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Inherently energy limitation

In practice, overpressures in one case might very well be only one-fifth of those predicted by the method and close to the predicted value in another case. This inherent inaccuracy limits the value of this method in postaccident analysis. Even when overpressures can be accurately estimated from blast damage, released energy can only be estimated within an order of magnitude. [Pg.223]

The major advantages unique to cryoenzymology stem from the potential to accumulate essentially all of the enzyme in the form of a particular intermediate. The large rate reductions allow the most specific substrates to be used and hence provide the most accurate model for the in vivo catalyzed reactions. Virtually all the standard chemical and biophysical techniques used in studying proteins and enzymes under normal conditions may be used at subzero temperatures. The main limitations of the technique are the necessity to use aqueous organic cryosolvent systems to prevent the inherent rate-limiting enzyme-substrate diffusion of frozen solutions, and the possibility that the potential-energy surface for the reaction may be such that conditions in which an intermediate accumulates cannot be attained. [Pg.41]

Hydraulic energy will increase slightly, but of course has an inherent natural limit except for hydraulic storage of excess energy by means of pumping stations and water reservoirs. Also, sea waves and tide energy may be developed at certain coastal sites. [Pg.442]

Homogeneous sonochemistry typically is not a very energy efficient process (although it can be mote efficient than photochemistry), whereas heterogeneous sonochemistry is several orders of magnitude better. Unlike photochemistry, whose energy inefficiency is inherent in the production of photons, ultrasound can be produced with neatly perfect efficiency from electric power. A primary limitation of sonochemistry remains the small fraction... [Pg.261]

Alternative Processes for Aluminum Production. In spite of its industrial dominance, the HaH-HAroult process has several inherent disadvantages. The most serious is the large capital investment requited resulting from the multiplicity of units (250 —1000 cells in a typical plant), the cost of the Bayer aluniina-puriftcation plant, and the cost of the carbon—anode plant (or paste plant for Soderberg anodes). Additionally, HaH-HAroult cells requite expensive electrical power rather than thermal energy, most producing countries must import alumina or bauxite, and petroleum coke for anodes is in limited supply. [Pg.100]

Global AMI.5 sun illumination of intensity 100 mW/cm ). The DOS (or defect) is found to be low with a dangling bond (DB) density, as measured by electron spin resonance (esr) of - 10 cm . The inherent disorder possessed by these materials manifests itself as band tails which emanate from the conduction and valence bands and are characterized by exponential tails with an energy of 25 and 45 meV, respectively the broader tail from the valence band provides for dispersive transport (shallow defect controlled) for holes with alow drift mobiUty of 10 cm /(s-V), whereas electrons exhibit nondispersive transport behavior with a higher mobiUty of - 1 cm /(s-V). Hence the material exhibits poor minority (hole) carrier transport with a diffusion length <0.5 //m, which puts a design limitation on electronic devices such as solar cells. [Pg.360]

The industrial economy depends heavily on electrochemical processes. Electrochemical systems have inherent advantages such as ambient temperature operation, easily controlled reaction rates, and minimal environmental impact (qv). Electrosynthesis is used in a number of commercial processes. Batteries and fuel cells, used for the interconversion and storage of energy, are not limited by the Carnot efficiency of thermal devices. Corrosion, another electrochemical process, is estimated to cost hundreds of millions of dollars aimuaUy in the United States alone (see Corrosion and CORROSION control). Electrochemical systems can be described using the fundamental principles of thermodynamics, kinetics, and transport phenomena. [Pg.62]

Any computation, whether performed by a slide rule, computer work station or brain, is inherently a physical process, and as such is therefore subject to whatever laws and limitations apply to physical systems in general. It is a natural question to ask, then, whether there exists a fundamental therniodynamic limit to computation i.e, whether there is a rniiiimuin amount of energy that is required to perform a given logical operation ... [Pg.634]


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See also in sourсe #XX -- [ Pg.55 ]




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