RU2004117761A - METHOD OF DRYING PIPELINE CAVITY AND DEVICE FOR ITS IMPLEMENTATION - Google Patents

Claims (5)

1. A method of drying a cavity of pipelines, including initially filling with a medium a drainable pipeline under atmospheric pressure, raising the pressure in the drainable pipeline to a predetermined value, purging, depressurizing to vacuum, followed by drying of the pipeline cavity under vacuum, characterized in that when pressure is rising and purging, atmospheric air is used as the medium, and a gas medium is formed in the drained pipeline in the form of a mixture of atmospheric air and preliminary preparation the inert gas obtained to a predetermined humidity obtained from atmospheric air by its separation into nitrogen and oxygen in polymer hollow fiber membranes, after the removal of oxygen, the nitrogen-based inert gas is pumped into the drained pipeline, and after leaving the drained pipeline, the inert gas based on nitrogen is separated from liquids, liquid is removed, and the dried inert gas is mixed again with atmospheric air, separated into nitrogen and oxygen, water and nitrogen-based inert gas are removed, returned to the drained pipeline And further drying and filling the inert gas based on nitrogen cavity conduit leading to the recirculation mode to predetermined humidity values of the environment and the concentration of inert gas in the entire volume of the pipeline to be dried. 2. The drying method according to claim 1, characterized in that, in order to increase the efficiency of separation of atmospheric air into oxygen, an inert gas based on nitrogen and water removal, the flow rate and pressure of atmospheric air in the polymer hollow fiber membranes are controlled by creating a vacuum with a residual pressure of up to 10 mmHg in the output line of oxygen and water. 3. The drying method according to claim 1, characterized in that with each subsequent cycle of recirculation in the volume of the drained pipeline, the concentration of inert gas is increased, and when the specified humidity is reached, drying is carried out in recirculation mode only by booster pumping means until the moment at which the concentration of air in the entire volume of the mixture with an inert gas will reach a predetermined value. 4. A device for drying a cavity of pipelines, including a pumping means, a separator-water separator connected to it by a shut-off valve, a gas separation unit connected to it by a gas separation unit, a pipeline connected to the indicated gas separation unit, comprising a regulator valve and a shut-off valve, for docking with a drained pipeline , evacuation means and a pipe connected thereto for connecting to a drainable pipeline and a purge plug with a shut-off valve, forming a purge channel communicating drained pipeline directly with the surrounding outside air, means for monitoring residual humidity, pressure, and an inert gas and air concentration analyzer in the drained pipeline, characterized in that the device further comprises an inert gas mixture recirculation loop, including a drained pipeline connected to the gas separation unit, a heat exchanger - cooler and a booster pumping inert gas means, the suction pipe of which is connected to the drained pipe, and the discharge pipe is in communication with the discharge pipe for pumping atmospheric air, the suction and discharge pipes of the booster pump are equipped with shut-off valves forming a recirculation channel, continuously communicating a drainable pipe with a gas separation unit, and the gas separation block supplies the recirculation channel with atmospheric air, which has an inert gas concentration increases to a predetermined value with each subsequent recirculation cycle after mixing Bani inert gas and air. 5. The drying device according to claim 4, characterized in that, in order to increase the efficiency of the separation of atmospheric air into oxygen, an inert gas based on nitrogen and the allocation of water from the gas-air mixture, the gas separation unit is additionally connected to a vacuum device, the suction line of this device communicated by the pipeline and the shut-off valve with an oxygen and water outlet line of the gas separation unit, and a regulator valve is installed on the inert gas outlet line of the gas separation unit.