RU84502U1 - INSTALLATION FOR THE PROTECTION OF EXHAUST WELL LINES AND IN-FIELD PIPELINES FROM FREEZING IN EMERGENCY STOPPING OF WELLS - Google Patents

Abstract

Installation for protecting flow lines of wells and infield pipelines from freezing during emergency shutdowns of wells, containing a pipeline with a low-setting injection fluid, characterized in that the low-setting liquid is pumped into the oil pipelines using the pressure energy of the oil reservoir at the command of a temperature sensor using a time relay installed on control valves.

Description

The utility model relates to the field of the oil industry and can be used in the process of oil production and transportation.

Most installations for protecting pipelines against freezing include pumping saline solutions that lower the freezing temperature; continuous or periodic heating of pipelines with gases from an exothermic reaction between magnesium and hydrochloric acid (see ed. certificate 627286). Also known is the heating of pipelines with electric heating elements (Japan, US Pat. 49-5684).

Known installations for the protection of pipelines from freezing provide, as a rule, periodic or constant energy consumption, which leads to an increase in energy consumption for oil transportation and an increase in the cost of production of wells.

The closest technical solution to the proposed one is the technical solution to prevent freezing of pipelines (US Pat. 3,670,752, F17d 1/16), which consists in pumping 40-70% oil-salt emulsion containing enough dissolved salt in an amount to prevent freezing at low temperatures.

However, the existing installation of pipeline protection requires significant costs for the preparation of saline, its constant pumping in large enough volumes through oil field pipelines together with well production, its separation from oil and its disposal.

The objective of the utility model is to reduce costs by using the energy of the oil reservoir and setting the volume of the low-freezing fluid time relay, which issue control signals to the control valves.

The problem is solved in that the injection of fluid is carried out due to the pressure energy of the reservoir at the command of a temperature sensor using a time relay installed on the control valves.

Installation works as follows.

The low-curing liquid is placed in the container 9 and is under pressure of compressed gas due to its connection with the annulus of one or more production wells of the bush. When one well or the entire wellbore stops, cooling of flow lines and prefabricated collectors cools. When the critical temperature of the pipelines is reached, at which it is possible to freeze the production of wells, temperature sensors 3, 4, 5 give a signal to open the control valves 6, 7, 8, corresponding to the protected pipeline, and the production of wells is displaced by a low-setting fluid due to the energy of the compressed gas in the tank 9. The filling time with a low-curing liquid is set by a time relay 12, 13, 14, by applying the appropriate control signals to the control valves, it is set for each specific pipeline so, in terms of its volume and hydraulic resistance during filling waxy liquid.

Maintaining a constant pressure in the initial position in the tank 9 is provided by a safety valve 10, which discharges excess gas into the well production collection system. The actuators have a pneumatic drive, operating from the compressed gas of capacity 9. Using the energy of compressed gas from the annulus of the wells provides autonomy to protect oil fields from freezing, since its use is not directly related to the energy consumption of the oil field.

The proposed installation is used to apply the protection of flow lines of the wellbore with the supply of gas condensate or unstable gasoline as low-setting liquids in the fields of Western Siberia.

Using a utility model will reduce costs by using the energy of the oil reservoir.

Claims (1)

Installation for protecting flow lines of wells and infield pipelines from freezing during emergency shutdowns of wells, containing a pipeline with a low-setting injection fluid, characterized in that the low-setting liquid is pumped into the oil pipelines using the pressure energy of the oil reservoir at the command of a temperature sensor using a time relay installed on control valves.