RU2019139737A - OPERATING METHOD OF GAS HEATER WITH INTERMEDIATE COOLANT AND DEVICE FOR ITS IMPLEMENTATION - Google Patents

Claims (2)

1. A method of operation of a gas heater with an intermediate heat carrier, according to which a high-pressure gas of 6.5-7.5 MPa from the main gas pipeline is heated to 80-100 ° C in a gas heater with an intermediate heat carrier, equipped with a unified gas burner and expanded in a throttle to pressure 1.2-1.4 MPa, most of the expanded gas is fed into the outlet gas pipeline of the gas distribution station, and its smaller part is used as fuel gas with its combustion in a mixture with air in a unified gas burner of a preheater with an intermediate heat carrier, high pressure gas heating temperature and the pressure of the expanded gas is adjusted taking into account the high-pressure gas flow rate of the gas distribution station, characterized in that a unified burner is additionally used having diffusion and main combustion zones, as well as an additional autonomous catalytic fuel reformer (synthesis gas generator); both at nominal and at reduced high-pressure gas consumption through the gas distribution station, fuel gas expanded in the throttle is supplied to the diffuse combustion zone, and a gas mixture from an additional autonomous catalytic fuel reformer (synthesis gas generator) is supplied to the main combustion zone. from 32-35% hydrogen (H ₂ ), 16-18% carbon monoxide (CO) and 52-47% nitrogen (N ₂ )), while in the main combustion zone, a lean fuel-air mixture is burned using a regulating device in the syngas generator, the required ratio of produced H ₂ and CO is maintained. 2. A device for implementing the method according to claim 1, comprising a main gas pipeline, a gas heater with an intermediate heat carrier, a unified gas burner, a throttle, a fuel gas pipeline, an air duct with a fan, control valves, a control device and impulse lines; The main gas pipeline is connected through a control valve on the main gas pipeline to the inlet of a gas heater with an intermediate heat carrier, the output gas pipeline is connected by a fuel gas pipeline through a control valve to the inlet of a unified gas burner, an air duct with a fan is connected through a control valve to a unified gas burner, the output of which is connected to a gas heater ; the control device is connected by impulse lines with a control valve on the main gas pipeline, with a control valve on the air duct with a fan, with a control valve on the fuel gas pipeline, characterized in that it is additionally equipped with a mixer, a burner, an autonomous catalytic fuel reformer (synthesis gas generator) with a nickel catalyst and with a cooling jacket, a pipeline for supplying fuel gas to the mixer, an air duct and a synthesis gas pipeline; the fuel gas pipeline is connected to the mixer by the fuel gas supply pipeline to the mixer, the air line with the fan is connected to the mixer by the air line through the control valve on the air line and the cooling jacket of the additional autonomous catalytic fuel reformer (synthesis gas generator); a mixer through a burner, a nickel catalyst of an additional autonomous catalytic fuel reformer (synthesis gas generator) and a synthesis gas pipeline is connected to a unified gas burner.