phys. Rev. Lett. 58, 917,... [Pg.170]

Tttylor J.R. Fault tree and cause consequence analysis for Control Software, Ris0>M-2326, Jan 1982, Rise National Laboratory, Denmark. [Pg.76]

DNV/Ris0 (2002) Guidelines for design of wind turbines. Det Norske Veritas/Wind Energy Department, Rise National Laboratory, Copenhagen/Roskilde... [Pg.2691]

See other pages where Rise National Laboratory is mentioned: [Pg.367]    [Pg.522]    [Pg.239]    [Pg.243]    [Pg.255]    [Pg.267]    [Pg.286]    [Pg.296]    [Pg.303]    [Pg.319]    [Pg.124]    [Pg.96]    [Pg.259]    [Pg.288]   
See also in sourсe #XX -- [ Pg.277 , Pg.278 , Pg.279 , Pg.280 ]



SEARCH



© 2024 chempedia.info