RU2786295C1 - Autonomous system of heat supply for objects and settlements - Google Patents

Abstract

FIELD: energy.

SUBSTANCE: invention relates to the field of energy, in particular to autonomous heating systems for objects and settlements using natural gas. Initially, all consumers of thermal energy 4 were supplied with heat from a gas boiler 2. Natural gas is supplied to the boiler 2 from the main gas pipeline 13 through the supply gas pipeline 1. Hot water is supplied from boiler house 2 via heat network 3 to thermal energy consumers 4. To supply heat to new consumers of thermal energy 10, a pre-fabricated block-modular boiler plant 5 is installed, into which natural gas is supplied through gas line 6. From block-modular boiler plant 5 along heating network 9, hot water is supplied to consumers of thermal energy 10. In the event of an emergency, on the supply gas pipeline 1 or on the main gas pipeline 13, the shut-off and control valve 12 on the supply gas pipeline 1 is closed and the shut-off and control valve 11 opens on the supply line 8 of the vapor phase of liquefied hydrocarbon gas and the vapor phase of liquefied hydrocarbon gas (gaseous propane-butane) enters the gas boiler 2 and block-modular boiler plant 5 to generate hot water.

EFFECT: increase in the capacity of the autonomous heat supply system with an increase in the number of consumers of thermal energy and the provision of reserve fuel for the autonomous heat supply system when the supply of natural gas is interrupted.

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Description

The invention relates to the field of energy, in particular, to autonomous heating systems for objects and settlements using natural gas.

A well-known system of heat supply and/or hot water supply of an integrated consumer of thermal energy, including local consumers in the form of separate buildings or structures, united, for example, in architectural and construction groups, microdistricts, quarters or settlements, characterized in that it is a hydraulic system, including a distribution network of pipelines connected via a heat carrier with a source of heat supply, for example, a boiler house with local consumers of thermal energy, shut-off and / or shut-off and control valves with a locking element, pumping and other equipment (RF Patent No. No. 23).

An autonomous heat supply system for isolated settlements is known, containing a boiler plant with a hot water boiler and a burner, to which a natural gas pipeline is connected, heated and return water pipelines connected to the boiler, pumping equipment for transporting heat carriers, local heating and hot water supply systems for end users connected to pipelines of heated and return water (Khavanova P.A. Heat sources of autonomous heat supply systems. Journal ABOK. 2002, No. 1, p. 14-21).

The disadvantage of this technical solution is the need to use network pipeline natural gas, which has a significant length of pipelines from the main gas pipeline to isolated settlements.

A known system of reserve and emergency fuel supply of a gas boiler, used when stopping or reducing the supply of gas to the boiler room and containing a pressure fuel line connected to the burners of the boiler, a fuel pump with a suction fuel line, a consumable capacity of the reserve fuel, which is connected to the suction fuel line (Adamov V.A. Combustion of fuel oil in boiler furnaces: A textbook for students of technical universities // L .: Nedra, 1989. - S. 254-261).

The disadvantages of this technical solution are the reduced efficiency and environmental friendliness of the backup and emergency fuel supply of a gas boiler house due to the high cost of thermal energy for heating fuel oil, increased energy costs for supplying and circulating fuel oil, and due to contamination of condensate when heating fuel oil with steam.

There is a known method of backup and emergency fuel supply of a gas boiler, according to which, when the gas supply to the boiler is stopped or reduced, liquid fuel is supplied to the boiler burners, which is used as fuel oil (Buznikov E.F. and other Industrial and heating boilers. M, Energy, 1974, p. 157).

According to this source, a survey of a number of gas boilers with a known method of backup and emergency fuel supply shows that the operation of backup and emergency fuel supply systems accounts for up to 15-20% of the total cost of operating boilers.

Known installation for the storage and gasification of liquefied gases, designed for gasification of liquefied hydrocarbon gases and the supply of gaseous propane-butane gas-using equipment of end users, containing a tank for liquefied hydrocarbon gases with an evaporation plant, communications with shut-off, safety and shut-off valves, components of control and measuring equipment, automation and power supply (Utility model patent of the Russian Federation No. 146391, published on October 10, 2014, Bull. No. 28).

It is known to have a container for storing and distributing liquefied hydrocarbon gas, containing a double-walled reservoir, a hatch, a protective casing with a hatch cover placed inside it, shut-off valves, safety valves and the initial section of the pipeline, while the interwall space of the vessel is filled with an inert gas, and to the interwall space and devices for constant automatic control of the upper and lower limits of inert gas pressure are connected to the sealed casing (RF Patent No. 2187037, published on August 10, 2002 Bull. No. 22).

This technical solution provides that the tank for storage and distribution of liquefied petroleum gas (propane-butane) can be made in the ground and underground version.

Known device capacity (reservoir) for storage of liquefied petroleum gas (propane-butane), containing a roof in the upper part, which is rigidly attached to the piping of the reducing node with a valve, a low pressure regulator with automatic control and safety and an internal section of the pipeline for the intake of the vapor phase and a line for supplying the vapor phase of liquefied petroleum gas. The tank is intended for the supply system of the vapor phase of liquefied hydrocarbon gas to consumers (RF Patent No. 2476759, published on February 27, 2013, Bull. No. 6).

A block-modular boiler house is known, which includes thermal and mechanical equipment, safety automation equipment, regulation and instrumentation, electrical and lighting equipment, gas supply equipment for the boiler room, pumping equipment for transporting coolants, ventilation and heating equipment, plumbing and sewerage equipment, metering units, which is assembled in enlarged blocks at the factory, and frame structures of various types are used as boiler block bodies (Utility model patent of the Russian Federation No.

A well-known heat supply system for buildings and structures of remote military facilities and settlements, including a source of natural gas in the form of a container with liquefied natural gas, a natural gas boiler connected to a natural gas source, a heating network connecting the boiler room with consumers of thermal energy, in which are buildings and structures of remote military facilities and settlements (RF Patent No. 2726963, published on 07/17/2020, Bull. No. 20).

The disadvantage of this technical solution is the need to create a significant volume of storage tank for liquefied natural gas for gasification of the boiler.

An autonomous heating system for objects and settlements is known, containing a gas boiler room, to which a natural gas pipeline is connected, a heating network connected to the boiler room with pipelines of heated and return water, as well as consumers of thermal energy, in the form of heating and hot water supply, connected to a gas heating network boiler house (Utility Model Patent of the Russian Federation No. 179379, published on May 11, 2018, Bull. No. 14).

The disadvantage of this technical solution is the impossibility of increasing the estimated thermal power of the boiler house with an increase in the number of consumers of thermal energy, as well as the lack of reserve fuel when the supply of natural gas to the boiler house is interrupted, for example, in the event of an accident on the natural gas pipeline.

The technical result that can be obtained by implementing the proposed invention is to increase the power of the heat supply system with an increase in the number of consumers of thermal energy, as well as to provide backup fuel (liquefied hydrocarbon gas - propane-butane) for an autonomous heat supply system when natural gas supply is interrupted.

To achieve this technical result, the proposed autonomous heat supply system for objects and settlements, containing a gas boiler room, to which a natural gas supply pipeline is connected, a heat network connected to the boiler room with heated and return water pipelines, as well as thermal energy consumers, in the form of heating and hot water supply connected to the heat network of the gas boiler house, equipped with a block-modular boiler plant, a heat network of a block-modular boiler plant connecting the boiler plant with consumers of thermal energy, a natural gas gas line connecting the block-modular boiler plant with a natural gas supply pipeline, a tank for storage of liquefied hydrocarbon gas (propane-butane), connected by a line for supplying the vapor phase of liquefied hydrocarbon gas to a gas line connecting a block-modular boiler plant with a natural gas supply pipeline, while the natural gas supply pipeline o gas and the line for supplying the vapor phase of liquefied hydrocarbon gas are equipped with shut-off and control valves, the heating networks of the boiler house and the block-modular boiler plant are not interconnected and provide thermal energy to different consumers, the natural gas gas line is connected to the natural gas supply pipeline after the shut-off and control valves in front of its entrance to the boiler room, and the supply gas pipeline is connected to the main natural gas pipeline.

Introduction to the proposed autonomous system of heat supply for objects and settlements of a block-modular boiler plant, a heat network of a block-modular boiler plant connecting the boiler plant with consumers of thermal energy, a natural gas gas line connecting a block-modular boiler plant with a natural gas supply pipeline, tanks for storage of liquefied hydrocarbon gas (propane-butane), connected by a line for supplying the vapor phase of liquefied hydrocarbon gas to a gas line connecting a block-modular boiler plant with a natural gas supply pipeline, supplying a natural gas supply pipeline and a supply line for the vapor phase of liquefied hydrocarbon gas shut-off control valves, connecting the natural gas gas line to the natural gas supply pipeline after the shut-off and control valve in front of its entrance to the boiler room, connecting the supply gas pipeline to the natural gas main gas pipeline, providing heating networks of a boiler house and a block-modular boiler plant with the thermal energy of different consumers, allows you to get a new property, which consists in the possibility of producing additional thermal energy through the use of a prefabricated block-modular boiler plant and its connection to the supply gas pipeline through a gas line connecting the block-modular boiler house installation with a natural gas supply pipeline, which allows increasing the capacity of the autonomous heat supply system (the amount of heat generated) with an increase in the number of consumers of thermal energy, as well as providing backup fuel for the autonomous heating system, which is used as liquefied hydrocarbon gas (propane-butane) when the supply is interrupted natural gas in the event of an emergency on the supply gas pipeline or on the main gas pipeline due to the supply of hydrocarbon gas from the storage tank for liquefied hydrocarbon gas through the vapor phase supply line with liquefied hydrocarbon gas (gaseous propane-butane) connected to the gas line connecting the block-modular boiler plant with the natural gas supply pipeline.

In FIG. 1 shows a schematic diagram of an autonomous heat supply system for objects and settlements, where:

1 - natural gas supply pipeline;

2 - gas boiler room;

3 - heating network of a gas boiler house with pipelines of heated and return water;

4 - consumers of thermal energy connected to the heating network of the gas boiler house;

5 - block-modular boiler plant;

6 - gas line connecting the block-modular boiler plant with a natural gas supply pipeline;

7 - storage tank for liquefied hydrocarbon gas (propane-butane);

8 - line for supplying the vapor phase of liquefied hydrocarbon gas (gaseous propane-butane);

9 - heating network with pipelines of heated and return water of a block-modular boiler plant;

10 - consumers of thermal energy connected to the heating network of a block-modular boiler plant;

11 - shut-off and control valve on the line for supplying the vapor phase of liquefied hydrocarbon gas (gaseous propane-butane);

12 - shut-off and control valve on the natural gas supply pipeline;

13 - main gas pipeline.

The work of the proposed autonomous heating system for objects and settlements is carried out as follows.

Initially, all consumers of thermal energy 4 were supplied with heat from a gas boiler house 2. Buildings and structures of various objects and settlements act as consumers of thermal energy 4. Boiler room 2 for objects and settlements is an object of capital construction and is being built in parallel with the construction of the objects themselves and settlements. The thermal power of boiler room 2 is selected based on the number of potential consumers of thermal energy. For the operation of the boiler 2 from the main gas pipeline 13, natural gas is supplied through the supply gas pipeline 1, the combustion of which ensures the production of thermal energy in the form of hot water. From the boiler house 2 through the heat network 3, consisting of pipelines of heated and return water, hot water is supplied through the pipeline of heated water of the network 3 to consumers of thermal energy 4, which are buildings and structures of objects and settlements, and returns back to the boiler room 2 through the return pipeline network water 3.

In the process of functioning of an object or a settlement, new consumers of thermal energy 10 appear. As consumers of thermal energy 10, for example, newly built buildings and structures of various objects and settlements act. These are newly built buildings and structures that require additional heat output (the amount of generated thermal energy) of the gas boiler 2. This requires capital construction to expand the gas boiler 2 and increase the consumption of natural gas, which is often difficult.

To solve this problem, a prefabricated block-modular boiler plant 5 is mounted on the territory of the facility or settlement. The block-modular boiler plant 5 is assembled at the factory, completed with the necessary equipment, and then transported to the installation site by road. It does not require capital expenditures and is mounted on a prepared site.

In the block-modular boiler plant 5, natural gas is supplied through the gas line 6 connecting the block-modular boiler plant 5 with the natural gas supply pipeline 1.

The gas line 6 is connected to the natural gas supply pipeline 1 after the shut-off and control valve 12 before its entry into the gas boiler 2, and the supply gas pipeline 1 is connected to the main natural gas pipeline 13.

From the block-modular boiler plant 5 through the heat network 9, consisting of pipelines of heated and return water, hot water is supplied through the pipeline of heated water of the network 9 to consumers of thermal energy 10, which are newly constructed buildings and structures of objects and settlements, and returns back to the block-modular boiler plant 5 through the return pipeline of the network 9.

Production of additional thermal energy through the use of a pre-fabricated block-modular boiler plant 5 and its connection to the supply gas pipeline 1 through the gas line 6 connecting the block-modular boiler plant 5 with the natural gas supply pipeline 1, which allows increasing the capacity of the autonomous heat supply system (the amount of generated heat) with an increase in the number of consumers of thermal energy.

To provide reserve fuel for an autonomous heat supply system of objects and settlements, which is used as liquefied hydrocarbon gas (propane-butane), when natural gas supply is interrupted in the event of an emergency on the supply gas pipeline 1 or on the main gas pipeline 13, the vapor phase of liquefied hydrocarbon gas is supplied from containers for storing liquefied hydrocarbon gas 7 through the supply line 8 of the vapor phase of liquefied hydrocarbon gas (gaseous propane-butane), which is connected to the gas line 6 through the shut-off and control valve 11.

For this purpose, in the event of an emergency on the supply gas pipeline 1 or on the main gas pipeline 13, the shut-off and control valve 12 on the supply gas pipeline 1 is closed and the shut-off and control valve 11 is opened on the supply line 8 of the vapor phase of liquefied hydrocarbon gas and the vapor phase of liquefied hydrocarbon gas (gaseous propane-butane) enters the gas boiler 2 and block-modular boiler plant 5 to generate hot water.

Sources of information taken into account when drawing up the application:

1. RF patent No. 2364798, publ. dated 20.08.2009, Bull. No. 23.

2. Khavanova P.A. Heat sources of autonomous heat supply systems. ABOK magazine. 2002, no. 1, p. 14-21.

3. Adamov V.A. Combustion of fuel oil in boiler furnaces: A textbook for students of technical universities // L .: Nedra, 1989. - S. 254-261.

4. Buznikov E.F. etc. Production and heating boiler rooms. M., Energy, 1974, p. 157

5. Utility model patent of the Russian Federation No. 146391, publ. dated 10.10.2014, Bull. #28

6. RF patent No. 2187037, publ. dated 10.08.2002 Bull. No. 22.

7. RF patent No. 2476759, publ. dated February 27, 2013, Bull. No. 6.

8. Utility model patent of the Russian Federation No. 120484, publ. dated 20.09.2012, Bull. No. 26.

9. RF patent No. 2726963, publ. dated 17.07.2020, Bull. No. 20.

10. Utility model patent of the Russian Federation No. 179379, publ. dated 11.05.2018, Bull. No. 14 - prototype.

Claims (1)

Autonomous heat supply system for objects and settlements, containing a gas boiler house, to which a natural gas supply pipeline is connected, a heat network connected to the boiler house with heated and return water pipelines, as well as consumers of heat energy in the form of heating and hot water supply, connected to the heat network of the gas boiler house , characterized in that it is equipped with a block-modular boiler plant, a heat network with heated and return water pipelines of a block-modular boiler plant connecting the boiler plant with consumers of thermal energy, a natural gas gas line connecting the block-modular boiler plant with a natural gas supply pipeline , a storage tank for liquefied hydrocarbon gas, connected by a line for supplying the vapor phase of liquefied hydrocarbon gas to a gas line connecting a block-modular boiler plant with a natural gas supply pipeline, while the natural gas supply pipeline and line The supply lines for the vapor phase of liquefied hydrocarbon gas are equipped with shut-off and control valves, the heating networks of the boiler house and the block-modular boiler plant are not interconnected and provide thermal energy to different consumers, the natural gas gas line is connected to the natural gas supply pipeline after the shut-off and control valve in front of it entrance to the boiler room, and the supply gas pipeline is connected to the main natural gas pipeline.

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