Three-dimensional modelling

Dullien (1979) considered the rate of capillary rise of a fluid in a model three-dimensional network pore structure consisting of a repeating pore element with step changes in diameter. The effective diameter, /)clT, model is given by ... 

Fig. 4. Modeled three-dimensional structure of C. herbamm enolase. C. herbarum enolase was modeled on the basis of the three-dimensional structure of S. cerevisiae enolase [60, 62], The C. herbarum enolase monomer is shown in magenta, whereas the peptide rCla h6 (120-189) is displayed in blue. Those residues which were predicted to interact with patient IgE are marked. For further explanations, see text. 

Figure 5 An additive model three-dimensional response surface plot for fines from the milling study.

This molecule is structurally more flexible than DNA. The database of resolved three-dimensional RNA structures is much smaller than that for proteins it contains only a few hundred molecules. Modeling three-dimensional structures of RNA is basically an unsolved problem, however, there are effective methods for modeling two-dimensional RNA structures. We do not discuss modeling RNA structures in this book and refer the reader to [6],... 

Dr. Ray Clough coins the term finite element—an entity that can model three-dimensional strain. 

J.-F. Lee, R. Palandech, and R. Mittra, Modeling three-dimensional discontinuities in waveguides using non-orthogonal FDTD algorithm, IEEE Trans. Microw. Theory Tech., vol. 40, no. 2, pp. 346-352, Feb. 1992.doi 10.1109/22.120108... 

Three-dimensional regular lattices do not have enough symmetry to ensure macroscopic isotropy. To model three-dimensional fluids, a suitable three-dimensional projection of a four-dimensional model, the face-centered-hypercube (FCHC), is used (see, for instance, Sommers Rem, 1992). Each node in the lattice is connected via links to 24 nearest neighbors. In this case, up to 24 moving particles may occupy the cells. 

Integration of Three-dimensional Substructure Searching and Molecular Modeling Three-dimensional Similarity Searching... 

Fio. 11(a). Switching surface and the lag phase as calculated from the model. Three-dimensional plot. 

SMART is applicable if integral information on contaminant behaviour in groundwater is sufficient. If point information is needed a conventional FD or FE model has to be used. Although it is obvious that the streamtube approach is not as flexible as real 3D models , decoupling of conservative transport and physico-chemical processes allow to model three-dimensional contaminant transport in a convenient and computationally efficient way, especially if only one representative streamtube must be modelled. Computation times, as observed by Peter et al. (chapter 14) are much lower compared to MT3D simulations. It should also be mentioned, that the streamtube approach possesses some advantages compared to real 3D models even if each and every streamtube has to be modelled by means of a numerical model in order to evaluate F. Since only one dimensional advective-reactive transport must be modelled, numerical solutions based on discrete or mechanistical approaches, free of numerical dispersion, can be applied. In SMART this is done by a so-called parceltracking approach where contaminant transport is described by means of a continuous series of water volumes ( parcels ) as described in Finkel et al. (1998). 

Shin S, Juric D (2002) Modeling three-dimensional multiphase flow using a level contour reconstruction method for front tracking without connectivity. J Comput Phys 180 427-470... 

R.D. Lonsdale, R. Webster, "The application of finite volume methods for modelling three-dimensional incompressible flow on an unstructured mesh", in Proceedings of 6th International Conference on Numerical Methods in Laminar and Turbulent Flow, Swansea, United Kingdom, July 1989. 

Jin, L., Auerbach, S.M., Monson, PA. (2011). Modeling three-dimensional network formation with an atomic lattice model Application to silicic add polymerization. Journal of Chemical Physics, 134, 134703. 

Burbey, T.J. Helm, D.C. 1999. Modeling three-dimensional deformation in response to pumping of unconsolidated aquifers. Environmental and Engineering Geosciences 5 199-212. 

The present paper centers on modeling three dimensional land movement using a new module (NDIS) that can simulate materials with linear and nonlinear poroelasticity within an aquifer system. Helm (1979) presented a flow relation that associates aquifer movement with bulk and relative flow. The bulk velocity is further linked to the steady hydraulic head, and the relative velocity is... 

Yu H, Thomas R (2000) Method for modeling three-dimensional objects and simulation of fluid flow. United States Patent No. 6096088... 

A MODEL THREE-DIMENSIONAL NUMERICAL RISK-SCORING SYSTEM... 

Case Study Model Three-Dimensional (3D) Twenty-Story Building... 

D. P. Bentz and N. S. Martys, Hydraulic radius and transport in reconstmcted model three-dimensional porous media . Transport in Porous Media, 17,221 (1995). 

Agelinchaab, M., Tachie, M.F., Ruth, D.W., 2006. Velocity measurement of flow through a model three-dimensional porous medium. Phys. Fluids 18, 017105. 

Resonators Traveling Waves One-Dimensional Model Two-Dimensional Model Three-Dimensional Model... 

The gas-particle streams in the grinding chamber of the jet vortex mill have been investigated. One and three-dimensional simulation of flows in the mill have been considered. The influence of particle concentration on gas-dynamic field was studied by the onedimensional model. Three-dimensional computations allowed us to study particle trajectories. 

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