SK9663Y1 - Method of transporting hydrogen with its integration into existing pipeline energy system using equipment using energy from renewable sources - Google Patents

Abstract

The technical solution refers to a method that uses ecological energy sources for the production of electricity and other types of energy, for the production and transport of hydrogen, and it is possible to use them for the production of hydrogen, if it is necessary to store it and also to transport it using gas transport systems by enriching natural gas, by removing it from the gas stream and providing it to consumers. The method consists in pumping gas through a system of the pipelines in the required directions and, if necessary, the produced hydrogen, which is pumped into the gas pipelines, is filled with gas in underground the gas reservoirs, while installed the devices that use energy from renewable energy sources are regularly placed along the pipelines in their immediate vicinity nearby, where the installed equipment is located depending on the renewable energy sources in the given place, such as sun, wind, water and others, in the form of solar and / or wind and / or wave and / or other installed equipment, hydrogen is produced using energy from these installed facilities, the hydrogen is supplied to gas pipelines.

Description

The field of technology

The technical solution relates to the field of energy and the use of gas transportation systems, specifically to methods that use ecological energy sources for the production of electricity and other types of energy, for the production and transportation of hydrogen, and it is possible to use them for the production of hydrogen, if necessary, store it and transport it using gas transportation systems, enriching natural gas, removing it from the gas flow, and provide it to consumers.

Current state of the art

While the use of energy volumes is growing, in various areas it is necessary to use non-renewable resources that are expensive and lead to environmental pollution and the depletion of natural reserves, there is a need to develop energy areas such as hydrogen energy, using renewable energy sources that are highly energetic , do not pollute the environment and are a good alternative to non-renewable energy sources.

Hydrogen is widely used in various industries (petroleum processing plants, ammonia production, chemicals, etc.), transportation and others. Hydrogen, which is produced from renewable sources, can partially or completely replace the raw material based on mineral resources, depending on the area of use, thus reducing the consumption of non-renewable natural resources.

Hydrogen is transported by car, rail and water transport. Such methods are expensive, and therefore their use cannot ensure the increase of volumes and reduction of losses, simplification and cheaper provision of hydrogen to customers, as well as the creation of a unified efficient energy system and, at the same time, cheaper transportation of enriched natural gas.

When transporting hydrogen in tank cars, there are losses due to the technological filling process, structural deficiencies of tanks and isolation valves, and losses can amount to more than 15% for one tank car.

The same losses and mentioned disadvantages occur during rail transport in tanks.

The use of water transport to transport hydrogen requires combining it with land transport, which leads to additional losses.

The use of pipeline systems for gas transportation allows a significant reduction in losses, reduces and simplifies the transportation of hydrogen, ensures it for the same consumers, and at the same time allows the delivery of natural gas, etc.

This can achieve great advantages in combination with the production of hydrogen using electricity and other energy produced by power plants that use renewable energy sources to produce electricity, and with the coverage of large areas to integrate the production system, efficiently use and transfer the hydrogen that is produced using a high-efficiency method with increased environmental friendliness and with reduced costs, to the existing energy system of a country or countries or to create a new, unified, more efficient and powerful energy system with a reduced cost price with efficient use of hydrogen in various areas.

The current state of the art describes the method of mixing, transporting and separating hydrogen from natural gas (patent document CN207094186 U, in classes MPT F17D3/01; F17D3/01; F17D3/10; F17D3/12, 29/08/2017), according to the method, on for the purposes of transporting a mixture containing hydrogen, an existing gas transportation system to which a hydrogen inlet port is connected and a hydrogen outlet port is connected at the remote end, a mixing device is mounted in the hydrogen inlet port, and a hydrogen separation and purification device is mounted in the hydrogen outlet port, while on transportation using the existing gas transportation system, liquid or gaseous hydrogen is similarly used, with the created system, hydrogen is mixed and fed into the pipeline of the gas transportation system, transported, then separated, purified and used as intended, measuring the pressure in the step mixture formation, at the entrance to the pipeline, after separation and cleaning.

The disadvantages of the known method are as follows.

When using only the existing gas transportation system, it is not possible to take into account all the properties of the mixture that contains hydrogen and is being transported, as well as many other factors that can lead to the destruction of existing pipelines, the creation of situations that are dangerous for people and the environment, which makes the known method and the known system used dangerous, unreliable and functionally limited.

In addition, the known system and method do not consider the possibility of using electrical or other energy for the production of hydrogen produced from renewable energy sources.

When using the known method, it is also not possible to create a uniform safe ecological system with increased functionality, consideration for the environment, which could create, transport and use hydrogen.

The current state of the art describes a method of hydrogen distribution (patent document US 2004112427, in classes MPT F17D1/04; Y02E60/34; Y02P90/45; Y10T137/ 0318; Y10T137/86292, 17/06/2004), while this method includes: substances into the pipeline, injecting a first stream containing hydrogen into the pipeline at a first point and extracting hydrogen from the pipeline at a second point, the second point being located downstream of the first point. The pipeline is part of the propellant distribution system, and the propellant is selected from the group consisting of natural gas, propane, and liquefied petroleum gas.

Disadvantages of the known method include limited functionality, area of application. The known method also does not consider the possibility of using electrical and other energy produced from renewable energy sources for the purpose of hydrogen production.

When using the known method, it is also not possible to create a unified safe ecological system with increased functionality, which could create, transport and use hydrogen with increased environmental friendliness, with a reduced cost price for production, transportation and use, including the provision of hydrogen for consumers.

The prior art describes a device for the production of hydrogen using wind energy (published in patent document JP 2007252028, in classes MPT F03D7/04 H02P9/00, 27/09/2007), where a wind energy generator is installed independently of the energy system and the energy generated by the generator of wind energy is supplied to the electrolytic hydrogen generator, the hydrogen generator is designed to reduce the oscillations of the rotation frequency of the wind generator by changing the current supplied to the wind generator.

Among the disadvantages of the known analog device are limited functionality caused by the design solution, as well as operational independence. The known device uses only wind generators, which makes it impossible to create a system that could use different power plants, which are used differently depending on the region and natural conditions, and produce electricity using different renewable sources, which would connect to gas transmission systems in order to to create a unified energy system with increased efficiency, performance and environmental friendliness, which would cover large areas of the country or region, or several countries.

The closest analogous method is the selected method of operation of the gas transportation system (Ukrainian invention patent document 99720, in classes MPT F17D 1/00 F03D 9/00, published on December 10, 2010, Bulletin. No. 23), which method involves pumping gas through a system of pipelines in the required directions, filling the underground gas reservoirs with gas, if necessary along the gas pipelines, wind power plants (VE) are regularly located as close as possible to these gas pipelines, from which electrical energy is used to produce hydrogen, which is injected into the gas pipelines. In addition to creating VEs along the route of gas pipelines, VEs are placed directly on the territory or as close as possible to the territory of underground gas reservoirs, where hydrogen produced using the electric power of these VEs is injected.

Disadvantages of this known method include limited operational activity of the system that is created and used to perform the known method, limited area of use including territorial limitation, reduced efficiency and performance of the created system, and instability of operation. The known method does not allow using energy devices that use energy from such renewable energy sources as the sun, waves and others, which limits the area of application, does not allow to cover large areas and create a unified energy system that has increased efficiency, operational stability, which would could produce, transport, enrich natural gas and/or separate hydrogen or other, supply hydrogen or a mixture to consumers.

Using the closest analogy, it is also not possible to create such a unified energy system that could include the existing gas transportation system and the pipeline sections integrated therein, where the pipelines would be adapted to the corresponding conditions of use and technological processes to provide hydrogen resistance, and equipment for creation of gas mixtures and for supply to pipelines of the gas transportation system.

The known method does not make it possible to create and use a system that could use different energy plants that use different energy devices depending on the region and natural conditions, and produce electricity using different renewable sources that allow the conversion of energy from renewable sources into energy that allows hydrogen production, connection to gas transportation systems with the aim of creating a unified energy system with increased efficiency, performance, environmental friendliness, which would cover large areas of the country or region, or several countries.

The essence of the technical solution

The technical solution is based on the task of creating an efficient way of creating and using an energy system with the integration of hydrogen into a system that is produced using renewable energy sources for the production, transportation, use and supply of hydrogen using renewable energy sources and gas transport systems, which provides the use of various natural energies using various renewable energy sources, gas transportation systems, their connection into a unified energy system, including current gas transportation systems, by creating a unified energy system enabling the coverage of large areas of one country or region, or several countries in order to implement the claimed method with the possibility of continuous operation , by expanding the area of use and operation, providing independence from the location and use.

The task is solved in such a way that in the method of creating and using an energy system with the integration of hydrogen produced using renewable energy sources into the system, this method consists in pumping (pumping) gas through a system of pipelines in the required directions, filling underground gas reservoirs with gas, if necessary , according to the design of the solution, hydrogen-producing devices are regularly installed along the pipelines in the immediate vicinity, which is pumped into gas pipelines that use energy from renewable energy sources, the installed devices are created depending on the renewable energy sources present at the location of the devices, such as the sun , wind, water and others, in the form of solar energy devices and/or wind, and/or wave, and/or others, hydrogen is produced using energy from installed devices, hydrogen is supplied to gas pipelines.

Also according to the design of the solution, hydrogen is produced using energy from installed devices, using electrical, mechanical or thermal energy that is generated or can be created by these devices that use energy from renewable energy sources.

According to the design of the solution, reservoirs are also created near the installed devices that use energy from renewable energy sources, which are connected to the gas transportation system and which are pumped with hydrogen produced using the electricity of these devices.

According to the design of the solution, devices that use energy from renewable energy sources are also installed, connected to the gas pipeline through systems for creating a gas mixture at the points of hydrogen supply and through hydrogen separation and possibly cleaning systems located at the points of hydrogen intake.

According to the design of the solution, the system of existing pipes is also used as a system of pipes.

Also, according to the design of the solution, a system of existing pipelines is also used as a system of pipelines, which are combined and/or supplemented with other complexes, which include at least other pipelines and equipment using energy from renewable energy sources, as well as equipment for the production and supply of hydrogen.

Also, according to the design of the solution, devices that use energy from renewable energy sources are installed, created in the most optimal places, from a technical point of view, from the point of view of entering the gas transportation system with the possibility of ensuring the required parameters of production, delivery and transfer of the mixture.

According to the design of the solution, devices that use energy from renewable energy sources are also installed, created in locations where renewable energy sources are present or a resource is present, and are connected by a common pipe connected to a pipe system that is made in the form of a gas transportation system.

According to the design of the solution, devices that use energy from renewable energy sources are also installed, created in locations where there are renewable energy sources or there is a source, and they are connected by a common pipe, which is connected to the existing pipe system, which is made in the form of a system on gas transportation.

The mentioned features of the proposed technical solution are the essential features of the claimed technical solution and their set enables the desired technical effect to be achieved, which consists in enabling the production of hydrogen using possible renewable energy sources with a significant increase in the volumes of produced hydrogen, enabling the use of the claimed method in different regions with different natural conditions using different natural energy, different renewable energy sources, gas transportation systems, their combination into a unified energy system with coverage of large areas and combination into a unified energy system with increased power, expanding the areas that can use hydrogen, territorial expansion of the use of hydrogen with an increase in the number users, which expands the area of hydrogen use, the functionality of the created system, the coverage of large territories with different natural conditions, the use of gas transportation systems in territories with all possible renewable energy sources present, the possibility of combining a gas transportation system or systems for the transportation of hydrogen, which is produced on in different places, using different renewable energy sources into a unified energy system with increased performance of the country or countries.

The presented solution also ensures an increase in reliability, continuous operation, a reduction in the cost price and the cost of the produced electricity. This ensures environmental friendliness, as well as the possibility of use regardless of the conditions of use of the claimed method and the location of the system with the expansion of the area of use and the expansion of the circle of users.

This also enables a significant increase in the volumes of produced hydrogen for the enrichment of natural gas, use in various technological processes, partly with a gradual increase in the proportion of hydrogen to replace mineral raw materials with more energy-intensive hydrogen with an increase in the energy potential of the energy system of the country and countries.

Hydrogen that is produced in the claimed method using alternative energy sources is therefore "green hydrogen", while the set of features of the claimed method makes it possible to use environmentally friendly hydrogen energy in the private, residential and industrial sectors. The introduction of hydrogen energy will place Ukraine in the world's leading energy community and establish a reputation as a country with highly advanced technology. The combination of hydrogen and renewable electricity generation will ensure a balanced and stable development of the energy complex.

The cause-and-effect relationship between the basic features of the proposed solution and the achieved technical effect is as follows.

Given that the set of functions of the claimed method includes the creation of installations of devices that use energy from renewable energy sources, periodically along the pipelines in their immediate vicinity, while these installed devices are located depending on the renewable energy sources present at the location of these devices, such as sun, wind, water and others, in the form of solar devices and/or wind, and/or wave, and/or others, hydrogen is produced using energy from installed devices, hydrogen is supplied to gas pipelines, the restriction for the establishment is excluded equipment in different regions with different natural conditions and the possibility of using several renewable energy sources, which ensures an increase in the volumes of hydrogen produced, an increase in reliability, stability and continuous operation, the possibility of combining existing and newly created systems of pipelines and energy equipment covering large areas into a unified energy system with increased performance and potential, which corresponds to the projects of the European Union and represents a promising trend in the development of the country's energy system. At the same time, a significant reduction in the consumption of non-renewable natural resources will be ensured, thereby increasing the environmental friendliness of the claimed method.

The use of electrical and/or mechanical and/or thermal energy, which is created or can be created by installed devices that use energy from renewable energy sources, allows to use these devices comprehensively and create various modifications of devices, e.g. to produce hydrogen using thermal solar energy by breaking down water into oxygen and hydrogen at high temperatures and produce electricity, combining energy types to make hydrogen production cheaper and easier.

Provision of storage tanks that are connected to the gas transportation system and that are pumped with hydrogen produced using electricity from these devices, as well as connecting devices that use energy from renewable energy sources to gas pipelines through systems for creating a mixture of gases at the points of hydrogen supply and through hydrogen separation systems and, if necessary, cleaning systems at hydrogen collection points, it enables the creation and use of a unified safe energy system with increased energy intensity and functionality, which produces, transports and uses hydrogen, and also supplies hydrogen in the required quantity to consumers with a reduced cost price for production, transportation and use, including the supply of hydrogen to consumers, operational stability, increased performance, thereby expanding the range of users both quantitatively and territorially.

The use of a system of existing pipelines, which are combined and/or supplemented with other complexes, which include at least pipelines and installed equipment that use energy from renewable energy sources, makes it possible to reduce the price costs of hydrogen transportation by connecting existing and new gas pipeline systems into a unified gas transportation system covering large territories, to place facilities that differ in the renewable energy sources used in their immediate vicinity, which allows to increase the volumes of production and transportation of hydrogen, to create a unified energy system with increased performance and reduced costs with territorial expansion and expansion of areas, as well as with the range of users , who could use the produced hydrogen or enriched gas, or other products.

This also makes it possible to create a new, more efficient and safer gas transportation system, which includes the existing gas transportation system and integrated pipeline sections in it, where the pipelines are adapted to the corresponding conditions of use and technological processes with the provision of hydrogen resistance, and equipment for creating gas mixtures and for supplying into the pipes of the gas transportation system.

The construction of installed equipment that uses energy from renewable energy sources, in the most optimal locations, from the technical point of view of entering the gas transportation system with the possibility of ensuring the required parameters of production, supply and transportation of the gas mixture, makes it possible to reduce the cost of additional equipment, makes it possible to integrate the energy of renewable energy sources and hydrogen energy into the energy system without additional costs, considering the possibility of creating reservoirs and others, which generally allows combining gas pipeline systems, using different possible renewable energy sources into a unified energy system with increasing its performance, increasing the number of users and ensuring continuous and reliable operation.

The creation of several installed devices that use energy from renewable energy sources in locations where renewable energy sources are or is a source and connecting them with a common pipeline that is connected to the existing pipeline system, which is made in the form of a gas transportation system, allows in set of characters to select large areas for the installation of many devices, for example solar panels, wind farms, with the best natural conditions for converting energy from renewable energy sources into electricity, converting energy from renewable energy sources into electricity, followed by using it to produce hydrogen and to transfer the increased amount of hydrogen produced by means of the number of installed devices that use energy from renewable energy sources to pipeline systems with their combination, thereby enabling the desired technical effect to be achieved, which consists in enabling the production of hydrogen using possible renewable energy sources with a significant increase in the volumes of hydrogen produced , which allows the use of the claimed method in different regions with different natural conditions using different natural energy, different renewable energy sources, gas transportation systems, their interconnection into a unified energy system with coverage of large territories and combination into a unified energy system with increased power, expanding areas , which can use hydrogen, by territorial expansion of hydrogen use with an increase in the number of users, thereby expanding the area of hydrogen use, functionality of the created system, coverage of large territories with different natural conditions, use of gas transportation systems in territories with all possible renewable energy sources present, the possibility to combine gas transportation system or systems for transportation of produced gas in different places and with the use of different renewable energy sources into a unified form with an increase in the performance of the energy system of the country or countries. This ensures an increase in reliability, continuous operation with the use of a number of replaceable sources, a reduction in the cost price and the cost of the produced electricity.

The creation of several installed devices that use energy from renewable energy sources, in places where there are renewable energy sources or there is a source, and connecting them with a common pipeline, which is connected to the existing pipeline system, which is made in the form of a gas transportation system, also allows in a set of characters, combine existing pipeline systems with a reduction in costs and an increase in the performance of energy carriers, the possibility of hydrogen transfer and enrichment of natural gas with hydrogen, use gas transportation systems in territories with all possible renewable energy sources present on them, combine a gas transportation system or systems for transporting produced gas in different places and using different renewable energy sources into a unified energy system with an increase in the performance of the energy system of the country or countries.

The claimed method makes it possible to create a new global energy system with integrated hydrogen energy, which will have increased potential, performance, lower costs and better environmental friendliness.

Implementation examples

The claimed method is carried out in the following manner.

In one of the possible embodiments of the claimed method, which is not the only possible one and does not exclude other embodiments, according to the claimed method, gas is pumped through a system of pipes in the required directions, filling underground gas reservoirs with gas. Installed equipment that uses energy from renewable energy sources is regularly located along the pipelines in their immediate vicinity, and the equipment is installed depending on the renewable energy sources present at the location of the equipment, such as the sun, wind, water and others, in the form of equipment for solar energy and/or wind energy equipment, and/or wave energy, and/or others. Renewable energy can therefore be represented by solar energy, wind, natural temperature gradients, wave or tidal energy, and the like.

In one area, it is possible to create different installed devices that use different renewable energy sources, if they are present in this area and use them at the same time, or according to the presence of renewable energy sources at a certain time, e.g. sunlight and wind to produce energy.

Hydrogen is produced using energy from installed equipment. It is possible to combine energy to produce hydrogen. In one possible embodiment, the electrical energy produced by solar collectors and/or wind turbines, and/or wave or tidal generators is used to perform electrolysis in an embodiment to produce hydrogen, which could also be produced in many other ways.

In an embodiment, devices that use energy from renewable energy sources are installed, connected to gas pipelines through systems for creating a mixture of gases at the points of hydrogen supply. In an embodiment, the produced hydrogen is mixed with natural gas and the produced mixture is supplied to gas pipelines.

Subsequently, the hydrogen is separated, purified and delivered to consumers using a hydrogen separation and possibly purification system.

In the vicinity of installed equipment that uses energy from renewable energy sources, reservoirs are created, which are connected to the gas transportation system and which are pumped with hydrogen produced with the help of electricity from these installed equipment. Hydrogen storages are created in locations where the potential of renewable energy sources allows their acquisition and storage, or directly near consumers.

For the implementation of this method, a system of existing pipelines will be used, in which installed equipment and facilities for the production and supply of hydrogen, systems for separation and purification of hydrogen, supply to consumers are integrated.

In an advantageous embodiment, the system of existing pipelines is used as a system of pipelines, the existing pipelines are combined and/or supplemented with other complexes that include at least additional pipelines and installed equipment that uses energy from renewable energy sources, as well as equipment for the production and supply of hydrogen and / or others.

In this embodiment, a production system is used to supply hydrogen to consumers, which converts the accumulated hydrogen into electricity. The accumulated hydrogen can be converted into electricity using a gas turbine generator or fuel cell.

Installed devices that use energy from renewable energy sources are created in locations with the most optimal, from a technical point of view, entry into the gas transportation system with the possibility of ensuring the required parameters of production, supply and transportation of the gas mixture, e.g. in the vicinity of distribution stations and/or reservoirs and other equipment, thus ensuring the required parameters of production, delivery and transport of the mixture.

In embodiments, a number of installed devices that use energy from renewable energy sources are created at renewable energy sites or a source that has the best natural conditions for converting energy from renewable energy sources into electricity and are connected by a common pipeline that can be produced from many pipelines and with branching, the pipeline is connected to a pipeline system and/or to an existing pipeline system that is made in the form of a gas transportation system, in the embodiment by means of an installed device or devices that create a mixture of gases and supply the mixture to the gas transportation system.

Hydrogen, which is produced using electricity from renewable energy sources (solar, wind, wave power plants) by electrolysis or other methods, can be used for further pumping into the gas transportation system to enrich natural gas, and also as an integration of renewable sources energy into a unified energy system.

The claimed method with the claimed functionality of the gas transportation system, the installation of various installed devices from renewable energy sources in the immediate vicinity of gas pipelines and their connection, the production of hydrogen using the created devices from renewable energy sources and its further pumping into the GTS or into underground reservoirs, ensures minimal costs and losses, increasing the volume of hydrogen produced and supplying it to a wider range of consumers in an extended area, as well as the possibility of integrating hydrogen, which is produced using "green energy" from all possible sources, into the unified energy system of the country with an increase in its branching, environmental friendliness and performance. Hydrogen that is produced using energy created by installations of renewable energy sources is therefore "green" hydrogen.

The production and supply of hydrogen to the GTS makes it possible to solve the problems of economic dependence. "Green" hydrogen from renewable electricity can create a new renewable energy market. Hydrogen, which is produced using energy installed equipment that uses different energy from renewable energy sources, is "green" and environmentally friendly. Hydrogen, which is produced from renewable energy sources, can replace fossil fuels without the need to change end-use technologies.

The global energy system must undergo a deep transformation from a system that is mainly based on fossil fuels to an efficient and renewable low-carbon energy system.

A comparative analysis of the mentioned technical solution with the closest analogous solutions showed that the implementation of a set of basic features that characterize the proposed technical solution leads to the emergence of the mentioned qualitatively new technical properties. Since the set of these properties has not yet been established from the prior art, it is possible to conclude that the proposed technical solution meets the criterion of an inventive step.

At present, the known sources of patent documents and other scientific and technical information 5 do not disclose methods for the creation and use of an energy system with the integration of hydrogen produced using renewable energy sources into a system with a set of basic features indicated in the submitted draft solution, therefore the submitted technical solution is considered a technical solution , which meets the novelty criterion.

The proposed method is further suitable for industrial use, because it does not contain any technological operations, structural elements or materials that could not be reproduced at the modern level of development of science and technology, especially in the field of electrical energy, and therefore the presented technical solution is considered a solution, which meets the criterion of industrial applicability.

Claims (9)

CLAIMS FOR PROTECTION 1. A method of transporting hydrogen with its integration into an existing pipeline energy system using devices using energy from renewable sources, the method includes pumping gas through a system of pipelines in the required directions, filling underground gas reservoirs with gas, if necessary, producing hydrogen that is pumped into a gas pipeline, characterized in that installed equipment that uses energy from renewable energy sources is placed along the pipelines in their immediate vicinity, and the installed equipment is built depending on the presence of renewable energy sources such as solar, wind, water and other, at the location of installed equipment, in the form of solar and/or wind, and/or wave, and/or other, where hydrogen is produced using energy from installed equipment and supplied to gas pipelines. 2. The method according to claim 1, characterized in that hydrogen is produced using electrical, mechanical or thermal energy. 3. The method according to claim 1, characterized in that reservoirs are created near the installed devices that use energy from renewable energy sources, which are connected to the gas transport system and which are pumped with hydrogen produced using the electrical energy of these installed devices. 4. The method according to claim 1, characterized in that the installed devices, which use energy from renewable energy sources, are connected to the gas pipeline through systems for creating a mixture of gases at the points of hydrogen supply and through hydrogen separation and, if necessary, cleaning systems in the hydrogen intake locations. 5. The method according to claim 1, characterized in that a system of existing pipes is used as a pipe system. 6. The method according to claim 1, characterized in that a system of existing pipes is used as a system of pipes, which are combined and/or supplemented with other complexes that include at least other pipes and installed devices that use energy from renewable energy sources, such as also equipment for the production and supply of hydrogen. 7. The method according to claim 1, characterized by the fact that the installed devices that use energy from renewable energy sources are created in places that are advantageous from a technical point of view and from the point of view of entering the gas transport system with the possibility of ensuring the required parameters of production, supply and transport of the gas mixture . 8. The method according to claim 1, characterized in that the installed devices that use energy from renewable energy sources are located in places where there are renewable energy sources or there is a source, and they are connected by a common pipe that is connected to the pipe system, which is created in the form of a gas transportation system. 9. The method according to claim 1, characterized in that the installed devices that use energy from renewable energy sources are located in places where there are renewable energy sources or there is a source, and they are connected by a common pipe that is connected to the existing pipe system , which is created in the form of a gas transportation system.