RU2238578C1 - Fiber-optic cable for measuring temperature distribution in steam-forcing wells - Google Patents

Abstract

FIELD: optical cables engineering.

SUBSTANCE: cable has optical fiber placed in sealed metallic pipe. Protective cover is a metallization layer closely adjacent to fiber as well as glass-wire winding encircling metallization layer. Pressurized metallic pipe is filled with inert gas.

EFFECT: higher reliability and lower costs.

8 cl, 1 dwg

Description

The invention relates to the field of oil production and can be used in the production of viscous oil, when exposed to the bottom-hole zone of the wells with steam at high temperature (up to 350 ° C and above) and pressure (up to 170 atm) in devices for measuring the temperature distribution in the well.

Known fiber optic cable for measurements in wells, including optical fiber coated in a sealed metal tube, coated with a protective sheath (US patent No. 6148925, E 21 B 19/08, 11/21/2000).

A disadvantage of the known cable is the low ambient temperature of possible operation.

Known fiber optic cable, including located in a sealed metal tube filled with a filler, an optical fiber coated with a protective sheath (RF patent No. 2017246).

A disadvantage of the known cable is that it is not intended for use in wells, and even more so in steam injection (high temperature and pressure).

Known, selected as a prototype, a fiber optic cable for measuring temperature distribution and pressure in wells, including an optical fiber coated in a sealed metal tube filled with a protective sheath (WWW. Oil and gas international, corn. New real time down hole fider - optic monitoring system launched at SEG. 07/10/2002; Salt Lake City).

A disadvantage of the known cable is the limited area of use (operating temperature up to 250 ° C), which is determined by the temperature of the destruction of polymer materials (not more than 300 ° C with constant exposure to temperature), since its protective sheath is made of polymer. Another disadvantage is that “silicone oil” is used as a filler, which when heated releases hydrogen, diffusing through the shell into the optical fiber and together with oxygen forming water, causing the degradation of the optical fiber. The metal tube (outer sheath) of the cable is made using laser welding technology, which increases the cost of the cable.

The objective of the invention is to obtain a technical result, which is expressed in expanding the field of use and ensuring long-term operation (at least 10,000 hours) at temperatures above 350 ° C, reducing the cost of the cable.

The technical result is achieved in that in a fiber-optic cable for measuring the temperature distribution in steam injection wells, including an optical fiber coated in a sealed metal tube filled with a filler, the protective sheath according to the invention is a metallization layer adjacent to the optical fiber, and a glass-fiber braid covering it, while an inert gas is used as a filler.

In a specific embodiment, the metallization layer may be made of copper and its thickness may be several tens of micrometers.

It is advisable to make a metal tube made of stainless steel with a wall thickness of about 1 mm, while it can consist of segments of seamless tubes welded together.

As an inert gas, for example, argon under a pressure of about 1 kg / cm ² can be used.

The drawing shows a cable in cross section.

The cable includes an optical fiber 1 coated with a protective sheath, which is a metallization layer 2 of copper, gold, nickel, etc. a thickness of several tens of micrometers and a braid 3 of glass fiber covering it. Layer 2 metallization provides long-term operation of the optical fiber at temperatures above 350 ° C. Braid 3 provides mechanical protection for the optical fiber in the manufacture and operation of the cable. A sealed metal tube 4, for example, stainless steel is filled with a filler - an inert gas, for example argon, under a pressure of about 1 kg / cm ² , in which optical fiber 1, metallization layer 2 and braid 3 are placed. Tube 4 consists of welded together pieces of seamless tubes and has a wall thickness of about 1 mm. The cable in the manufacturing process is wound on a transport drum, or on a lift drum. The descent of the cable into the well and its location in it are carried out in a known manner.

Measurement of the temperature distribution in the well is carried out using known equipment by a known method.

A cable with a diameter of 6 mm was made. He is currently undergoing tests.

The proposed cable, having a low cost, can be used in steam injection wells characterized by complex thermobaric conditions (pressure up to 170 atm, temperature over 350 ° C).

Claims (8)

1. Fiber-optic cable for measuring the temperature distribution in steam injection wells, including optical fiber coated in a sealed metal tube filled with a filler, characterized in that the protective sheath is a metallization layer adjacent to the optical fiber, and covering its braid glass fiber, while an inert gas is used as a filler. 2. The cable according to claim 1, characterized in that the metallization layer is made of copper. 3. The cable according to claim 1 or 2, characterized in that the thickness of the metallization layer is several tens of micrometers. 4. The cable according to one of claims 1 to 3, characterized in that argon is used as an inert gas. 5. The cable according to one of claims 1 to 4, characterized in that the inert gas is at a pressure of about 1 atm. 6. Cable according to one of claims 1 to 5, characterized in that the metal tube is made of stainless steel. 7. Cable according to one of claims 1 to 6, characterized in that the metal tube consists of segments of seamless tubes welded together. 8. The cable according to one of claims 1 to 7, characterized in that the wall thickness of the metal tube is about 1 mm.