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Fluid—solid reactions multiple reaction systems

In this review, almost all of the simulations we have described use only classical mechanics to describe the nuclear motion of the reaction system. However, a more accurate analysis of many reactions, including some of the ones that have already been simulated via purely classical mechanics, will ultimately require some infusion of quantum mechanical methods. This infusion has already taken place in several different types of reaction dynamics electron transfer in solution, > i> 2 HI photodissociation in rare gas clusters and solids,i i 22 >2 ° I2 photodissociation in Ar fluid,and the dynamics of electron solvation.22-24 Since calculation of the quantum dynamics of a full solvent is at present too time-consuming, all of these calculations involve a quantum solute in a classical solvent. (For a system where the solvent is treated quantum mechanically, see the quantum Monte Carlo treatment of an electron transfer reaction in water by Bader et al. O) As more complex reaaions are investigated, the techniques used in these studies will need to be extended to take into account effects involving electron dynamics such as curve crossing, the interaction of multiple electronic surfaces and other breakdowns of the Born-Oppenheimer approximation, the effect of solvent and solute polarization, and ultimately the actual detailed dynamics of the time evolution of the electronic degrees of freedom. [Pg.137]

In this article it has been shown, that the low temperature photopolymerization reaction of diacetylene crystals is a highly complex reaction with a manifold of different reaction intermediates. Moreover, the diacetylene crystals represent a class of material which play a unique role within the usual polymerization reactions conventionally performed in the fluid phase. The spectroscopic interest of this contribution has been focussed mainly on the electronic properties of the different intermediates, such as butatriene or acetylene chain structure, diradical or carbene electron spin distributions and spin multiplicities. The elementary chemical reactions within all the individual steps of the polymerization reaction have been successfully investigated by the methods of solid state spectroscopy. Moreover we have been able to analyze the physical and chemical primary and secondary processes of the photochemical and thermal polymerization reaction in diacetylene crystals. This success has been largely due to the stability of the intermediates at low temperatures and to the high informational yield of optical and ESR spectroscopy in crystalline systems. [Pg.88]

Even multiple phases such as gas or liquid phases may be simultaneously present in a catalytic reactor. In such a case, the gas molecules are, at first, dissolved in the liquid bulk, after which they diffuse to the surface of the catalyst. This is where the actual reaction takes place. The industrial system is called a three-phase reactor. Three-phase reactors are discussed in Chapter 6 here, we will concentrate on catalytic two-phase reactors, in which a fluid—gas or liquid— reacts on the surface of a solid catalyst. The most commonly encoimtered types of catalytic two-phase reactors that are used industrially are a packed (fixed) bed reactor, a fluidized bed reactor, and a moving bed reactor. [Pg.145]


See other pages where Fluid—solid reactions multiple reaction systems is mentioned: [Pg.394]    [Pg.58]    [Pg.430]    [Pg.55]    [Pg.319]    [Pg.159]    [Pg.330]    [Pg.2]    [Pg.391]    [Pg.79]    [Pg.902]    [Pg.197]    [Pg.72]   
See also in sourсe #XX -- [ Pg.148 , Pg.151 ]




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