RU1822925C - Method of control of the process of prevention of hydrate formation in the gas line - Google Patents

Abstract

The invention relates to the gas industry and can be used in process control systems for preventing hydrate formation in gas pipelines in gas and gas condensate fields, gas transmission facilities. The purpose of the invention is to increase the efficiency of the control process. The essence of the invention lies in the fact that the flow of the hydrate inhibitor is changed depending on the mismatch between the current and the set values of the ratio of gas flow rates in the gas pipeline and the bypass with the hydrate accumulator to the straight section of the gas pipeline without stop valves, and the set value of the ratio is selected from the condition hydrates in the hydrate accumulator and are absent in the gas pipeline and lies in the range of 0.5-0.9 of the value of the ratio in the absence of hydrates in the accumulator and gas pipeline. 1 ill.

Description

The invention relates to the gas industry and can be used in process control systems for preventing hydrate formation in gas pipelines in gas and gas condensate fields, gas transmission facilities. P

The purpose of the invention is to increase the efficiency of the control process.

The essence of the invention lies in the fact that the flow of the hydrate inhibitor is changed depending on the mismatch between the current and the set values of the ratio of gas flow rates in the gas pipeline and the bypass with the hydrate accumulator to the straight section of the gas pipeline without shut-off and control valves, while the set value of the ratio is selected from the condition of the presence of hydrates and hydrate accumulator and absent in the gas pipeline and lies in the range of 0.5-0.9 of the value

ratios in the absence of hydrates in the reservoir in the reservoir and the gas pipeline.

The drawing shows a schematic diagram of the implementation of the control method.

Hydrate formation is prevented in gas pipeline 1. Part of the gas is bypassed bypass 2 containing a moisture collector 3 and a hydrate accumulator 4 (for example, a bend, piping loops). A moisture collector 3 is included in the circuit if there is a drop of moisture (water, condensate) in the gas to exclude the influence of moisture accumulated in the bypass on its hydraulic resistance. The gas flow rate in bypass 2 and gas pipeline 1 is measured by flowmeters 5 and 6, respectively, connected to the control computer complex (UVK) 7. The latter is connected to the actuator 8 on the line 9 for supplying the hydrate inhibitor to gas pipeline 1

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The method is implemented as follows.

Flowmeters 5 and 6 of UVK 7 and actuator 8 form a closed system of automatic control (ATS) of the ratio of gas flows in bypass 2 (O) and gas pipeline 1 (Og). Let the ratio of gas consumption in a non-hydrate mode

gas transport is equal to: a0 -. This re-

Or

the press is created by entering the excess consumption of the inhibitor - the actuator 8 is fully open. Set the task of the specified ATS at the level of, for example, az 0.9ao and turn it on. jCAP reduces the consumption of the inhibitor, while hydrates begin to form in bypass 2 and are collected in hydrate accumulator 4. When the ATS is processed, the hydrate formation in bypass 2 stops during the transition process, because it is associated with an increase in the hydraulic resistance of the bypass and a deviation of the current value of the gas flow rate from the reference (ae).

When entering the CAP mode, it provides automatic stabilization of the adjustable parameter and gas-free transport of gas in gas pipeline 1 and bypass 2.

The scheme is implemented on the basis of well-known devices: a moisture collector, a hydrate accumulator (e.g., a bend of piping loops) of flow meters, a UVK (e.g., a microcontroller as part of an automatic process control system) of an actuator.

Claims (1)

The claims A method for controlling the process of preventing hydrate formation in a gas pipeline by mismatching the current and. a predetermined value of the ratio of gas flow in the gas pipeline and a bypass with a hydrate accumulator to a straight section of the gas pipeline without shut-off and control valves, characterized in that the set ratio is selected from the condition that hydrates are present in the hydrate accumulator and absent in the gas pipeline and lies in the range 0.5- 0.9 of the ratio value in the absence of hydrates in the reservoir and the gas pipeline. Editor Compiled by P. Egorov Tehred M. Morgenthal Proofreader N. Revska