RU2760879C1 - Complex for production and supply of hydrogen-containing fuel to fueling stations for vehicles - Google Patents

Abstract

FIELD: fuels.

SUBSTANCE: invention relates to a complex for production and supply of hydrogen-containing fuel to fueling stations for vehicles, namely, to maintenance and operation of fueling stations, to production and storage of hydrogen-containing fuel and delivery thereof to fueling stations for distribution among vehicles. The complex for production and supply of hydrogen-containing fuel to fueling stations for vehicles comprises a main natural gas pipeline 1 connected with a hydrogen-containing mixture production unit 2, and a separation unit 3 for extraction of CO₂ connected with the hydrogen-containing mixture production unit 2 and with at least one fueling station 6 for vehicles to supply the purified hydrogen-containing mixture.

EFFECT: creation of a complex with high efficiency of application of a hydrogen-containing fuel as a combustible.

4 cl, 1 dwg

Description

The invention relates to a complex for the production and supply of hydrogen-containing fuel to filling stations for vehicles, namely to the maintenance and operation of filling stations, production and storage of hydrogen-containing fuel and its delivery to filling stations for distribution to vehicles.

A system of environmentally friendly hydrogen energy for vehicles and electric vehicles is known from the prior art (see patent RU 2179120 C2, publ. 10.02.2002) for producing gaseous hydrogen and distributing it for refueling motor vehicles. This system provides for the production of hydrogen by electrolysis of water using electricity from a nuclear power plant, creating an infrastructure for storing, transporting and refueling cars with hydrogen and then regenerating electricity on a car using an internal combustion engine (ICE) or fuel cells.

The disadvantage of this solution is the high power consumption required to obtain hydrogen from water. Another significant disadvantage of hydrogen energy is the high cost of fuel cells due to the content of precious metals in them.

The closest analogue of the invention, chosen as a prototype, is a complex for the production, storage and distribution of hydrogen (see patent RU 2713349 C1, published 02/04/2020), which includes an underground gas storage, a station for the production of a methane-hydrogen mixture, a hydrogen segment consuming enterprises, a segment of storage of carbon dioxide and a well for underground storage of hydrogen and / or methane-hydrogen mixture.

The disadvantage of this solution is that in order to use pure hydrogen as a fuel, the design of the vehicle engine needs to be improved.

The technical result of this invention is the creation of a complex with a high efficiency of the use of hydrogen-containing fuel as fuel.

In accordance with the present invention, a hydrogen-containing mixture or hydrogen is used as a hydrogen-containing fuel, which are supplied to refueling vehicles and, depending on which the complex is assembled. In fig. 1 shows a general view of the complex for the production and supply of hydrogen-containing fuel to filling stations for vehicles. The complex includes a main gas pipeline 1 of natural gas connected to a plant 2 for the production of a hydrogen-containing mixture, block 3 for the release of CO ₂ , at least one well 4 for pumping CO ₂ , at least one storage 5 for a hydrogen-containing mixture, which is supplied through the gas pipeline 6 to at least one filling station 7. When implementing the complex, a unit 8 for separating a hydrogen-containing mixture into separate components and for separating hydrogen can also be provided. In this case, the complex also contains a gas pipeline 9 for returning the released natural gas to the main pipeline 1.

Unit 2 for the production of a hydrogen-containing mixture is part of the complex and is one of the main facilities in it. The technological scheme of unit 2 for the production of a hydrogen-containing mixture consists of a unit for mixing natural gas with water vapor, a heater, where the heat carrier is natural gas intended for heating natural gas and water vapor, a converter intended for steam reforming of methane, a separator for separating water from a hydrogen-containing mixture ...

The capacity of the installation for the production of a hydrogen-containing mixture should be the total value of the capacity for the production of fuels of two groups of filling dispensers located in the filling station of vehicles.

The converter is made of ordinary steel. The shape of the converter is cylindrical, 9-10 m high. The catalysts are located on the shelves inside the converter. The heated mixture of natural gas and water vapor, passing through the catalyst bed, is converted into a hydrogen-containing mixture. At the outlet of the converter, we obtain a hydrogen-containing mixture together with water vapor and carbon dioxide.

The plant for the production of a hydrogen-containing mixture includes a separator, where water is separated from the hydrogen-containing mixture, heat exchangers for cooling the output product and heating the natural gas entering the converter.

Another important object of the complex is block 3 for the release of CO ₂ . When a hydrogen-containing mixture is produced from natural gas by the method of steam reforming of methane, carbon dioxide is obtained in the form of ballast. The amount of carbon dioxide in the hydrogen-containing mixture ranges from 3 to 10% by volume. Before consuming a hydrogen-containing mixture, it is necessary to isolate the carbon dioxide in it and send it to the system for disposal. For this, at least one well 4 for CO ₂ injection can be provided as part of the complex.

Currently, there are two ways to release carbon dioxide from such complex mixtures. The first method is well developed and is the absorption method, which is widely used in industry. The second method is promising, but currently it is necessary to carry out research work on the application of membrane technology for the extraction of CO ₂ from a hydrogen-containing mixture.

At present, a technology has been developed, and the disposal of carbon dioxide in deep-lying porous structures - aquifers, gas and oil fields - is widely used.

When choosing a construction site for a plant for the production of a hydrogen-containing mixture, it is necessary to take into account the requirements, if possible, of a geological method for burying carbon dioxide.

The complex may include a carbon dioxide storage unit (not shown in the drawing), consisting of a compressor station to create the required pressure in the gas pipeline for transporting carbon dioxide, well 4 for injection and a reservoir for placing carbon dioxide.

The depth of the carbon dioxide storage layer is chosen so that it is in a liquid state under storage conditions. Then its volume will decrease significantly.

To regulate the uneven consumption of the hydrogen-containing mixture by filling stations of vehicles or by the unit 8 for separating the hydrogen-containing mixture into separate components, at least one underground storage 5 of the hydrogen-containing mixture can be provided as part of the complex.

The storage of the hydrogen-containing mixture in underground storage facilities created in porous structures or in impermeable stable rocks is currently being considered. Considering the high cost of the hydrogen-containing mixture as compared to natural gas, it is preferable to store it in stable impermeable rocks. The creation of underground accumulators in rock salt deposits through boreholes by the method of controlled underground dissolution of rocks is well mastered on an industrial scale. Such accumulators (reservoirs) are created at a depth of 1000-2000 m in all morphological types of rock salt - stratal, layer-lenticular, lenticular, domes and stocks. The number of underground storage tanks depends on the volume of the stored hydrogen-containing mixture. At the same time, in order to ensure the reliability of operation of the underground storage, the number of underground tanks in the storage is recommended at least two units.

As already mentioned above, the complex can also include a block 8 for separating a hydrogen-containing mixture into separate components, namely H ₂ and CH ₄ . This unit is installed at filling stations of vehicles when it is required to obtain hydrogen with a purity of at least 99.99%. The block for separating the hydrogen-containing mixture into separate components consists of a membrane apparatus and an adsorber. At present, membrane devices make it possible to obtain hydrogen from a hydrogen-containing mixture with a purity of up to 99.2-99.4%. To obtain hydrogen with a purity of up to 99.99%, an adsorber is installed after the membrane apparatus. The released natural gas in the block 8 for separating the hydrogen-containing mixture through the gas pipeline 9 is returned to the main gas pipeline 1 with further admission to the unit 2 for the production of the hydrogen-containing mixture.

The implementation of the proposed invention provides for the supply of hydrogen-containing fuel to filling stations of vehicles in the form of hydrogen-containing fuel or hydrogen, which can be obtained from natural gas, which has a widely branched network throughout the European part of the Russian Federation.

In accordance with the proposed technical solution, natural gas (CH ₄ ) is supplied through the main gas pipeline 1 to unit 2 for the production of a hydrogen-containing mixture. Before supplying the hydrogen-containing mixture to the filling station 7, CO ₂ is released from it in a special separation unit 3 with its further direction for disposal in the absorbing formation through the well 4. The resulting hydrogen-containing mixture is further divided into two streams. One main stream is a hydrogen-containing mixture, which is directed through a gas pipeline 6 to filling stations 7 for vehicles, and the second stream is directed to an underground storage 5 of a hydrogen-containing mixture to ensure the reliability of delivery of a hydrogen-containing mixture to filling stations of vehicles. Thus, a hydrogen-containing mixture with a hydrogen content of 20-40% purified from carbon dioxide is supplied to filling stations.

If the complex contains a block 8 for separating a hydrogen-containing mixture into separate components, then the hydrogen-containing mixture is fed through a gas pipeline 6 to said block 8 to evolve hydrogen with a purity of 99.99%. Block 8 for separating the hydrogen-containing mixture into separate components consists of a membrane apparatus and an adsorber. Block 8 leaves two streams. One stream, which is the main one, is hydrogen with a purity of 99.99%, is directed to the filling stations 7, and the second stream is natural gas, which is returned through the gas pipeline 9 to the main gas pipeline 1 connected to the installation 2 for the production of a hydrogen-containing mixture.

Thus, in accordance with the invention, a complex is proposed for producing hydrogen-containing fuel and supplying it to filling stations. If the hydrogen-containing fuel is a hydrogen-containing mixture with a hydrogen content of 20-40%, which is supplied for refueling various vehicles (cars, railway locomotives, aircraft, etc.), then the engine design of such vehicles remains unchanged, such as was when used as an energy carrier gasoline, diesel fuel or kerosene. The proposed solution also provides for the use of hydrogen as a hydrogen-containing fuel, in this case hydrogen from filling stations can be supplied both in a gaseous and in a liquid state.

Claims (7)

1. A complex for the production and supply of hydrogen-containing fuel to filling stations for vehicles, containing main pipeline 1 of natural gas, installation 2 for the production of a hydrogen-containing mixture, connected to the main pipeline 1 of natural gas, a separation unit 3 for the extraction of CO ₂ , connected to a plant 2 for the production of a hydrogen-containing mixture and to at least one filling station 6 of vehicles for supplying a purified hydrogen-containing mixture. 2. The complex of claim 1, further comprising at least one CO ₂ injection well 4. 3. The complex according to claim 1, further comprising at least one storage 5 for the hydrogen-containing mixture. 4. The complex according to claim 1, further comprising a block 8 for separating the hydrogen-containing mixture into separate components to produce hydrogen.

Images