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System development steps concentrations

In many studies of asymmetric reductions no attempts were made to rationalize either the extent or the sense of the observed asymmetric induction, that is, the absolute configuration of the predominant enantiomer. It is believed that it is premature in certain cases to attempt to construct a model of the transition state of the key reaction step, given the present state of knowledge about the mechanism of these reduction processes. The complexity of many of the reducing systems developed is shown by the fact that the enantiomeric excess or even the sense of asymmetric induction may depend not only on the nature of the reducing agent and substrate, but also on temperature, solvent, concentration, stoichiometry of the reaction, and in some cases the age of the reagent. [Pg.235]

Once the functional relation between the electric quantity and the concentration of a gas constituent is well known for a solid/gas system, numerous development steps remain until a sensor can be put to practical use. The determining factor is the goal of application, for example the gas analysis in the laboratory, industrial gas analysis, its use in medical devices or in motor vehicles. In any case, long-term stable physico-chemical systems have to be established which have to fulfill certain conditions. These concern for example the sample extraction and treatment, the temperature, the stability of total pressure and of material qualities, and the construction in a miniature or mechanically and thermally robust form. With solid electrolytes of the same kind one has come across to completely different sensor designs, depending on the application (Figure 25-1). [Pg.422]

Now you can reconsider the material balance equations by adding those additional factors identified in the previous step. If necessary, estimates of unaccountable losses will have to be calculated. Note that, in the case of a relatively simple manufacturing plant, preparation of a preliminary material-balance system and its refinement (Steps 14 and 15) can usefully be combined. For more-complex P2 assessments, however, two separate steps are likely to be more appropriate. An important rule to remember is that the inputs should ideally equal the outputs - but in practice this will rarely be the case. Some judgment will be required to determine what level of accuracy is acceptable, and we should have an idea as to what the unlikely sources of errors are (e.g., evaporative losses from outside holding ponds may be a materials loss we cannot accurately account for). In the case of high concentrations of hazardous wastes, accurate measurements are needed to develop cost-effective waste-reduction options. It is possible that the material balance for a number of unit operations will need to be repeated. Again, continue to review, refine, and, where necessary, expand your database. The compilation of accurate and comprehensive data is essential for a successful P2 audit and subsequent waste-reduction action plan. Remember - you can t reduce what you don t know is therel... [Pg.378]

The application of the fluorescence derivatization technique in an HPLC method involves utilization of a post column reaction system (PCRS) as shown in Figure 3 to carry out the wet chemistry involved. The reaction is a 2-step process with oxidation of the toxins by periodate at pH 7.8 followed by acidification with nitric acid. Among the factors that influence toxin detection in the PCRS are periodate concentration, oxidation pH, oxidation temperature, reaction time, and final pH. By far, the most important of these factors is oxidation pH and, unfortunately, there is not one set of reaction conditions that is optimum for all of the PSP toxins. The reaction conditions outlined in Table I, while not optimized for any particular toxin, were developed to allow for adequate detection of all of the toxins involved. Care must be exercised in setting up an HPLC for the PSP toxins to duplicate the conditions as closely as possible to those specified in order to achieve consistent adequate detection limits. [Pg.70]

It is important to identify the expensive steps, because it is here that research and development efforts should be concentrated. If the solvent recovery system is inexpensive, the prospective savings to be obtained by thoroughly studying it are small, and the cost of research may exceed any hoped-for saving. Conversely, should the reaction step be expensive, determining the kinetics of the reaction... [Pg.11]

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See also in sourсe #XX -- [ Pg.91 , Pg.92 ]



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Concentration development

Concentration step

Development steps

System Development

Systems developed

Systems, concentrating

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