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Hydrogen thermodynamic data

The thermodynamic data pertinent to the corrosion of metals in aqueous media have been systematically assembled in a form that has become known as Pourbaix diagrams (11). The data include the potential and pH dependence of metal, metal oxide, and metal hydroxide reactions and, in some cases, complex ions. The potential and pH dependence of the hydrogen and oxygen reactions are also suppHed because these are the common corrosion cathodic reactions. The Pourbaix diagram for the iron—water system is given as Figure 1. [Pg.275]

Thermodynamic data on H2, the mixed hydrogen—deuterium molecule [13983-20-5] HD, and D2, including values for entropy, enthalpy, free energy, and specific heat have been tabulated (16). Extensive PVT data are also presented in Reference 16 as are data on the equihbrium—temperature... [Pg.3]

The thermodynamic data for the formation of the IVB diborides together with the coiTespotrditrg hydrogen halides are as follows ... [Pg.107]

The Af-HjO diagrams present the equilibria at various pHs and potentials between the metal, metal ions and solid oxides and hydroxides for systems in which the only reactants are metal, water, and hydrogen and hydroxyl ions a situation that is extremely unlikely to prevail in real solutions that usually contain a variety of electrolytes and non-electrolytes. Thus a solution of pH 1 may be prepared from either hydrochloric, sulphuric, nitric or perchloric acids, and in each case a different anion will be introduced into the solution with the consequent possibility of the formation of species other than those predicted in the Af-HjO system. In general, anions that form soluble complexes will tend to extend the zones of corrosion, whereas anions that form insoluble compounds will tend to extend the zone of passivity. However, provided the relevant thermodynamic data are aveiil-able, the effect of these anions can be incorporated into the diagram, and diagrams of the type Af-HjO-A" are available in Cebelcor reports and in the published literature. [Pg.68]

Projections, linearly independent, 293 Propagation, of polymerization, 158 Propane, hydrate, 10, 33, 43, 46, 47 hydrate thermodynamic data and lattice constants, 8 + iodoform system, 99 Langmuir constant, 47 water-hydrogen sulfide ternary system, 53... [Pg.410]

Sulfur. It is not readily predictable from existing thermodynamic data that sulfur would be a poison of nickel catalysts. The action of sulfur is undoubtedly through the reaction of hydrogen sulfide with nickel, according to ... [Pg.25]

The equilibrium ratios of hydrogen-to-hydrogen sulfide for the reaction, derived (34) from available thermodynamic data (35), are plotted in Figure 10 as a function of temperature. When Ph2/Ph2s over the catalyst is less than the equilibrium value, the nickel can be sulfided and hence poisoned. Conversely, when this ratio is greater than the equi-... [Pg.25]

Indirect methods used can profit by the thermodynamic data of a particular metal-hydrogen system. The determination of the H/Me ratio after complete desorption of hydrogen from a sample, despite an apparent simplicity of the method, gives adequate results only when the bulk metal sample was entirely saturated with hydrogen, and that is a very rare case. The metal catalyst crystallites can be saturated in a nonuniform way, not through their whole thickness. The surface of this polycrystalline sample varies to such extent in its behavior toward interaction with hydrogen that hydride forms only in patches on its surface. A sample surface becomes a mosaique of /3-hydride and a-phase areas (85). [Pg.287]

Little work has been carried out using electrochemical cells to analyze for impurities. Thermodynamic data have been measured for the interaction of nuclear fuels with liquid potassium using cells based on ThOj-YjOj electrolytes, so such cells could be used to monitor oxygen. Both the diffusion and electrochemical types of hydrogen and carbon meters should function satisfactorily in liquid potassium. [Pg.346]

C14-0105. The most important commercial process for generating hydrogen gas is the water-gas shift reaction CH4(g) + H2 0(g) 00(g) -1-3 H2(g) Use tabulated thermodynamic data to find A G and... [Pg.1040]

Hydrogen bonding and complexing properties TABLE 4. Thermodynamic data for formation of phenol adducts... [Pg.547]

Raevsky and co-workers have collected a large database of thermodynamic data related to hydrogen bonding with which they have developed the HYBOT program... [Pg.393]

Table 2.1 Thermodynamic data for the reduction of metal oxides in hydrogen at 400 °C [4]. Table 2.1 Thermodynamic data for the reduction of metal oxides in hydrogen at 400 °C [4].
In volts versus normal hydrogen electrode (NHE). Calculated from thermodynamic data (47). [Pg.157]

Since the solvent properties of dimethyl sulfoxide are widely different from those of hydrocarbons and halogenated hydrocarbons, it may be difficult to compare the kinetic and thermodynamic data for the C02H group (Table 16) directly with others. However, heating the carboxylic acid (68, X = OH) in toluene affords the sp isomer almost exclusively. Probably, the observed results with the carboxylic acid derive from difficulty in the formation of a hydrogen bond owing to a steric effect, in addition to the nonplanar conformation of the carboxyl group relative to the naphthalene. [Pg.44]

Reaction (9) generates methyl iodide for the oxidative addition, and reaction (10) converts the reductive elimination product acetyl iodide into the product and it regenerates hydrogen iodide. There are, however, a few distinct differences [2,9] between the two processes. The thermodynamics of the acetic anhydride formation are less favourable and the process is operated much closer to equilibrium. (Thus, before studying the catalysis of carbonylations and carboxylations it is always worthwhile to look up the thermodynamic data ) Under standard conditions the AG values are approximately ... [Pg.116]

Table 1 Thermodynamics Data for the hydrogen-oxygen fuel cell... Table 1 Thermodynamics Data for the hydrogen-oxygen fuel cell...

See other pages where Hydrogen thermodynamic data is mentioned: [Pg.328]    [Pg.531]    [Pg.1163]    [Pg.63]    [Pg.404]    [Pg.404]    [Pg.263]    [Pg.418]    [Pg.419]    [Pg.547]    [Pg.82]    [Pg.565]    [Pg.74]    [Pg.547]    [Pg.180]    [Pg.369]    [Pg.110]    [Pg.91]    [Pg.394]    [Pg.154]    [Pg.141]    [Pg.42]    [Pg.19]    [Pg.1390]    [Pg.30]    [Pg.252]    [Pg.1063]    [Pg.105]    [Pg.156]    [Pg.119]    [Pg.234]    [Pg.131]   
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Hydrogen data

Thermodynamic data

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