S. E. Sal’nikov scite author profile

S. E. Sal’nikov

5Publications

2Citation Statements Received

20Citation Statements Given

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Kurchatov Institute

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Hydrogen and sulfuric acid production by electrolysis with anodic depolarization by sulfurous anhydride

et al. 2008

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Practical aspects of improving the efficiency of water electrolysis with anodic depolarization by sulfurous anhydride in an electrolyzer with a solid polymeric electrolyte are discussed. Methods of reducing energy outlays for the production of hydrogen, for example, by altering the organization of the feed of sulfurous anhydride to the reaction zone, are proposed and implemented. This made it possible to remove restraints on the mass transfer of SO 2 , and reduce the overvoltage of the anodic reaction. An electrolyzer is developed and fabricated for the corresponding process with an overall effective electrode area of 12.25 cm 2 . A so-called mixed loop for the feed of sulfurous anhydride, which makes it possible to achieve the following energy characteristics of the electrolysis process is implemented: a cell voltage of 1 V at a current density of 2000 A/m 2 . The yield of hydrogen with respect to the current was 95%, and the energy outlays for the production of 1 m 3 of hydrogen were 2.5 kWh, which amounted to half that for traditional electrolysis. No irreversible degradation of the properties of the electrolyzer was observed during longevity tests over a period of 180 h.Electrolysis with electrooxidation (anodic depolarization) by sulfurous anhydride is the low-temperature stage of the dual-stage thermoelectrochemical cycle of hydrogen and oxygen production using the heat of high-temperature gas-cooled reactors, which was proposed by the Westinghouse Electric Company (United States) in the mid 1970s [1][2][3]. In addition to the electrolysis of water with anodic depolarization by sulfurous anhydride, the closed cycle includes processes involving the concentration of the sulfuric acid that forms on the anode of the electrolyzer, and thermal decomposition of the sulfuric acid with the production of sulfurous anhydride, water, and oxygen.For a hydrogen-oxygen electrolyzer, the equilibrium difference of the potentials (the minimum voltage at which the electrolysis of water begins) is 1.23 V at 25°C, while the actual voltage U at industrial current densities (i = 2000 A/m 2 ) is of the order of 2.2 V. The voltage increases as a result of polarization of the electrodes, and an increase in ohmic losses in the electrolyzer and its current-conducting parts. Moreover, overvoltage of the anode is a basic component of the total overvoltage; depolarization of the anode, for example, by sulfurous anhydride, is therefore one of the most promising means of lowering the electrolysis voltage. Thus, the equilibrium difference in electrolysis potentials with anodic depolarization by the anhydride SO 2 is all of 0.47 V. The possibility of a significant reduction in energy outlays for the production of hydrogen is therefore a basic advantage of this process.Research trending toward the development of electrolyzers for implementation of the above-indicated scheme for the production of hydrogen was being actively conducted in Russia at the outset of the 1970s; this was associated with the development of designs for high-temperature ...

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The Possibility of Electrolyzer With a Solid Polymer Electrolyte Start at Low Temperatures

Фатеев¹,

Лютикова²,

Пименов³

et al. 2015

Alʹtern. ènerg. èkol.

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Low-Temperature Three-Channel Gas Analyzers in Optical Monitoring of Fire Hazard Liquefied Natural Gas Outflows

Загнитько

Zaretskii

Мацуков

et al. 2023

Russ. J. Phys. Chem.

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The high-speed two-channel analyzer of optically dense aerosol emissions based on diode optocouplers with a wavelength of 0.65 and 3.4 microns

Загнитько

Sal’nikov

et al. 2023

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A two-channel analyzer of optically dense flammable aerosol fluxes based on two parallel diode optocouplers with a wavelength of electromagnetic radiation λ=0.65 and 3.4 μm, a speed of tau≤ 0.05 s and the transmission of digitized data to a server up to 1200 m away via the RS-485 interface has been developed. Its design and characteristics in the process of detecting particle streams with a diameter of 0.2 to 5000 μm with an optical density of D≤3.5 are described. It is shown that the values of the ratio of wave attenuation coefficients with λ=0.65 and 3.4 μm to the droplet size calculated on the basis of the theory of radiation scattering Mi are consistent with the experimental ones. The created aerosol analyzer can be used in the express analysis of technogenic airborne emissions of fuel liquids and for the development of large-scale generators of explosive type when creating pulse barriers from clouds of finely dispersed aerosol in the atmosphere. Keywords: aerosol analyzer, speed, diode optocouplers, infrared and visible radiation, attenuation factor, optically dense emissions, Mi scattering theory, fuel liquids.

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Дистанционный Анализатор Криогенных Паров И Капель В Выбросах Сжиженного Природного Газа В Атмосферу

Загнитько¹,

Зарецкий²,

Алексеев³

et al. 2021

Приборы и техн. эксперим.

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S. E. Sal’nikov

Hydrogen and sulfuric acid production by electrolysis with anodic depolarization by sulfurous anhydride

The Possibility of Electrolyzer With a Solid Polymer Electrolyte Start at Low Temperatures

Low-Temperature Three-Channel Gas Analyzers in Optical Monitoring of Fire Hazard Liquefied Natural Gas Outflows

The high-speed two-channel analyzer of optically dense aerosol emissions based on diode optocouplers with a wavelength of 0.65 and 3.4 microns

Дистанционный Анализатор Криогенных Паров И Капель В Выбросах Сжиженного Природного Газа В Атмосферу

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