Hidrógeno electrolítico

HYDROGEN GENERATOR HAVING CONDENSATE WATER COLLECTION FUNCTION

Resumen de: WO2026081643A1

A hydrogen generator having a condensate water collection function, comprising a water tank, an electrolytic tank, a condensing and filtering device, a humidifier, and an integrated flow channel device, wherein the water tank comprises an accommodating space for accommodating electrolytic water; the electrolytic tank receives the electrolytic water to generate and output a hydrogen-containing gas; the condensing and filtering device is coupled to the electrolytic tank to condense and filter the hydrogen-containing gas; the humidifier comprises a water collection chamber and a humidification chamber isolated from each other; the water collection chamber is used for collecting condensate water generated from the hydrogen-containing gas after condensation, and the humidification chamber is used for accommodating make-up water and receiving the hydrogen-containing gas into the make-up water; and the integrated flow channel device is coupled to the water tank, the electrolytic tank, the condensing and filtering device, and the humidifier, so that the make-up water in the humidification chamber can be supplemented from the humidification chamber, the water collection chamber, and the condensing and filtering device into the water tank.

METHOD FOR PRODUCING HYDROGEN

Resumen de: WO2026082793A1

The invention relates to a method and plant for producing hydrogen comprising an electrochlorination unit (10) and a water electrolysis unit (11). In the electrochlorination unit (10), seawater (12) or brine is electrolyzed to produce a liquid hypochlorite stream and an oxygen-polluted hydrogen gas stream. The hydrogen gas is separated from the liquid phase in a degasser vessel (18). High-purity hydrogen produced in the water electrolysis unit (11) from demineralized water (22) is divided into two portions, one portion (37) being mixed with the oxygen-polluted hydrogen in the degasser vessel (18) to form a non-flammable mixed gas, and the other portion (38) being supplied to an ejector (50) for compressing and further concentrating the mixed hydrogen. Optionally, residual oxygen is removed in a DE-OXO unit (54). The invention enables recovery and utilization of hydrogen from electrochlorination processes while improving overall hydrogen yield and safety.

ELECTROLYSER CELL ADAPTED FOR ELECTROLYZING WATER INTO HYDROGEN AND OXYGEN AND A METHOD FOR PREPARING AN ELECTROLYSER CELL ADAPTED FOR ELECTROLYZING WATER INTO HYDROGEN AND OXYGEN

Resumen de: WO2026082452A1

An electrolyser cell comprises a diaphragm which partitions the cell into a cathode chamber and an anode chamber and wherein an oxygen evolving anode electrode arranged at the anode chamber side of the diaphragm and a hydrogen evolving cathode electrode arranged at the cathode chamber side of the diaphragm is provided. A spacer is provided between the cathode electrode and the diaphragm, and/or between the anode electrode and the diaphragm which spacer is adapted to ensure contact between electrolyte fluid elements in the cathode and/or in the anode chamber and the diaphragm, and adapted to ensure a pre-determined non-zero distance D between the cathode electrode and/or the anode electrode and the diaphragm.

SYSTEMS AND METHODS FOR INTEGRATED MODULAR PRODUCTION OF HYDROGEN FRESHWATER, AND BIOELECTRICITY

Resumen de: US20260110100A1

0000 Provided are systems and methods for multi-process generators employing fermentation, desalination, and electrolysis technologies. The generator system includes a fermentation compartment configured to receive a mixture of biomass waste and an anaerobic microorganism solution comprising bacteria for bioenergy production; an electrolysis compartment configured to receive an electrolyte solution comprising a saline mixture, the electrolysis compartment including first and second spaced apart electrodes at least partially submerged in the electrolyte solution; and a desalination compartment positioned between the fermentation compartment and the electrolysis compartment, the desalination compartment configured to receive a saline solution and comprising an anion exchange membrane separating the desalination compartment from the electrolysis compartment and a cation exchange membrane separating the desalination compartment from the fermentation compartment, wherein the desalination compartment is configured to perform ion exchange processes to produce freshwater.

ELECTROCHEMICAL CELL SYSTEM INCLUDING HIGH DENSITY COLUMN MODULE ARCHITECTURE

Resumen de: US20260110102A1

0000 An electrochemical column module includes a column support, columns of electrochemical cells arranged in a row and disposed on the column support, electrical contacts configured to electrically connect the columns to a power source, a first conduit housing, a second conduit housing, an inlet conduit that extends through the first conduit housing and is fluidly connected to the columns, and an outlet conduit that extends through the second conduit housing and is fluidly connected to the columns.

METHANOL PRODUCTION METHOD AND METHANOL PRODUCTION DEVICE

Resumen de: AU2024412535A1

A methanol production method comprising: a step (A) for acquiring a synthesis gas comprising at least carbon dioxide and hydrogen; a step (B) for reacting the synthesis gas in the presence of a catalyst to obtain a methanol mixture; a step (C) for distilling the methanol mixture to separate out each of methanol, a distillation waste liquid, and distillation wastewater; and a step (D) for subjecting the distillation waste liquid and/or the distillation wastewater to an organic matter decomposition treatment to obtain a decomposition gas and treated water.

グリーン水素を使用したアンモニア合成のためのプロセスおよびアンモニアプラントを改造するための方法

Resumen de: AU2024257970A1

Process for synthesis of ammonia wherein: ammonia make-up gas (7) containing hydrogen and nitrogen is reacted in an ammonia converter (15) under ammonia forming conditions thus obtaining an ammonia-containing effluent (8); a first hydrogen portion contained in the ammonia make-up gas (7) is produced by reforming a hydrocarbon source (1) in a reforming process (100); a second hydrogen portion (19) contained in the ammonia make-up gas (7) is produced separately from said reforming process (100), by using at least a renewable energy source (SE, WE); a part of said hydrogen (19) produced in step (c) is stored in a hydrogen storage (103); hydrogen (20) from said hydrogen storage (103) is used to fully or partially replace said second hydrogen portion (19) when said renewable energy source (SE, WE) is fully or partially unavailable. Said process comprising the steps of: assessing an expected flow rate of the hydrogen (19) produced in step (c); adjusting a flow rate of the hydrocarbon source (1) so that a flow rate of the first hydrogen portion in said ammonia make- up gas (7) is in a desired ratio with respect to said expected flow rate; detecting an actual amount, e.g., a filling level, of said hydrogen in said hydrogen storage (103); detecting an actual flow rate of hydrogen produced using the renewable energy source (SE, WE), and adjusting a flow rate of the hydrogen (20) from said hydrogen storage (103) depending on said actual amount detected in said hydrogen storage (103) and

層状酸硫化物、可視光応答型光触媒、及び水分解方法

Resumen de: JP2026068608A

0001 【課題】層間水和能、イオン交換能、可視光吸収能及び水分解能を兼ね備える新規物質を提供する。 【解決手段】酸硫化物層と層間イオンとの交互積層により構成されており、水分子が層間に挿入可能な層間水和能、及び層間イオンを異種イオンに交換可能な層間イオン交換能を備えており、かつ可視光を吸収して光触媒として機能する、層状酸硫化物とする。また、層状酸硫化物を含む可視光応答型光触媒、並びに層状酸硫化物を用いる水素及び／又は酸素の生成方法とする。 【選択図】なし

電気化学電極構造、電気化学セル、および有限ギャップ電気化学セルをゼロギャップ型電気化学セルに改造する方法

Resumen de: EP4446466A1

0001 The present invention relates to an electrochemical electrode structure comprising a current collector and at least one electrode element, wherein the at least one electrode element is a two-dimensionally extended electrically conductive element having an open structure. In this electrochemical electrode structure, the at least one electrode element has at least one edge with a hemming rim at which a strip portion of the electrode is hemming bent away. Moreover, the invention relates to an electrochemical cell comprising a first electrode, a second electrode and a separator, with either the first electrode or the second electrode or both electrodes being such an electrochemical electrode structure as well as to a method of retrofitting a finite-gap electrochemical cell into a zero-gap type electrochemical cell using such electrochemical electrode structure.

スタックモジュール、スタックモジュールを備えた固体酸化物電解装置、及び固体酸化物電解装置のスタックモジュールの交換方法

Resumen de: WO2024088907A2

The present invention relates to stack module with at least one Solid Oxide electrolysis stack that comprises a plurality of stacked Solid Oxide electrolysis cells, wherein the stack module comprises two gas inlet connections and two gas outlet connections. According to the invention, the at least one Solid Oxide electrolysis stack is encapsulated in a metal container, wherein the two gas inlet connections and the two gas outlet connections are attached to the metal container. The invention further relates to Solid Oxide Electrolyzer with at least one stack module and a method of exchanging a stack module of a Solid Oxide Electrolyzer.

BIPOLAR PLATE, END PLATE AND ALKALINE ELECTROLYZER

Resumen de: EP4729659A1

The present application provides a bipolar plate, an end plate and an alkaline electrolyzer. The positions of a first alkali liquor inlet through hole group and a second alkali liquor inlet through hole group are rationally arranged at the bottom of an electrode frame, such that when the bipolar plate is applied to the alkaline electrolyzer, alkali liquor firstly enters a first alkali liquor inlet channel formed by first through holes of the first alkali liquor inlet through hole group and a second alkali liquor inlet channel formed by first through holes of the second alkali liquor inlet through hole group from one end of the alkaline electrolyzer. After arriving at the other end of the alkaline electrolyzer, the alkali liquor enters individual electrolysis cells from second through holes of the first alkali liquor inlet through hole group and second through holes of the second alkali liquor inlet through hole group, so as to realize uniform distribution of the alkali liquor, and solves the problem of the uneven distribution of the alkali liquor caused by the excess length of an electrolyzer body of a large alkaline electrolyzer, thus preventing the operating conditions of the alkaline electrolyzer from getting worse, improving the efficiency of hydrogen production, and finally achieving the purpose of saving the electric energy consumption of the alkaline electrolyzer.

SYSTEM AND METHOD FOR GENERATING AND PROVIDING HYDROGEN GAS TO A COMBUSTION ENGINE

Resumen de: WO2025029154A1

The present invention relates to a system and method for generating and providing hydrogen to a combustion engine, and for controlling the generation and provision of hydrogen to a combustion engine; comprising a combustion engine; an electrolysis cell for converting water into hydrogen gas and oxygen gas, wherein the electrolysis cell is at least fluidly connected to the combustion engine; an electronic process control system is operatively connected to the electrolysis cell to control the generation of hydrogen gas and delivery of hydrogen gas to the combustion engine; and an enclosure comprising an explosion protection system and/or walls of glass fibre or carbon fibre reinforced thermosetting polymer or metallic material, and wherein the enclosure comprises at least part of the electronic process control system.

SYSTEM FOR PRODUCING SODIUM HYPOCHLORITE AND HYDROGEN GAS

Resumen de: EP4729490A1

0001 One aspect of the present invention provides a system for manufacturing sodium hypochlorite and hydrogen gas, comprising: a desalination module generating a fresh water stream and a concentrated water stream by desalinating seawater; a crystallization module generating a solid raw material including sodium chloride by crystallizing the concentrated water stream; an electrolysis module generating sodium hypochlorite and by-product gas by electrolyzing reactants derived from the solid raw material and water; and a gas purification module generating hydrogen gas by purifying the by-product gas.

METHOD OF CONTROLLING AN ELECTROLYSER CELL STACK

Resumen de: WO2024256820A1

The present invention provides a method of controlling an electrolyser cell stack within a system having a fluid temperature control system, a current control system, a voltage monitoring system, monitoring/control systems for the temperatures of the fluid inlet and outlet, by controlling the current to a fixed value, calculating a temperature delta between the fluid inlet and outlet, and adjusting the fluid input temperature if the delta is greater than a threshold value. The present invention also provides a method of determining a stack operating condition is the temperature delta as measured above is lower than a threshold value. The present invention also provides a control device and computer program capable of executing the method as outlined above.

ELECTROCHEMICAL CELL AND METHOD AND SYSTEM FOR MANUFACTURING AN ASSEMBLY FOR THE ELECTROCHEMICAL CELL

Resumen de: WO2024256503A1

The invention relates to a method for manufacturing an assembly for an electrochemical cell, wherein the assembly comprises at least the following structural components: a first plate (10; 10') for supplying and/or discharging fluid, a proton exchange membrane (42), a first electrode (31) arranged between the first plate and the proton exchange membrane, and a first gas diffusion layer (21) arranged between the first plate and the first electrode, and wherein the method comprises the steps of A) providing a base comprising only a portion of the structural components, in particular the first plate and/or the first gas diffusion layer; and B) assembling the assembly, wherein the assembling involves adding the remaining structural components; or the steps of a) providing a base that is different from the structural components; and b) assembling the assembly, wherein the assembling involves adding the structural components; wherein a casing is formed by applying one or more layers of moulding material (70-72) to the provided base, a strength of this moulding material increases after said application, and at least one layer of the moulding material forming the casing or at least a circumferential section of the casing is applied before step B) or b). The invention also relates to an electrochemical cell, in particular a fuel cell or electrolysis cell, a cell stack with cells of this type, as well as a method and a system for manufacturing assemblies for cells or cell stacks of thi

ION-CONDUCTING MEMBRANE, METHOD FOR MANUFACTURING SUCH A MEMBRANE, ELECTROCHEMICAL CELL COMPRISING SUCH A MEMBRANE AND PLANT COMPRISING SUCH A CELL

Resumen de: WO2024257054A1

The invention relates to an ion-conducting membrane (10) for an electrochemical device, said membrane comprising a layer of a material comprising: - 5% to 30% by weight of a polymer binder and - 70% to 95% by weight of a powdered ceramic, the powdered ceramic comprising ceramic doped with yttrium oxide and/or ceramic doped with cerium oxide. The invention can be used to produce a non-porous membrane for low-temperature electrolysis (0°C to 150°C).

METHOD OF CONVERTING METHANE FROM NATURAL GAS WITH SIMULTANEOUS PRODUCTION OF HYDROGEN AND RECOVERY OF CARBON DIOXIDE AND ITS USE AS A STORAGE OF SURPLUS ENERGY FROM RENEWABLE ENERGY SOURCES

Resumen de: EP4729472A1

The invention relates to a method of converting methane from a natural gas field with simultaneous production of hydrogen and recovery of carbon dioxide. The method includes the steps of a steam reforming reaction of desulfurized methane in a co-electrolyzer (1), resulting in carbon monoxide and hydrogen; a water gas conversion reaction between carbon monoxide and water, resulting in carbon dioxide and additional hydrogen; a reaction between the carbon dioxide formed in step b) and water, resulting in an additional hydrogen molecule and a carbonate anion; a molten carbonate electrolysis reaction in which the carbonate anion CO₃^2- is decomposed, producing oxygen, electrons and carbon dioxide, which is returned to the storage. In addition, the invention relates to the use of this method to store surplus energy from renewable energy sources.

METHOD AND APPARATUS FOR GENERATING HYDROGEN BY A PEM CELL AND WATER ELECTROLYSIS

Resumen de: EP4729657A1

0001 A method is described for generating hydrogen by means of a PEM cell and water electrolysis, wherein leads of a photovoltaic solar panel, through which the panel supplies an electrical voltage and current towards its outside, are electrically connected by electrical conductors to electrical supply terminals of a PEM electrolytic cell which is external to the panel and designed to operate directly with the electrical voltage and current as generated at the leads.

LAYERED BIPOLAR PLATE FOR ELECTROLYZER

Resumen de: EP4729655A1

A layered bipolar plate (208) is provided that includes a steel layer (402) and a titanium layer (404). The steel layer (402), which is configured to be exposed to water and H2, is in contact to the titanium layer (404), which is configured to be exposed to water and 02. The titanium layer has an area that is smaller than the steel layer.

SYSTEM AND METHODS OF WATER ELECTROLYSIS

Resumen de: EP4729660A2

Provided herein are alkaline electrolyzer systems comprising one or more components that improve the performance, efficiency, and/or longevity of the system. For example, the alkaline electrolyzer system may comprise one or more of (1) a filtration component comprising one or more filtration media, (2) an ion exchange component comprising at least one ion exchange resin, (3) a corrosion inhibition component configured to introduce at least one corrosion inhibitor into the electrolyte solution, and (4) a chelating agent component configured to introduce at least one chelating agent into the electrolyte solution.

BIPOLAR PLATE AND STACK FOR ELECTROLYZER

Resumen de: EP4729656A1

0001 A bipolar plate is provided that includes an inlet side, an outlet side opposite of the inlet side, a first side extending from the inlet side to the outlet side, and a second side parallel to the first side and extending from the inlet side to the outlet side. A perimeter is defined by the outer edges of the bipolar plate and an area is defined within the second perimeter. The perimeter is selected to reduce material in the bipolar plate. An electrolyzer stack is also provided.

電気化学電極構造、電気化学セル、バイポーラ電極アセンブリ、電気化学セル配置、および電気化学セルの電気化学電極構造の支持要素に電極素子を取り付ける方法

Resumen de: EP4446467A1

0001 The present invention relates to an electrochemical electrode structure comprising at least one electrode element and a supportive element. Each electrode element is a two-dimensionally extended electrically conductive element with an open structure and has a first edge portion. The supportive element has a resilient region extending areally in a plane of the main extension of the resilient region. The resilient region is adapted to push the at least one electrode member away from the supportive element in a direction at least substantially perpendicular to the plane of the main extension of the resilient region. The supportive element has a first tongue region arranged at an edge of the supportive element. The first edge portion of the at least one electrode element is bent around the first tongue region of the supportive element thereby attaching the at least one electrode element to the supportive element. Moreover, the invention relates to an electrochemical cell and to a bipolar electrode assembly each comprising such an electrode element, to an electrochemical cell arrangement with a plurality of such bipolar electrode assemblies, as well as to a method of attaching an electrode element to a supportive element of such an electrochemical electrode structure.

一种生产氢气的方法

Resumen de: WO2025022382A1

The present invention relates to a process of producing hydrogen gas from water vapor in the presence of an alkali metal, which is being recycled through the process.

水電解装置及び水電解方法

Resumen de: JP2026067592A

【課題】磁性流体を含有させた電解液を用いた水電解に際し、水素の製造効率が低下することを効果的に防止すること。【解決手段】それぞれ所定方向に延びており、磁性流体が含有された電解液に接触するように配置された一対の電極と、少なくとも前記電極のいずれか一方に一端側から磁場を印加する磁場印加手段と、陽極側の前記電極が配置される陽極領域、および、陰極側の前記電極が配置される陰極領域、の間に設けられ、イオン透過性を有する隔壁と、を備え、前記陽極領域において、陽極側の前記電極とカチオン性界面活性剤の添加された磁性流体が含有された電解液とを接触させる一方、前記陰極領域において、陰極側の前記電極とアニオン性界面活性剤の添加された磁性流体が含有された電解液とを接触させる、水電解装置。【選択図】図１

ヘリウムガス製造方法

Nº publicación: JP2026067535A 21/04/2026

Solicitante:

株式会社ネクスタイド

Resumen de: JP2026067535A

0001 【課題】重水を基にヘリウムガスを製造することができるヘリウムガス製造方法を提供する。 【解決手段】ヘリウムガス製造方法は、アノード室２と、カソード室３と、アノード室２とカソード室３との間に配置され、内部にイオン交換樹脂４Ｃが充填された中間室４とを備え、アノード室２と中間室４との間に第一陽イオン交換膜５、第二陽イオン交換膜５Ａ及び正電極６、カソード室３と中間室４との間に第三陽イオン交換膜７及び負電極８がそれぞれ設けられ、第二陽イオン交換膜５Ａが水素イオンを選択的に透過させる性質を有する膜であり、アノード室２側から中間室４に向けて第一陽イオン交換膜５、第二陽イオン交換膜５Ａの順で配置された電解装置１によって、アノード室２又は中間室４に重水を流入させ、電気分解を行うことで、中間室４でヘリウムガスを発生させる。 【選択図】図１