The proximity of the gas pipeline network to the village does not guarantee no problems with connecting to it. Communications that transport the most popular fuel have different tasks, which is why the pressure in the gas pipeline is also different.
We will tell you how the gas transmission network works and under what pressure is the fuel supplied to the consumer in its linear segments. The article we have presented sets out in detail the principles of organizing gas supply systems at various levels. Gas shutdown mechanisms are provided.
Natural gas supply
Household and industrial equipment operating on a natural mixture of gaseous hydrocarbons is well known to everyone. In residential buildings, boilers, gas stoves and water heaters are installed.
Many enterprises have at their disposal boiler equipment and fenced "houses" of the GRU. And on the streets there are gas distribution points that attract attention with a yellow color and a bright red inscription “Gas. Flammable. ”
Everyone knows - gas flows through pipes. Just how does he get into these very pipes? The path traveled by natural gas to each apartment, each house is truly huge. Indeed, from the field to the final consumers, the fuel flows through branched, airtight channels stretching for thousands of kilometers.
Immediately after production at the field, the gas mixture is purified from impurities and is prepared for pumping. Pumped by compressor stations to high pressure values, natural gas is routed through a main pipeline to a gas distribution station.
Its settings reduce the pressure and odorize the gas mixture with methane, ethane and pentane thiols, ethyl mercaptan and similar substances to give it a smell (in its pure form, natural gas has no smell). After additional purification, gaseous fuel is sent to the gas pipelines of settlements.
Gas consuming appliances require the supply of flammable gas under a certain pressure. The hydraulic fracturing complex regulates (usually lowers) the network pressure of gas before flowing into the house networks with a maximum gas flow rate of up to 30 thousand cubic meters per hour
Natural gas then flows to the gas distribution points inside the city blocks. Before being sent to the gas pipeline network of the quarter, the pressure of the transported gas is reduced to the required minimum. Finally, the gas flows into the internal gas supply network - to the gas stove, water heater or floor boiler.
Each gas processing unit is equipped with a special burner that mixes the main fuel with air before burning. In its pure form (i.e., without oxygen access), the flammability of natural gas is zero.
GDS complexes are used at branches from the main gas mains, they reduce pressure and control the supply of gas volumes to local consumer networks (maximum 500 thousand cubic meters per hour)
The composition of the gas supply system
The gas transportation complex is formed by pipelines and structures, as well as technical devices that supply and distribute the flow between consumers. The gas supply intensity is determined by the needs of end users - industrial and communal organizations, private households.
The gas supply network consists of:
- pipelines of high, medium and low pressure;
- gas control devices - stations (GDS), points (hydraulic fracturing), installations (GRU);
- automatic control and monitoring systems;
- dispatching and operational services.
Under high pressure, the main gas pipeline delivers natural gas to the distribution stations, which lower the pressure level to that required by the valves of the automatic regulators.
Further, gas networks direct fuel to consumers. GDS automatically maintains pressure indicators in a given range.
How is the gas supply system organized?
Its hierarchy is determined by the classes of gas transmission network elements associated with the pressure of the pumped natural gas.
The laying of gas pipelines in the city requires sufficient space around the pipes as a safety zone. Moreover, if it is a gas pipeline of significant cross section with a working pressure of more than 0.6 MPa
The principles of the gas network
The first level gas pipelines include gas pipelines in which the pressure of natural gas is high or medium. To avoid dead ends, gas pipelines are backed up - duplication of individual segments or banding. Creating a dead-end network is allowed only in small towns.
Natural gas under high pressure goes through several successive stages, where its pressure decreases. The process of pressure reduction in gas control points occurs in jumps, at the outlet of them the pressure is constant. In the urban area, gas communications with medium and high pressure form a hydraulically connected common network.
Similar signs indicate the location of underground gas utilities and the boundaries of the security zone. This sign shows the number of the picket (it is absent), the category of the gas pipeline (II), the diameter of the pipeline (800 mm), the perimeter of the security zone (2 m left and right, 1 m forward), contact telephone number (T.051)
The use of hydraulic fracturing allows consumers to be supplied with gas of various pressures, even if they are located on the same street - gas pipelines of unequal pressures are placed in parallel.
Second-level gas pipelines provide low pressure gas fuel for the majority of consumers. Such networks are mixed, with a predominance of dead-end segments. Only main pipelines undergo ringing.
A low-pressure gas pipeline should not cross large industrial (motorways, railways) or natural (lakes, rivers, ravines) barriers. Installation of such communications in industrial areas is not allowed.
To the gas consumer in private households, gas flows through low pressure branches. The pressure parameters at the inlet to the device must correspond to the data indicated in the data sheet
Gas networks supplying fuel under low pressure cannot form a hydraulically connected system of a large settlement. They are designed exclusively as local complexes fed by several hydraulic fracturing.
In turn, connected to medium pressure networks, which in turn are connected by analogy to high-pressure lines. The third level of network gas pipelines is used at consuming facilities - in the territories of enterprises, in residential and public buildings.
The need for pressure for such networks is determined by their purpose and performance characteristics of gas-using devices (installations). Reservation (partial duplication) on gas communications of the third level is usually not made.
Types and categories of gas pipelines
The division of gas supply pipelines by type is reflected in SNiP 42-01-2002. High-pressure gas pipelines correspond to one type, subdivided into two categories.
Gas-conducting communications of the first category are located exclusively for consumers in the industrial sector, which consume significant volumes of gaseous fuel under a stably high (0.6-1.2 MPa) pressure.
For example, it is steel mills. Connecting each industrial consumer to the gas pipeline of the first category requires the preparation of a special gas supply project.
Modern standards for the installation of gas networks allow their construction with PVC pipes with “yellow” marking. However, through any obstructions, gas communications pipes must only be led in a steel protective case.
Conducting natural gas lines of the second category are created for other production facilities that need to supply the gas mixture under high pressure, but less (0.3-0.6 MPa) than consumers of the first category. The same gas pipelines supply fuel to boiler houses heating industrial buildings.
Pipelines supplying gas with an average pressure level (0.005-0.3 MPa) are led to boiler houses that heat household and administrative facilities. They are also used to provide public buildings in need of an increased amount of fuel.
Gas pipelines of low pressure level (up to 0.005 MPa) stretch to domestic consumers. All household equipment is designed specifically for such characteristics of gas supply.
Otherwise, by lowering the pressure parameters as much as possible, it is impossible to achieve maximum safety on gas communications for residential facilities. The organization of gas supply to residential buildings with medium pressure pipelines and above is strictly prohibited.
Multistage gas supply system
The need to create several stages in the local natural gas supply system, including caused by the presence of consumers in need of gaseous fuel supplies under various pressures.
Graduation of gas pipelines by steps
The following gas supply systems are distinguished by the number of pressure steps:
- Two-stage. Formed by networks under pressure low and medium, or low and high;
- Three stage. Consist of communications with high, medium and low pressures;
- Step-step. They are formed by gas pipelines with pressures of all levels.
The alternation of high and medium pressure highways is required due to the considerable length of the network pipelines, as well as due to several directions of transportation. In areas with a significant population density, laying gas pipelines conducting gaseous fuel under high pressure is not recommended.
The main gas pipelines of the city are located underground. Otherwise, major accidents on gas networks due to vehicle management errors would have been impossible to avoid.
Another common reason is that in the old building areas, city streets are not wide enough to stretch high pressure gas lines under them. After all, the higher the pressure of the gas moving through the pipeline, the more significant the distance is needed between communications and neighboring buildings.
The need for a step-by-step scheme of gas supply is also caused by technological requirements for the connection and installation of gas control units installed on buildings.
Types of city networks according to purpose
Territories of urban areas are equipped with the most extensive network of gas supply communications.
The urban complex supplying natural gas includes the following types of pipelines:
- distribution, conductive gas under various (actually necessary) pressure. Provide transportation on the served territory;
- subscriber branches supplying gas from distribution lines to specific subscribers;
- intra-house and intra-workshop.
The gas distribution scheme designed for the city, directing gas under medium and high pressure, forms a common network. The specifics of developing a project for the gasification of a private house will be introduced by our article.
The cabinet gas supply regulatory point is used on end-user networks with a capacity of not more than 1800 cubic meters per hour. It is able to reduce pressure to 2 kPa
Those. Natural gas is supplied to communal consumers, boiler houses and industrial facilities through a common gas distribution network. The construction of separate backbone networks for household or industrial consumers is disadvantageous from an economic perspective.
When choosing planning solutions for urban gas supply, the planning and size of the city, population density and development, the needs of power plants and industrial facilities are taken into account. The prospects of the future development of the city, the presence of major obstacles (artificial, natural) for conducting gas pipelines are taken into account.
Features of urban gas supply planning
Within the city limits, an ideal natural gas supply scheme must be economically viable, operationally safe and reliable, convenient and uncomplicated in working with it.
Such ball valves are used to equip gas communication networks for large consumers and for multi-stage systems. This stop valve
it is installed on the gas pipeline when it is discharged through the gas control station, allowing you to switch the gas supply circuits of the system
The gas supply pipeline network must allow accidental shutdown of its individual segments to carry out repairs. A prerequisite is the complete uniformity of nodes, equipment and structures as part of one system.
When depicted in the diagram, city gas pipelines are shown sequentially. However, laying parallel gas communications is allowed along the streets, subject to different pressures in them.
Such a layout is cost-effective, as it reduces the consumption of pipes:
- gas lines of low pressure are fed by several hydraulic fracturing;
- methane is supplied to the central hydraulic fracturing in parallel with medium or high pressure gas pipelines.
Similar schemes for laying communications are used to supply boiler houses and enterprises located inside residential areas.
The urban development structure requires the construction of a low pressure network in the format of two unconnected zones. For redundancy at a low pressure level, hydraulic fracturing of each of the two zones is connected to large-diameter pipelines that conduct gas at low pressure.
In cities of small and medium size, a two-stage complex of gas pipelines is used that combines low and high pressure communications (not more than 0.6 MPa).
If it is impossible to lay gas pipes in the city center for pumping a high-pressure gas mixture, their design capacities are divided between high-pressure networks (laid in the periphery) and medium pressure (created in the central part).
The result is a three-stage natural gas supply system equipped with distribution pipelines with a diameter of 50-400 mm.
Before constructing a separate gas transmission branch and before tapping into an existing gas pipe, the planned section of the system is designed, a hydraulic calculation is performed, providing the opportunity to select gas pipes and fittings for arranging the network.
Natural gas shutdown mechanisms
Performing repairs requires periodic shutdown of certain sections of urban gas pipelines consisting of high and medium pressure, as well as certain networks under low pressure.
Therefore, gas pipeline systems of network, public and residential pipelines, as well as industrial facilities or several buildings are equipped with shut-off devices - gate valves (another name - plug valves).
The assembly of the communication system according to the rules is completed by pressure testing of the gas pipeline, which allows to identify problem areas. They most often occur at the locations of the locking devices.
Installed externally in a protective cabinet or without it, these valves are used for the need to completely disconnect the home from the gas supply network
Installation of valves is carried out:
- on gas pipes in hydraulic fracturing (outgoing and incoming);
- on branches of the main gas pipelines going to microdistricts and quarters;
- in front of a large obstacle crossed by a pipeline (water bodies, automobile and railway tracks).
On the external gas pipelines, the valves are installed with deepening in the wells. Together with them, lens compensators are mounted, designed to take voltage readings (mounting, temperature) through the pipeline, as well as to facilitate the setting and removal of shutoff valves.
It is permissible to lay the wells at a distance of more than 2 m from the nearest building or fence.
Shut-off valves on gas inlets in buildings are placed on the wall. Gas cranes, the replacement of which the following article will familiarize with, are placed with maintaining a meter distance from the nearest openings.
Regardless of the level of pressure, branching, and the length of the pipeline conducting the gas mixture, the number of shutdown devices should be minimally necessary, with justification for each location.
An important issue for owners is the price of connecting to the main gas, the details of which are given here. We recommend that you familiarize yourself with useful material.
Video # 1. How is the gas supply of the apartment building:
Video # 2. How it is arranged and how ball valves for gas pipelines are made:
The gas pipeline system ensures a sound supply of natural gas only if it is balanced. Any work with gas transmission equipment may be carried out exclusively by gas service employees. Extraneous interference in the operation of the gas network is unacceptable and extremely dangerous - remember this!
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