SU709146A1 - Gas drying process automatic control apparatus - Google Patents

Description

The invention relates to devices for automatically controlling the process of absorption drying of gas transported over long distances; »It can be used in the gas production and gas processing industries.

A device is known for automatically controlling the process of drying c gas in an installation including an absorber containing a ratio regulator, an isodromic regulator, to which a functional unit is connected, connected to pressure and temperature sensors, a humidity sensor, and an expansion mechanism [1].

A disadvantage of the known device is the low quality of gas dehydration due to the loss of excess moisture in the pipeline and ** · the formation of ice plugs in winter conditions of gas transport.

To improve the quality of gas dehydration, the proposed device additionally contains crude gas and absorbent flow meters connected to the input of the ratio regulator, the reference chamber of which is connected to the isodromic regulator, and the output of the ratio regulator is connected to the actuator.

The drawing shows a diagram of the proposed device for automatically controlling the process of drying gas.

The device comprises a raw gas flow meter 1 installed at the inlet of the absorber 2, an absorbent flow meter 3, an actuator 4 mounted on the absorbent line, a ratio regulator 5 connected through an isodromic regulator 6 to a humidity sensor 7 and a functional unit 8 to which a pressure sensor 9 is connected and temperature sensor 10.

The device operates as follows.

The signals from the flowmeters 1 and 3 are fed to the ratio regulator 5, which maintains a certain ratio of these signals by acting on the actuator 4 mounted on the supply line of the absorbent. At the same time, a certain ratio of the costs of crude gas and absorbent material is maintained.

Such a regulation loop is not. takes into account changes in the humidity at the output of the absorber 2. To compensate for the disturbance in humidity at the output of the absorber, a pressure sensor and a temperature sensor are used, the signals from which are sent to function block 8, where the equilibrium moisture content of the raw gas is calculated from these data. A signal proportional to the calculated value of the humidity of the raw gas is supplied as a reference to the input of the isodromic regulator 6; at the same time, the signal from the humidity sensor 7 is proportional to the same value as the current ⁵ value of the actual humidity of the dried gas. Depending on the ratio of the calculated and actual humidity, the isodromic regulator generates a control signal 20. .This signal as a task goes to the ratio regulator, which provides a certain ratio of the flow rate of the raw gas and the absorbent, taking into account the ratio of - 25

solution of the calculated and actual values of humidity at the outlet of the absorber.

Claims (2)

The invention relates to devices for automatically controlling the process of absorption drying of gas transported over long distances; It can be used in the gas and gas processing industry. A device is known for automatically controlling the gas drying process in an installation that includes an absorber containing a ratio controller, an isodromic controller to which a functional unit connected to pressure and temperature sensors, a humidity sensor and an actuator 1 are connected. A disadvantage of the known device is poor quality of gas drying due to the loss of excessive moisture in the gas pipeline and the formation of ice plugs in winter conditions of gas transportation. To improve the quality of drying gas, the proposed device additionally contains raw gas and absorbent flow meters connected to the inlet of the ratio controller, the reference chamber of which is connected to the isodromic controller, and the output of the ratio controller is connected to the actuator. The drawing shows the scheme of the proposed device for automatic control of the gas drying process. The device contains a raw gas flow meter 1 installed at the inlet of the absorber 2, an absorbent flow meter 3, an actuator 4 mounted on the absorbent line, a ratio controller 5 connected via an isodromic controller 6 to a humidity sensor 7 and a functional unit 8 to which A pressure sensor 9 and a temperature sensor 10 are connected. The device operates as follows. The signals from flow meters 1 and 3 are fed to the ratio controller 5, which maintains a certain ratio of these signals by acting on the actuator 4 installed on the supply line of the absorbent. At the same time, a certain ratio of raw gas and absorbent costs is maintained. Such a control loop is not. takes into account changes in the moisture content at the absorber outlet 2. To compute the moisture perturbation at the output of the absorber, a pressure sensor and a temperature sensor are used, the signals from which are fed to the functional unit 8, where the equilibrium moisture content of the raw gas is calculated from these data. A signal proportional to the calculated moisture content of the raw gas is supplied as an input to the isodromic controller 6; at the same time, a signal from the humidity sensor 7, proportional to the current value of the actual humidity of the dried gas, is supplied as a variable. Depending on the ratio of the calculated and actual moisture values, the isodromic controller produces a control signal. This signal as a reference goes to a ratio controller, which provides a certain ratio of the flow rates of the raw gas and the absorbent and taking into account the ratio. Calculated and actual values of humidity at the outlet of the absoober. Apparatus of the Invention A device for automatic control of a gas drying process in an installation that includes an absorber containing a ratio controller, an isodromic controller to which a functional unit connected to pressure and temperature sensors, a humidity sensor and an actuator are connected, In order to improve the quality of gas drying, it additionally contains flowmeters of raw gas and absorbent connected to the inlet of the ratio controller, the task chamber of which is connected to the isodromic regulator rum, and the output of the ratio controller is connected to the actuator. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 526376, cl. B 01 D 53/26, 1974. Drained Gas