RU2665752C1 - Installation for combined electrical and cold supply at gas distribution station - Google Patents

Abstract

FIELD: power engineering.SUBSTANCE: invention relates to the field of heat power engineering, specifically to the use of natural gas in energy and cold production facilities through the use of a differential pressure of natural gas at gas distribution stations (GDS). Unit for combined electric and cold supply on the gas distribution system is mounted between a high-pressure gas pipeline and a low-pressure gas pipeline and contains the main natural gas supply line to an expander that is kinematically connected to an electric generator, a dehumidifier installed in front of the expander, and a heat exchanger whose input is connected to the expander output. Unit comprises a main gas heater connected in the high-pressure gas line before the drying unit and an additional natural gas supply line, which passes from the second outlet of the main gas heater through the pressure regulator and is connected to the main natural gas supply line in the low pressure gas pipeline, and an additional gas heater with a regulator is connected to the outlet of the heat exchanger to control the temperature of the gas sent to the low-pressure gas pipeline, and the heat exchanger is connected by pipelines of supply and discharge of the coolant to the consumer of the cold.EFFECT: purpose of the invention is to increase the economic efficiency of utilizing the potential energy of natural gas on the GDS, simplifying the design of the installation for such utilization.1 cl, 1 dwg

Description

The invention relates to the field of power engineering, specifically to the use of natural gas in means of generating mechanical energy and cold due to the use of a pressure drop of natural gas at gas distribution stations (GDS).

Natural gas is transported through gas pipelines with pressure, the average value of which is from 3.5 to 7.5 MPa. In the regions of its consumption from main gas pipelines through branch pipelines, it enters gas distribution stations, where its pressure decreases for the consumer from 0.6 to 1.2 MPa. Efficient utilization of the potential energy of natural gas while reducing its pressure at gas distribution stations can give a significant economic effect when using natural gas at gas distribution stations.

Known turboexpander installation, in which, through the use of a differential pressure of natural gas, energy and cold are generated, application for the invention of the Russian Federation No. 96103298, IPC F25B 11/00, publ. 04/27/1998, the applicants: Gurov V.I., Gurov I.V., Plotnikov A.E., Skibin V.A., Shcherbakova E.V. (RU). The operation of the known turboexpander installation is implemented in a method in which natural gas of increased pressure is passed through a turboexpander with pressure reduction in it, the power of the turboexpander is mechanically transferred to the blade machine to increase the pressure of the working fluid, part of the energy of which is used to heat the natural gas passed through the turboexpander. The heating of natural gas is carried out after a turboexpander with pre-heating it with external heat of a cold consumer, and air or liquid is used as a working fluid.

However, the transfer of energy generated by the expander only to the “scapular” machine significantly reduces the range of use of such energy. The thermal energy of compressed (or pre-pressed) air is used to heat the gas after the expander. The inability to adjust the performance, large temperature differences in the heat exchanger lead to low thermodynamic efficiency (large losses from the irreversibility of the process), as well as to high temperature stresses, which negatively affects the resource of the heat exchanger. In addition, the need to use a compressor air circuit leads to an increase in the number of equipment used and, consequently, to an increase in the cost of the installation as a whole.

Known fuel-free installation for centralized combined electric and cold supply, utility model of the Russian Federation No. 158931, IPC F25B 11/02, F01K 27/00, publ. 01/20/2016, patent holder: Federal State Budgetary Educational Institution of Higher Education "National Research University" MPEI "(FSBEI HE" NRU "MPEI") (RU), which uses the energy of the stream of transported natural gas, as well as a low-temperature potential heat source for generating electricity and cold as one or two different temperature potentials. A fuel-free installation contains a gas supply line to the expander with the first heat exchanger installed on it, an expander, a compressor, an evaporator, a throttle, a low-temperature potential heat source, a gas exhaust line after the expander to the low pressure gas pipeline, a second heat exchanger installed on the gas flow exhaust line after the expander to the low pressure gas pipeline, the first pump for supplying the first refrigerant, the second pump for supplying the second refrigerant to the consumer of electricity and cold from the evaporator, the third additional eploobmennik whose output is connected to the refrigerant at the compressor input, and the input of the low temperature heat capacity connected to supply line low temperature heat capacity mounted thereon with the third pump, and the outlet temperature of low heat capacity is coupled to a heat source of low thermal capacity.

A well-known fuel-free installation carried out simultaneous generation of electricity and cold, however, the presence of a complete refrigeration cycle with all necessary units: an evaporator, a condenser, a compressor, as well as the presence of an additional circulation circuit leads to a complication of the design, to a significant increase in the cost of the installation, negatively affects the overall economic efficiency.

The use of natural gas in mechanical energy generation systems is known. Overview. Series “Use of gas in the national economy. Utilization of potential gas energy at gas distribution systems in expander units ”, vol. 4, 1988, p. 29, 30. Zarnitsky G.E. The theoretical basis for the use of pressure energy of natural gas - M .; Nedra, 1968, p. 201. Such systems incorporate an expander unit where high pressure natural gas expands and does the work that is used to propel various mechanisms, such as electric generators. In addition, the decrease in gas temperature caused by its expansion is used by means of heat exchangers for cooling in external refrigeration units.

However, it is not at all guaranteed that the gas will reach the necessary positive temperatures for supplying low pressure to the gas pipeline; the gas temperature after the return of cold to the external refrigeration unit may not reach the parameters required for delivery to the consumer. The inability to heat the gas after the heat exchanger makes it impossible to effectively use the known installation on the GDS.

The aim of the invention is to increase the economic efficiency of the utilization of potential energy of natural gas at gas distribution stations, simplifying the design of the installation for such utilization.

This goal is achieved by the fact that the installation for combined electric and cold supply at the gas distribution station is located between the high pressure gas pipeline and the low pressure gas pipeline and contains a main line for supplying natural gas to the expander kinematically connected to the electric generator, a drying unit installed in front of the expander, and a heat exchanger, whose input is connected to the output of the expander. It also contains a main gas heater installed in the high pressure gas line in front of the drying unit, and an additional natural gas supply line, which passes from the second outlet of the main gas heater through the pressure regulator and connects to the main natural gas supply line in the low pressure gas pipeline. On the main supply line of natural gas, the first output of the main gas heater is connected to the input of the drying unit, and an additional gas heater is connected to the output of the heat exchanger with the ability to control the temperature of the gas sent to the low pressure gas pipeline. The heat exchanger is connected by pipelines for supplying and discharging the first coolant to the consumer of cold, and the second coolant in the heat exchanger is natural gas expanded in the expander, in addition, the generator is connected by electrical communication with an additional gas heater, a drying unit, a cold consumer and gas distribution station consumers. The cold consumer is made divided into at least two chambers with the possibility of establishing different temperature conditions in them.

Such a design of the installation combines the simplicity of the design, the reliability of its operation, the most efficient supply of electricity and cold to consumers at the gas distribution station. Connecting an additional heater for the gas coming from the heat exchanger, with the possibility of regulating the temperature of the gas going to the low pressure gas pipeline, effectively provides the necessary gas temperature for the consumer, the presence of an additional supply line with a gas pressure regulator enables uninterrupted gas supply to the consumer during routine maintenance on the units main supply line or in case of emergency situations at the gas distribution station, in addition to this, the expanded use of energy, my generator, increases the economic efficiency of the entire system.

The present invention and its advantages will be better understood by reference to the following description and the attached drawing. In FIG. 1 shows a structural diagram of the proposed installation for combined electricity and cold supply at a gas distribution station. The various auxiliary systems required, such as valves, flow mixers, control systems, and sensors, are omitted from the drawing for the sake of simplicity and clarity.

In FIG. one:

1 - high pressure gas pipeline;

2 - low pressure gas pipeline;

3 - the main gas heater;

4 - drying unit;

5 - expander generator;

6 - heat exchanger;

7 - pipeline of the first refrigerant;

8 - cold consumer;

9 - additional gas heater;

10 - pressure regulator.

Installation for combined electrical and cold supply to the gas distribution system is located between the gas pipeline 1 high pressure and gas pipeline 2 low pressure and works as follows.

Natural gas (pressure 3.8 MPa, temperature about + 5 ° С) is supplied to the gas distribution station 1 through a high pressure gas pipeline 1 and passes to the main gas heater 3, to the outlets of which two gas supply lines are connected: the main and the additional. An additional line through the pressure regulator 10, the gas goes directly to the consumer (approximately 10% ÷ 15% of the total flow). By means of the pressure regulator 10, the gas pressure is reset to the required values required in the low pressure gas line 2. Through the main supply line, gas enters the drying unit 4, which ensures the absence of condensate (hydrates) in the cold gas circuit in order to maintain the operability of the system as a whole and the expander generator 5, in particular. After the drying unit 4, the gas is directed to the expander generator 5, expanded, cooled, and, like a second coolant, passes through a heat exchanger 6, where cold gas (T = -45 ° C) gives cold to the first coolant, as an example, antifreeze, and heats up after passing heat exchanger 6 to ~ T = -5 ° C. An additional gas heater 9 is connected to the output of the heat exchanger 6. In it, the gas is heated and its temperature is adjusted to connect to an additional supply line and to the consumer through the low pressure gas pipeline 2. And natural gas with the required temperature and pressure (T = + 5 ° C, P = 0.48 MPa) is connected through the main supply line to an additional supply line in the low pressure gas pipeline 2 to direct the consumer to the gas distribution network. The heat exchanger 6 is connected by a pipe 7 of the first refrigerant to a consumer 8 of cold, divided into at least two chambers with the possibility of establishing different temperature conditions in them. The first refrigerant, as an example of antifreeze, alternately enters the consumer 8 cold chambers, maintaining different temperature conditions in them, significantly expanding the technological capabilities of the cold consumer 8, thereby allowing the cooling capacity of its chambers to be varied. After all cold chambers of consumer 8 have passed, the heated first coolant, as an example of antifreeze, is pumped up by a pump (not shown in the figure) and returned to the heat exchanger 6, where it is cooled to the required temperatures. The second refrigerant in heat exchanger 6 is previously expanded and cooled natural gas. The electric generator of the expander generator 5 for transmitting the generated energy is electrically connected to an additional gas heater 9, a drying unit 4, with a cold consumer 8 and electric consumers on the gas distribution station.

Thus, the simplicity of design, reliable operation, the most complete supply of electricity and cold to consumers at the gas distribution stations give a significant increase in the economic efficiency of the installation for combined electric and cold supply at the gas distribution station.

A prototype of such a unit for combined power and cold supply at gas distribution stations has been successfully tested and is being prepared for delivery to the customer at a specific gas distribution station.

Claims (2)

1. Installation for combined electric and cold supply at a gas distribution station, connected between a high pressure gas pipeline and a low pressure gas pipeline, containing a main line for supplying natural gas to an expander kinematically connected to an electric generator, a drying unit installed in front of the expander, and a heat exchanger, the input of which is connected to the output of the expander, characterized in that it contains the main gas heater installed in the line of the high pressure gas pipeline in front of the drying unit, and will complement the natural gas supply line, which runs from the second output of the main gas heater through the pressure regulator and connects to the main natural gas supply line in the low pressure gas pipeline, while on the main natural gas supply line, the first output of the main gas heater is connected to the input of the drying unit, and an additional gas heater is connected to the output of the heat exchanger with the ability to control the temperature of the gas sent to the low pressure gas pipeline, in addition, the heat exchanger is connected n pipelines for supplying and discharging the first coolant with a cold consumer, and the second coolant in the heat exchanger is natural gas expanded in the expander, in addition, the electric generator is electrically connected to an additional gas heater, a drying unit, a cold consumer and electric consumers of a gas distribution station. 2. Installation according to claim 1, characterized in that the consumer of cold is made divided into at least two chambers with the possibility of establishing different temperature conditions in them.

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