SYSTEM AND METHOD OF PRODUCING HYDROGEN FROM SUPERHEATED WATER STEAM Russian patent published in 2024 - IPC C25B1/42 C25B1/50 C25B9/00 C25B15/02 

Abstract RU 2831439 C1

FIELD: various technological processes.

SUBSTANCE: invention can be used in designing devices for producing hydrogen as fuel, including at energy-intensive industrial facilities. Disclosed is a system for producing hydrogen from superheated water vapour, which includes the following units: a generating unit consisting of a central electrode arranged coaxially in the direction from the centre to the periphery, a cathode, a tube from a solid oxide electrolyte with ionic conductivity of oxygen sealed at one end, an anode and permanent magnets; electric power unit supplying voltage to cathode, anode and central electrode; control unit; measuring gas unit. Control unit receives data from the measuring gas unit, and also performs two-way interaction with the power electric unit. Power electric unit, the control unit and the measuring gas unit are combined into one unit, which performs two-way interaction with the generating unit. Measuring gas unit is a system of sensors. Also disclosed is a method of producing hydrogen using this system.

EFFECT: group of inventions simplifies the design of the hydrogen production system and enables to adjust the process, automate, control, obtain controlled effective feedback, expand the range of energy-efficient means and methods for producing hydrogen.

5 cl, 2 dwg, 1 ex

Similar patents RU2831439C1

Title Year Author Number
HIGH-ACTIVE MULTI-LAYERED THIN-FILMED CERAMIC STRUCTURE OF ACTIVE PART OF ELEMENTS OF SOLID OXIDE DEVICES 2016
  • Lipilin Aleksandr Sergeevich
  • Shkerin Sergej Nikolaevich
  • Nikonov Aleksej Viktorovich
  • Gyrdasova Olga Ivanovna
  • Spirin Aleksej Viktorovich
  • Kuzmin Anton Valerevich
RU2662227C2
SOLID ELECTROLYTE SENSOR FOR AMPEROMETRIC MEASUREMENT OF GAS MIXTURE MOISTURE 2011
  • Demin Anatolij Konstantinovich
  • Volkov Aleksandr Nikolaevich
  • Kaljakin Anatolij Sergeevich
  • Fadeev Gennadij Ivanovich
  • Gorelov Valerij Pavlovich
  • Kuz'Min Anton Valer'Evich
RU2483300C1
GENERATOR OF GAS HUMIDITY 2012
  • Kaljakin Anatolij Sergeevich
  • Fadeev Gennadij Ivanovich
  • Gorelov Valerij Pavlovich
  • Demin Anatolij Konstantinovich
  • Gorbova Elena Vladimirovna
  • Volkov Aleksandr Nikolaevich
RU2506565C1
ELECTROCHEMICAL ENERGY CONVERTER 2014
  • Stoljarevskij Anatolij Jakovlevich
RU2556888C1
SENSOR FOR MEASURING OXYGEN CONTAINING MELT LICL-LI2O-LI AND ATMOSPHERE ABOVE MELT 2019
  • Kalyakin Anatolij Sergeevich
  • Volkov Aleksandr Nikolaevich
  • Volkov Kirill Evgenevich
  • Zajkov Yurij Pavlovich
RU2722613C1
HIGH-TEMPERATURE ELECTROLYTIC CELL OF HIGH-PRESSURE THAT PERFORMS ALLOTHERMAL PROCESS 2008
  • Ozholle Patrik
RU2441106C2
ELECTROLYTIC CELL FOR PRODUCING HYDROGEN 2017
  • Fratti Giovanni
  • Cremonese Roberto
  • Boccia Massimiliano
RU2733726C2
ELECTRIC GENERATOR 2002
  • Stashevskij I.I.
RU2230197C2
SYSTEM AND METHOD FOR PRODUCING CHEMICAL POTENTIAL ENERGY 2009
  • Karni Jakob
  • Ferdiman Gidon
  • Aleshin Jurij
RU2509828C2
DEVICE AND METHOD OF PRODUCING GAS 2012
  • Akosta Estrada Marselo
RU2585015C1

RU 2 831 439 C1

Authors

Bakanov Pavel Pavlovich

Bakanov Ivan Pavlovich

Chernoborodov Vadim Igorevich

Dates

2024-12-06Published

2024-06-24Filed