Big Chemical Encyclopedia

Chemical substances, components, reactions, process design ...

Articles Figures Tables About

Fundamentals references

The latest tw o-phase flow research and design studies have broadened the interpretation of some of the earlier flow patterns and refined some design accuracy for selected situations. The method presented here serves as a fundamental reference source for further studies. It is suggested that the designer compare several design concept results and interpret which best encompasses the design problem under consideration. Some of the latest references are included in the Reference Section. No one reference has a solution to all two-phase flow problems. [Pg.124]

This review deals mainly with BL analytical applications in the last 10-15 past years, but some previous fundamental works are also listed. In Table 3 some fundamentals references of general interest and the findings of recent symposia on this topic are collected. In the journal Luminescence, the Journal of Biological and Chemical Luminescence (previously Journal of Bioluminescence and Chemiluminescence) are also reported surveys of the recent literature on selected topics (like ATP or GFP applications), instruments, and kits commercially available. [Pg.251]

Comments on some trends and on the Divides in the Periodic Table. It is clear that, on the basis also of the atomic structure of the different elements, the subdivision of the Periodic Table in blocks and the consideration of its groups and periods are fundamental reference tools in the description and classification of the properties and behaviour of the elements and in the definition of typical trends in such characteristics. Well-known chemical examples are the valence-electron numbers, the oxidation states, the general reactivity, etc. As far as the intermetallic reactivity is concerned, these aspects will be examined in detail in the various paragraphs of Chapter 5 where, for the different groups of metals, the alloying behaviour, its trend and periodicity will be discussed. A few more particular trends and classification criteria, which are especially relevant in specific positions of the Periodic Table, will be summarized here. [Pg.229]

It is a relatively simple process to set up a scale of redox potentials in a non-aqueous medium using the standard hydrogen electrode in that medium as the fundamental reference electrode. Thus in liquid ammonia, which is a well studied non-aqueous solvent and for which there exists a considerable amount of thermodynamic information,31 the scale of standard electrode potentials is referred to the standard hydrogen electrode in liquid ammonia (equation 25), which is assigned the value of zero volts, and in which the H+ exists as a solvated species, i.e. NH4+. [Pg.511]

Denbigh, K., The Principles of Chemical Equilibrium, Cambridge University Press, London, 1981. A fundamental reference book on chemical thermodynamics that should be in the library of all soil chemists. Chapters 1, 2, 10, and 15 are especially useful. [Pg.33]

The fundamental references in gas-solid adsorption are the works by Fowler and Guggenheim [12], Everett [13], and Hill [14,15], and the books by Young and Crowell [16], de Boer [17], Kiselev [4], and more recently by Ruthven [18] and T6th [19], who gives a clear, logical, and simple presentation of this topic. We present first a few theoretical results obtained in the study of gas-sohd adsorption, results that have been extended semiempirically to liquid-solid adsorption [18]. Then, we describe the various isotherm models that have been used in the study of retention mechanisms in liquid chromatography. [Pg.71]

Legal framework conditions can have national and international origins but also be of a supranational nature, e.g. the EU law. This is because international and, above all, supranational legal norms are often transposed into national French law (see also general Introduction). In French law, the specific national regulatory framework consists of various levels. All the national and international legal norms bear fundamental reference to constitutional norms, unless prior-ranking... [Pg.72]

Vfe will start this review with a list of fundamental references in the ield of IPGs they contain practically all the basic developments and the information the readers will seek in this new electrophoretic technique ... [Pg.34]

The Status of the Hydrogen Electrode. Probably no area of electrochemistry is more greatly neglected in current texts than the history of the choice of the hydrogen electrode as the reference standard for electromotive force measurements. Since all tables of potentials of oxidation-reduction half-reactions are based on the half-cell reaction 35H2=H +e , it would seem that the selection of this reaction as the standard should warrant more attention. If the selection is treated at all, it is usually dismissed as an arbitrary choice, which it is, with no reference made to the people and events involved in establishing this fundamental reference point for the EMF scale. One possible exception may be noted ( ). The referenced edition of this work is perhaps the best previously existing source on this topic. However, the subsequent edition omits the subject entirely. [Pg.127]

Multiphase Polymer Systems Micro- to Nano structural Evolution in Advanced Technologies is a fundamental reference work on copolymers, polymer blends, polymer composites, interpenetrating polymers, and layered polymer/metal structures, covering aspects of science, engineering, technology, and application. [Pg.364]

In this textbook, 1 give only a brief look in the permanently growing literature and the fascinating results. Fundamental references are Kayser et al. (2006), Andersen (2014), Blunt et al. (2013), Kalam (2012), Knackstedt et al. (2008), and Ams et al. (2005). [Pg.81]


See other pages where Fundamentals references is mentioned: [Pg.472]    [Pg.99]    [Pg.105]    [Pg.249]    [Pg.391]    [Pg.169]    [Pg.6]    [Pg.172]    [Pg.6]    [Pg.18]    [Pg.495]    [Pg.459]    [Pg.282]    [Pg.107]    [Pg.281]    [Pg.515]   
See also in sourсe #XX -- [ Pg.47 ]




SEARCH



© 2024 chempedia.info