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Applications of Transporters

The final chapters, 11 and 12, are concerned with the particular application of transport theory to which this monograph is principally directed, namely the modeling of porous catalyst pellets. The behavior of a porous catalyst is described by differencial equations obtained from material and... [Pg.4]

An application of transport and compartment-type models to hazard analysis is described in the paper by Honeycutt and Ballantine (19). The compound CGA-72662 running off from agricultural areas into surface waters was modeled in order to set safe application procedures consistent with the protection of aquatic environments. Patterson, et al (2 0) have adapted the UTM model to a software package that is generally applicable to fate assessments of toxic substances in air, water, soil and biota. Their work, now in working draft form, is being used by Dr. William Wood and Dr. Joan Lefler in the Office of Toxic Substances of the U.S. Environmental Protection Agency. [Pg.99]

Bear J, Cheng A, Sorek S, Ouazar D, Herrera I (eds.) (1999) Seawater intrusion in coastal aquifers concepts, methods and practices. In Theory and Applications of Transport in Porous Media... [Pg.376]

Bear J., Buchlin J.M., 1991. Modeling and Application of Transport Phenomena inPorous Media. Kluwer Academic Publishers, Boston, MA. [Pg.91]

The first application of transport bottlenecks to a molecular system was in the study of vibrational relaxation of a model OCS molecule with two DOFs. Davis [36] found that the correct location of the bottleneck requires finding a set of unstable orbits that have a set of resonance conditions... [Pg.31]

Ikeda, K., Kimura, S., and Ueyama, K., Characterization of a nanofiltration membrane used for demineralization of underground brackish water by application of transport equations, Maku, 23, 266, 1998. [Pg.1128]

Penetrant Concentration-Plasticization Polymer Molecular Structure Relaxation-Controlled Transport Applications of Transport Concepts Barrier Materials Devolatilization Additive Migration Dyeing... [Pg.253]

Fiszdon, J., Lesinski, J. Intemat. Round Table on Study and Application of Transport Phenomena in Thermal Plasmas, Odeillo, 12-16 sept. (1975)... [Pg.176]

Gold, R. G., Sandall, W. R., Cheplick, P. G., Mac-Rae, D. R. Plasma reduction of iron oxide with hydrogen and natural gas at 100 kW and 1 MW, Internal. Round Table on Study and Application of Transport Phenomena in Thermal Plasmas, lUPAC, Odeillo, 12-16 sept. 1975, Proc. [Pg.180]

McPherson, R. Proc. Inti. Round Table Study Application of Transport Phenomena in Thermal Plasmas (ed. C. Bonnet) lUPAC/CNRS, Odeillo 1975... [Pg.182]

Preparation of a proposal for the project Partnership for Basic Research and Education in Nuclear Reactor Safety and Novel Applications of Transport Theory. This proposal was submitted to, and ultimately accepted by, the International Science and Technology Center. KIAM was the lead organization for this project, with Professor Mikhail V. Maslennikov as Project Manager, and Dr. A. V. Voronkov as the Project Leader at KIAM, and Professor Nelson as Principal Consultant. Other participating Russian organizations were... [Pg.208]

Bear, J., Cheng, A.H.-D. Theory and Applications of Transport in Porous Media. Modeling Grormdwater Flow and Contaminant Transport, vol. 23. Springer (2010) Blrmt, M., King, P. Relative permeabilities from two- and three-dimensional pore-scale network modelling. Transport in Porous Media 6(4), 407-433 (1991)... [Pg.93]

The motivation for establishing accurate values of the various transport properties has been discussed in previous chapters. The current stams of fundamental kinetic and statistical mechanical theory, computer simulation and experimental technique and data acquisition impose severe limits on the accuracies achievable in any description of a transport property surface for a real fluid. For instance, it will not be possible to determine viscosities to one part in 10 for the near future. Thus, the accuracies associated with primary standards for transport properties fall an order of magnitude below those associated with primary measurement standards for equilibrium thermodynamic properties. Fortunately, the technological applications of transport property information do not require extreme accuracies. [Pg.141]

See other pages where Applications of Transporters is mentioned: [Pg.268]    [Pg.263]    [Pg.305]    [Pg.299]    [Pg.494]    [Pg.32]    [Pg.244]    [Pg.286]    [Pg.162]    [Pg.267]    [Pg.931]    [Pg.1020]    [Pg.349]    [Pg.164]    [Pg.8]    [Pg.76]   


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