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Reversal electrolysis

Electrolysis uses electricity to produce a chemical change. A battery, or cell, does the opposite it uses a chemical change to produce electricity. Car batteries ("storage batteries") use both processes electrolysis reverses the chemical changes that occur when the battery is used, and is able to store electrical energy. [Pg.28]

Water electrolysis reverse fuel cell operation... [Pg.12]

Thin films of fullerenes, which were deposited on an electrode surface via, for example, drop coating, were largely heterogeneous, due to the entrapping of solvent molecules into their domains. Consequently, their electrochemical behaviour displayed different degrees of reversibility and stability depending on the time of electrolysis and the... [Pg.2418]

Electrolysis cell. This is shown in Fig. VI, 31, 1 and is almost self-explanatory. The cylindrical cell of Pyrex glass (6" long by 2 " diameter) is cooled by immersion in a cooling bath. The electrodes consist of two platinum plates (4 cm. X 2-5 cm. X 0-3 mm.), which are placed about 2 mm. apart. The temperature of the electrolyte is maintained at 30-35° by means of the internal cooling coil and also by immersion of the cell in ice-water. A current of 1 5-2 0 amperes is passed until the electrolyte becomes slightly alkaline, which normally takes about 20-50 per cent, longer than the calculated time on the basis of the current and the amounts of acid employed. It is advantageous to reverse the direction of the current occasionally. [Pg.939]

Cell Volta.ge a.ndIts Components. The minimum voltage required for electrolysis to begin for a given set of cell conditions, such as an operational temperature of 95°C, is the sum of the cathodic and anodic reversible potentials and is known as the thermodynamic decomposition voltage, is related to the standard free energy change, AG°C, for the overall chemical reaction,... [Pg.484]

Aluminum. All primary aluminum as of 1995 is produced by molten salt electrolysis, which requires a feed of high purity alumina to the reduction cell. The Bayer process is a chemical purification of the bauxite ore by selective leaching of aluminum according to equation 35. Other oxide constituents of the ore, namely siUca, iron oxide, and titanium oxide remain in the residue, known as red mud. No solution purification is required and pure aluminum hydroxide is obtained by precipitation after reversing reaction 35 through a change in temperature or hydroxide concentration the precipitate is calcined to yield pure alumina. [Pg.172]

Current density can be increased without impairing the quaUty of the copper by polishing the cathode surface by brief periodic current reversals (PCR). Reversed current electrolysis, first developed for electroplating, was tested in 1952 for copper refining. Although good results were obtained, no suitable electrical equipment for current reversal was available. The thyristor-controUed siUcon rectifier, introduced in the 1960s, provided a means for... [Pg.204]

Overpotential. It has been found by experiment that the decomposition voltage of an electrolyte varies with the nature of the electrodes employed for the electrolysis and is, in many instances, higher than that calculated from the difference of the reversible electrode potentials. The excess voltage over the calculated back e.m.f. is termed the overpotential. Overpotential may occur at the anode as well as at the cathode. The decomposition voltage ED is therefore ... [Pg.506]

Electrical units 503, 519 Electrification due to wiping 77 Electro-analysis see Electrolysis and Electrogravimetry Electrochemical series 63 Electro-deposition completeness of, 507 Electrode potentials 60 change of during titration, 360 Nernst equation of, 60 reversible, 63 standard 60, (T) 62 Electrode reactions 505 Electrodeless discharge lamps 790 Electrodes antimony, 555 auxiliary, 538, 545 bimetallic, 575... [Pg.862]

Similar considerations apply of course to the opposing electromotive forces of polarisation during electrolysis, when the process is executed reversibly, since an electrolytic cell is, as we early remarked, to be considered as a voltaic cell working in the reverse direction. In this way Helmholtz (ibid.) was able to explain the fluctuations of potential in the electrolysis of water as due to the variations of concentration due to diffusion of the dissolved gases. It must not be forgotten, however, that peculiar phenomena—so-called supertension effects—depending on the nature of the electrodes, make their appearance here, and com-... [Pg.481]

Linhart reports that the most reversible (Hs, H+) electrode was obtained by depositing, by electrolysis, finely divided Ir metal on a gold-plated Pt wire. Freshly generated H2 gas was bubbled over this electrode to complete the half cell. [Pg.481]

The formation of new nuclei and of a fine-crystalline deposit will also be promoted when a high concentration of the metal ions undergoing discharge is maintained in the solution layer next to the electrode. Therefore, concentration polarization will have effects opposite those of activation polarization. Rather highly concentrated electrolyte solutions, vigorous stirring, and other means are employed to reduce concentration polarization. Sometimes, special electrolysis modes are employed for the same purposes currents that are intermittent, reversed (i.e., with periodic inverted, anodic pulses), or asymmetric (an ac component superimposed on the dc). [Pg.314]


See other pages where Reversal electrolysis is mentioned: [Pg.941]    [Pg.941]    [Pg.941]    [Pg.484]    [Pg.484]    [Pg.237]    [Pg.941]    [Pg.941]    [Pg.941]    [Pg.941]    [Pg.941]    [Pg.484]    [Pg.484]    [Pg.237]    [Pg.941]    [Pg.941]    [Pg.291]    [Pg.218]    [Pg.219]    [Pg.417]    [Pg.462]    [Pg.310]    [Pg.175]    [Pg.345]    [Pg.563]    [Pg.333]    [Pg.285]    [Pg.79]    [Pg.11]    [Pg.341]    [Pg.231]    [Pg.205]    [Pg.505]    [Pg.506]    [Pg.524]    [Pg.622]    [Pg.623]    [Pg.481]    [Pg.1005]    [Pg.1408]    [Pg.1422]    [Pg.85]    [Pg.412]    [Pg.1005]    [Pg.939]    [Pg.73]   
See also in sourсe #XX -- [ Pg.122 ]




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Reverse electrolysis

Reverse electrolysis

Water electrolysis reverse fuel cell operation

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