RU2145032C1 - Method for electric-power supply of gas-distribution station - Google Patents

Abstract

FIELD: gas industry, applicable in reconstruction and modernization of gas- distribution stations of gas mains. SUBSTANCE: the method consists in heating of heat-transfer agent of the gas heater by fuel gas, generation of electric power by a self-sustained power source by using the pressure differential of the pressure-reduction unit, use of this power for station auxiliaries and additional heating of heat-transfer agent by the overcurrent power of the power source. EFFECT: enhanced efficiency. 1 dwg

Description

 The invention relates to the gas industry and may find application in the reconstruction and modernization of gas distribution stations of gas pipelines.

 Known gas distribution station (GRS) GRS-5-75, damn. 54P.00.000 TU, developed by SKB Tyumengaztekhnika in 1994, in which the heat carrier in the gas heater is heated using a heat exchanger, the heating elements of which use electric power from the power supply line.

 The disadvantage of this method is that for heating the coolant requires electric power supply lines.

 Known gas distribution station "Tashkent-5", damn. 475319-556 TU, developed by SKTB "Uzgaztekhnika", Tashkent in 1991, (prototype), in which the heat carrier in the gas heater is heated with fuel gas, and an autonomous power source is used to provide electricity to the needs of the gas distribution station.

 The disadvantage of this method is that the thermal power of the device of the ballast load, stabilizing the operation of an autonomous power source during overloads arising from uneven daily loads of gas supply by the gas distribution station, is not used.

 The aim of the invention is to increase the efficiency and efficiency of the gas distribution station due to additional heating of the coolant in the gas heater, reducing fuel gas consumption and reducing the amount of flue gas emissions.

 This goal is achieved by the fact that in the method of power supply to the gas distribution station, which includes heating the coolant of the gas heater with fuel gas, generating electric energy by an autonomous power source by using the pressure drop of the reduction unit and using this energy for the needs of the station, they use the energy of overloads power source.

 The use of an overload current of an autonomous power source for additional heating of the coolant has made it possible to increase the efficiency and efficiency of the gas distribution station, reduce fuel gas consumption and reduce the amount of flue gas emissions.

 The applicant does not know how to power the gas distribution stations, in which additional heating of the coolant would be carried out using the energy of the overload currents of an autonomous power source.

 The drawing shows a diagram of a gas distribution station that implements the proposed method.

 The gas distribution station consists of a technological unit 1 with a reduction unit 2, high pressure gas pipelines 3 and low pressure 4, a gas heater 5 with a liquid coolant and a coil 6, an autonomous power source 7 and a heat exchanger 8. An autonomous power source 7 is connected in parallel with the reduction unit 2 by pipelines 9 and 10, and the heat exchanger 8 is located inside the gas heater 5 and is connected to an autonomous power supply 7 by electrically conductive elements 11, 12. The fuel gas supply line 13 for heating is warm the carrier is connected to the low pressure gas pipeline 4.

 The method of power supply to a gas distribution station is as follows. Gas is sent through the high pressure gas pipeline 3 to the technological unit 1, where it is subjected to condensate cleaning and sampling and sent to the coil 6 of the gas heater 5, in which it is heated with a heat transfer fluid to a temperature that prevents hydrate formation. The main heating of the liquid coolant is carried out with fuel gas, which is supplied via line 13 from the low pressure gas pipeline 4. The heated gas is supplied to the reduction unit 2, where it is reduced to a predetermined pressure value and sent to the consumer via the low pressure gas pipe 4. In an autonomous power supply 7, connected in parallel via pipelines 9 and 10 with a reduction unit 2, electricity is generated due to the pressure drop of the gas generated in the reduction unit. The generated electricity is used to meet the needs of the station. From uneven daily loads of gas supply to the GDS in an autonomous power source 7, energy of current overloads arises, therefore, to stabilize its operation, it is necessary to use a ballast load device. As heating elements of the ballast load device, a heat exchanger 8 is used, which is located inside the gas heater 5 and connected to an autonomous power source 7 by electrically conductive elements 11, 12. Using heat exchanger 8, additional heating of the heat carrier from an autonomous power source 7 is performed.

Example. Gas after purification and selection of condensate is heated in a gas heater with a liquid coolant. The temperature of heating the liquid coolant is 80 ^o C. For heating the coolant, fuel gas is used, the calorific value of which is 38800 kJ / m ³ and the volumetric flow rate for burners is 23.1 m ³ / h, while the heat power used to heat the coolant is 192 kW. Additional heating of the coolant is carried out using a heat exchanger, for the heating of which the energy of the overload currents of an autonomous power source is used. The thermal power used to heat the coolant from an autonomous power source is 8 kW. The efficiency coefficient of the GDS is 0.81.

Thus, the use of a gas distribution station power supply method, in which the overload current of an autonomous power supply is used for additional heating of the coolant, made it possible to increase the gas distribution station efficiency by 0.04, compared to known stations, to reduce fuel gas consumption by 1 m ³ / h and reduce the amount of flue gas emissions by 0.6 m ³ .

Claims (1)

 A method of power supply to a gas distribution station, including heating the gas carrier gas fuel with fuel gas, generating electric energy with an autonomous power source by using the pressure drop of the reduction unit, and using this energy for the station’s needs, characterized in that the overload current of the autonomous power source is used to additionally heat the coolant.