CN214196429U - Natural gas differential pressure power generation hydrogen production device - Google Patents

Abstract

The utility model discloses a natural gas differential pressure electricity generation hydrogen plant, including natural gas transmission pipeline, last pressure regulating voltage regulator device and the electricity generation hydrogen plant of being provided with of natural gas transmission pipeline, wherein, be provided with high-pressure input and low pressure output on the pressure regulating voltage regulator device, electricity generation hydrogen plant is connected with the natural gas transmission pipeline bypass through high-pressure input and low pressure output respectively, has effectively utilized the pressure differential among the natural gas transmission pipeline, has practiced thrift the beneficial effect of the energy.

Description

Natural gas differential pressure power generation hydrogen production device

Technical Field

The utility model belongs to the technical field of the natural gas is carried, concretely relates to natural gas differential pressure power generation hydrogen plant.

Background

In order to reduce the pressure loss of an upstream pipeline and increase the conveying capacity of the pipeline at the upstream of a gas pipe network, the gas supply pressure of the pipeline is usually about 10MPa, and the gas pressure output by a downstream branch conveying station of the gas is usually about 4 MPa.

Disclosure of Invention

In order to solve the technical problem, the utility model provides a natural gas differential pressure power generation hydrogen plant

The utility model discloses a concrete scheme as follows:

the natural gas differential pressure power generation hydrogen production device comprises a natural gas conveying pipeline and is characterized in that: the natural gas conveying pipeline is provided with a pressure regulating and stabilizing device and a power generation hydrogen production device, wherein the pressure regulating and stabilizing device is provided with a high-pressure input end and a low-pressure output end, and the power generation hydrogen production device is connected with a natural gas conveying pipeline bypass through the high-pressure input end and the low-pressure output end respectively.

The power generation and hydrogen production device comprises an expander, a generator, a rectifier, a water electrolysis device, a hydrogen storage tank and an oxygen storage tank, wherein the expander is provided with an expander air inlet end, an expander exhaust end and an expander power output shaft, the expander air inlet end is connected with a high-pressure input end pipeline, the expander exhaust end is connected with a low-pressure output end pipeline, and the expander power output shaft is rotatably connected with the generator.

The generator is electrically connected with the rectifier, the rectifier is connected with the water electrolysis device, and the water electrolysis device is respectively connected with the hydrogen storage tank and the oxygen storage tank through pipelines.

Still include first booster compressor and second booster compressor among the device, first booster compressor and hydrogen storage tank pipe connection, the second booster compressor and oxygen storage tank pipe connection.

The natural gas conveying pipeline is also provided with a heat exchanger, and the low-pressure output end is connected with the heat exchanger pipeline.

The utility model discloses a natural gas differential pressure electricity generation hydrogen plant adopts and has differential pressure electricity generation hydrogen plant through bypass pipe connection at natural gas pipeline's natural gas high pressure end and natural gas low pressure end, has effectively utilized the pressure differential among the natural gas pipeline, has practiced thrift the energy, still be provided with pressure regulating and voltage stabilizing device among the natural gas differential pressure electricity generation device, when utilizing differential pressure electricity generation device to carry out hydrogen manufacturing, can also continue to carry out the transport of natural gas at pipeline.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only a part of the implementations of the present invention, and not all implementations, and all other embodiments obtained by those skilled in the art without any inventive work are included in the scope of the present invention.

As shown in figure 1, a natural gas differential pressure power generation hydrogen production device comprises a natural gas conveying pipeline, wherein a pressure regulating and stabilizing device 10 and a power generation hydrogen production device are arranged on the natural gas conveying pipeline, a high-pressure input end 22 and a low-pressure output end 11 are arranged on the pressure regulating and stabilizing device 10, and the power generation hydrogen production device is connected with a natural gas conveying pipeline bypass through the high-pressure input end 22 and the low-pressure output end 11 respectively.

The power generation and hydrogen production device comprises an expander 1, a generator 2, a rectifier 3, a water electrolysis device 4, a hydrogen storage tank 5 and an oxygen storage tank 7, wherein an expander air inlet end 24, an expander exhaust end 25 and an expander power output shaft 26 are arranged on the expander 1, the expander air inlet end 24 is connected with a high-pressure input end 22 through a pipeline, the expander exhaust end 25 is connected with a low-pressure output end 11 through a pipeline, and the expander power output shaft 26 is rotatably connected with the generator 2.

The expander 1 is provided with an expander, and the expander is a machine which outputs mechanical work to the outside when compressed gas is expanded and depressurized. In the present embodiment, the expanders are a volume expander and a turbo expander.

The generator 2 is electrically connected with the rectifier 3, the rectifier 3 is electrically connected with the electrolytic water device 4, and the electrolytic water device 4 is respectively connected with the hydrogen storage tank 5 and the oxygen storage tank 7 through pipelines.

In the embodiment, industrial soft water is used for preparing pure water through a pure water device, the pure water is sent into a raw water tank, the pure water is input into an alkali liquor system through a water supplementing pump to supplement water consumed by electrolysis, water in an electrolytic cell is decomposed into hydrogen and oxygen under the action of direct current, the hydrogen and oxygen are respectively fed into a hydrogen and oxygen separation washer in a frame together with circulating electrolyte, then gas-liquid separation, washing and cooling are carried out, the separated electrolyte is mixed with the supplemented pure water, and then the mixed electrolyte is sent back to the electrolytic cell through an alkali liquor heat exchanger, an alkali liquor circulating pump and a filter for circulating electrolysis. The separated hydrogen and oxygen are respectively sent into a hydrogen storage tank 5 and an oxygen storage tank 7 for downstream users to use.

The device further comprises a first supercharger 6 and a second supercharger 18, wherein the first supercharger 6 is connected with the hydrogen storage tank 5 through a pipeline, and the second supercharger 18 is connected with the oxygen storage tank 7 through a pipeline.

An inlet shutoff valve 9 is arranged on the air inlet end 24 of the expansion machine, and the expansion machine is connected with the high-pressure input end 22 through the inlet shutoff valve 9.

The exhaust end 25 of the expansion machine is provided with a check valve 23 and an outlet shutoff valve 27, the check valve 23 is connected with the outlet shutoff valve 27 in series, and the expansion machine is connected with the low-pressure output end 11 through a pipeline sequentially through the check valve 23 and the outlet shutoff valve 27.

In this embodiment be provided with work voltage regulator, control voltage regulator, cut off ball valve 21 and cut off ball valve 12 fast among the pressure regulating voltage regulator device 10, wherein, control voltage regulation input 20 is through cutting off ball valve 21 fast and high pressure input 22 pipe connection, control voltage regulation control end 19, work voltage regulation output 13 and work voltage regulation control end 15 all through cutting off ball valve 12 and 11 pipe connection of low pressure output.

The natural gas conveying pipeline is also provided with a heat exchanger 8, and the low-pressure output end 11 is connected with the heat exchanger 8 through a pipeline.

In the present exemplary embodiment, the heat exchanger 8 is an air heat exchanger.

The specific working process of the natural gas differential pressure power generation hydrogen production device is as follows:

firstly, the quick-cut ball valve 21, the cut-off ball valve 12, the inlet cut-off valve 9, the outlet cut-off valve 27 and the check valve 23 are opened, since the pressure of the upstream natural gas in the natural gas conveying pipeline is usually about 10MPa, i.e. the high-pressure input end 22 in the embodiment, the gas pressure output by the downstream natural gas is usually about 4MPa, i.e. the low-pressure output end 11 in the embodiment, the expander inlet end 24 is connected with the high-pressure input end 22 through the inlet cut-off valve 9, and the expander exhaust end 25 is connected with the low-pressure output end 11 through the check valve 23 and the outlet cut-off valve 27.

Because the natural gas in the high-pressure input end 22 is conveyed into the expander 1 through the expander inlet end 24, a pressure difference exists in the expander 1, the pressure difference drives the expander power output shaft 26 to rotate, the rotation of the expander power output shaft 26 drives the generator 2 to rotate, the generator 2 converts mechanical energy into electric energy to generate electricity, and the alternating current generated by the generator 2 needs to be rectified and converted to generate the electric energy generated by hydrogen production.

In the embodiment, the rectifier 3 is electrically connected with the generator 2, the rectifier 3 rectifies the alternating current output by the generator 2 into direct current, the direct current is transmitted to the water electrolysis device 4, the water electrolysis device 4 starts water electrolysis operation, the generated hydrogen is transmitted to the hydrogen storage tank 5, the generated oxygen is transmitted to the oxygen storage tank 7,

the expander exhaust end 25 on the expander 1 outputs the low-pressure natural gas which does work to the low-pressure output end 11 through the check valve 23 and the outlet shutoff valve 27, and the natural gas supply transmission is continued after passing through the heat exchanger 8.

The pressure regulating and stabilizing device 10 can reduce the pressure of the high-pressure natural gas in the high-pressure input end 22, and the reduced-pressure low-temperature natural gas is heated by the heat exchanger 8 and then is conveyed.

The natural gas differential pressure power generation hydrogen production device utilizes the natural gas differential pressure to drive the expander 1 to do work, further drives the generator 2 to generate power, the output power enters the rectifier 3 to be rectified and is supplied to the water electrolysis device 4 as a power source, the water electrolysis device 4 electrolyzes water, hydrogen and oxygen are generated after electrolysis and respectively enter the hydrogen storage tank 5 and the oxygen storage tank 7, the first booster 6 is arranged behind the hydrogen storage tank 5 to boost the pressure of the hydrogen, and then the hydrogen is filtered and washed, and after salt and impurities in the gas are removed, the hydrogen is filled and delivered. And a second booster 18 is arranged behind the oxygen storage tank 7 to boost the oxygen, and then the oxygen is filtered and washed to remove salt and impurities in the gas, and then the gas is filled and delivered.

The low-temperature natural gas at the outlet is subjected to heat exchange with outdoor air through the air heat exchanger 8 and then is conveyed to a downstream pipe network.

In order to ensure the stability of air supply, a pressure regulating bypass 10 is arranged for the expansion machine 1, and when the turbine fails, the air source is quickly switched to the pressure regulating bypass 10 for supplying air to the downstream.

The utility model provides a natural gas differential pressure power generation hydrogen plant, adopts and to have differential pressure power generation hydrogen plant through bypass piping connection at natural gas pipeline's natural gas high pressure end and natural gas low pressure end, has effectively utilized the pressure differential among the natural gas pipeline, has practiced thrift the energy, still be provided with the pressure regulating voltage stabilizer among the natural gas differential pressure power generation device, when utilizing differential pressure power generation device to carry out hydrogen manufacturing, can also continue the transport that carries out the natural gas at the pipeline.

The technical means disclosed by the scheme of the present invention is not limited to the technical means disclosed by the above embodiments, but also includes the technical scheme formed by the arbitrary combination of the above technical features. It should be noted that, for those skilled in the art, without departing from the principle of the present invention, several improvements and modifications can be made, and these improvements and modifications are also considered as the protection scope of the present invention.

Claims (5)

1. The natural gas differential pressure power generation hydrogen production device comprises a natural gas conveying pipeline and is characterized in that: the natural gas conveying pipeline is provided with a pressure regulating and stabilizing device (10) and a power generation hydrogen production device, wherein the pressure regulating and stabilizing device (10) is provided with a high-pressure input end (22) and a low-pressure output end (11), and the power generation hydrogen production device is connected with a natural gas conveying pipeline bypass through the high-pressure input end (22) and the low-pressure output end (11) respectively.

2. The natural gas differential pressure power generation hydrogen plant according to claim 1, characterized in that: the power generation and hydrogen production device comprises an expander (1), a generator (2), a rectifier (3), a water electrolysis device (4), a hydrogen storage tank (5) and an oxygen storage tank (7), wherein an expander air inlet end (24), an expander exhaust end (25) and an expander power output shaft (26) are arranged on the expander (1), the expander air inlet end (24) is connected with a high-pressure input end (22) through a pipeline, the expander exhaust end (25) is connected with a low-pressure output end (11) through a pipeline, and the expander power output shaft (26) is rotatably connected with the generator (2).

3. The natural gas differential pressure power generation hydrogen plant according to claim 2, characterized in that: the generator (2) is electrically connected with the rectifier (3), the rectifier (3) is electrically connected with the water electrolysis device (4), and the water electrolysis device (4) is respectively connected with the hydrogen storage tank (5) and the oxygen storage tank (7) through pipelines.

4. The natural gas differential pressure power generation hydrogen plant according to claim 2, characterized in that: still include first booster compressor (6) and second booster compressor (18) among the device, first booster compressor (6) and hydrogen storage tank (5) pipe connection, second booster compressor (18) and oxygen storage tank (7) pipe connection.

5. The natural gas differential pressure power generation hydrogen plant according to claim 1, characterized in that: the natural gas conveying pipeline is also provided with a heat exchanger (8), and the low-pressure output end (11) is connected with the heat exchanger (8) through a pipeline.

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