Meso- 3 Scale

Perform a conformation search of the protein backbone using the meso-scale side-chain representation. 

Reaction and Transport Interactions. The importance of the various design and operating variables largely depends on relative rates of reaction and transport of reactants to the reaction sites. If transport rates to and from reaction sites are substantially greater than the specific reaction rate at meso-scale reactant concentrations, the overall reaction rate is uncoupled from the transport rates and increasing reactor size has no effect on the apparent reaction rate, the macro-scale reaction rate. When these rates are comparable, they are coupled, that is they affect each other. In these situations, increasing reactor size alters mass- and heat-transport rates and changes the apparent reaction rate. Conversions are underestimated in small reactors and selectivity is affected. Selectivity does not exhibit such consistent impacts and any effects of size on selectivity must be deterrnined experimentally. 

We also want to point out the difference between simple rate-dependent phenomena and path-dependent effects. Simple rate dependence means that the internal micromechanical state (as possibly represented by some meso-scale variables) depends only on the current deformation and current rate of deformation the material has no memory of the past. In terms of dislocation dynamics and (7.1), a simple rate-dependent constitutive description would be one in which... 

Rinard dedicated his research to a detailed analysis of methodological aspects of a micro-reactor plant concept which he also termed mini-plant production [85] (see also [4, 9, 10] for a commented, short description). Important criteria in this concept are JIT (Just-in-time) production, zero holdup, inherent safety, modularity and the KISS (keep it simple, stupid) principle. Based on this conceptual definition, Rinard describes different phases in plant development. Essential for his entire work is the pragmatic way of finding process solutions, truly of hybrid character ]149] (miniaturization only where really needed). Recent investigations are concerned with the scalability of hybrid micro-reactor plants and the limits thereof ]149], Expliddy he recommends jointly using micro- and meso-scale components. 

Stainless steel is the material of choice for process chemistry. Consequently, stainless steel microreactors have been developed that include complete reactor process plants and modular systems. Reactor configurations have been tailored from a set of micromixers, heat exchangers, and tube reactors. The dimensions of these reactor systems are generally larger than those of glass and silicon reactors. These meso-scale reactors are primarily of interest for pilot-plant and fine-chemical applications, but are rather large for synthetic laboratories interested in reaction screening. The commercially available CYTOS Lab system (CPC 2007), offers reactor sizes with an internal volume of 1.1 ml and 0.1 ml, and modular microreactor systems (internal reactor volumes 0.5 ml to... 

From the very beginning, continuous reactor concepts, an alternative to the truly microfabricated reactors, were used, for example, static meso-scaled mixers or HPLCs and other smart tubing (see Iwasaki et al. 2006 for an example). This completed functionality by filling niches not yet covered by microfabricated reactors or even by replacing the latter as a more robust, more easily accessed or more inexpensive processing tool. Further innovative equipment, coming from related developments in the process intensification field, is another source e.g., structured packings such as fleeces, foams, or monoliths. 

Supramolecular systems have the capability of achieving functions not accessible by using molecular components.1,2 Supramolecular chemistry provides the framework to move from the molecular world to the nano- and meso-scale world. In this respect, the development of supramolecular systems provides a bottom-up approach for the construction of nanoscale objects where complexity is paramount to achieve multi-step function. Detailed knowledge of the system s thermodynamics and dynamics is required to rationally design new structures and to modify known ones. 

Various works has pointed out the role of the nanostructure of the catalysts in their design.18-26 There is a general agreement that the nanostructure of the oxide particles is a key to control the reactivity and selectivity. Several papers have discussed the features and properties of nanostructured catalysts and oxides,27-41 but often the concept of nanostructure is not clearly defined. A heterogeneous catalyst should be optimized on a multiscale level, e.g. from the molecular level to the nano, micro- and meso-scale level.42 Therefore, not only the active site itself (molecular level) is relevant, but also the environment around the active site which orients or assist the coordination of the reactants, may induce sterical constrains on the transition state, and affect the short-range transport effects (nano-scale level).42 The catalytic surface process is in series with the transport of the reactants and the back-diffusion of the products which should be concerted with the catalytic transformation. Heat... 

ECL (electrochemiluminescence) Meso Scale Discovery Binding of ruthenium-labeled moiety to partner on specialized microplate surface produces amplified photon generation... 

Merz J (2003) Water balances, floods and sediment transport in the Hindu Kush-Himalayas. Data analysis, modeling and comparison of selected meso-scale catchments. Geographica, Bemensia G72 339... 

Pistikopoulos, P., H. M. Wortham, L. Gomes, S. Masclet-Beyne, E. B. Nguyen, P. A. Masclet, and G. Mouvier, Mechaisms of Formation of Particulate Polycyclic Aromatic Hydrocarbons in Relation to the Particle Size Distribution Effects on Meso-Scale Transport, Atmos. Environ., 24A, 2573-2584 (1990b). 

Source apportionment studies are frequently complemented by air mass origin analyses to identify where high pollution levels or certain compounds of interest come from. For small to meso scales this can be done by, e.g. wind rose analysis, whereas long-range transport is better assessed by using back trajectories calculated by a suitable dispersion model [20],... 

Scanning electron microscopy (SEM) (Stern et al., 2005) Hydrate morphology No 15 psi, 77 K microns Meso-scale imaging of hydrate morphology... 

In general, ELISA tests have been implemented in meso-scale instrumentation based on the microtitre plate format, which has become a standard, very widely spread configuration. The analyses are usually performed with a protocol that enables the thermodynamic equilibrium of the immunoreaction to be reached at each step of the assay. In this manner, the capture efficiency is optimised and the obtained results are often very satisfactory in terms of sensitivity and reproducibility. In order to further increase the performances and throughput of these tests, fully automatic robotised stations have been developed, thereby reducing manipulation errors such as dilution or pipetting imprecision, for instance. 

Abstract Intrinsic heterogeneity, from nano- to meso- scales, of lattice/charge/spin... 

The final two chapters discuss modeling of PEFCs. Mukherjee and Wang provide an in-depth review of meso-scale modeling of two-phase transport, while Zhou et al. summarize both the simulation of electrochemical reactions on electrocatalysts and the transport of protons through the polymer electrolyte using atomistic simulation tools such as molecular dynamics and Monte Carlo techniques. 

Mehendale S, Jacoby A, Shah R. Heat exchangers at micro- and meso-scale. In Shah RK et al., eds. Compact Heat Exchangers and Enhancement Technologies for the Process Industry. Begell House, 1999 55-74. 

Ebel A. (2001). Evaluation and reliability of meso-scale air pollution simulations. Led. Notes Comput. Sc., 2179, 255-263. 

Abstract Meso-scale structure is critical to characterize complex systems in... 

MESO-SCALE STRUCTURE—A COMMON CHALLENGE FOR CHEMICAL ENGINEERING... 

Meso-Scale Modeling—The Key to Multi-Scale CFD Simulation... 

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